JP2019170823A - Game machine - Google Patents

Abstract

To provide a game machine not easily affected by noise or the like.SOLUTION: A game machine includes: setting information change means capable of changing setting information as information for determining one privilege granting condition from among a plurality of privilege granting conditions; privilege granting condition storage means for storing one privilege granting condition corresponding to setting information with setting of at least the setting information as an opportunity; ball entry means for permitting entry of game balls; special information acquisition means for acquiring special information with entry of game balls into the ball entry means as an opportunity; special information determination means for determining whether special information satisfies one privilege granting condition stored in the privilege granting condition storage means; and privilege granting means for granting privilege to a player when it is determined that special information satisfies one privilege granting condition.SELECTED DRAWING: Figure 103

Description

  The present invention relates to a gaming machine.

  In gaming machines such as pachinko machines and slot machines, it is possible to improve the fun of gaming, reduce the processing load of gaming machines, optimize processing, simplify control, simplify structure, increase the efficiency of game machine development, Technical improvements have been made from various viewpoints such as structure, control, production, etc. for the purpose of providing gaming machines that are less prone to malfunctions, and providing gaming machines in consideration of players (for example, Patent Document 1). ).

  In addition, various technical improvements have been made for the purpose of improving the soundness of games, such as the discovery and suppression of illegal acts by players and unauthorized modifications to gaming machines.

JP 2011-172988 A

  In gaming machines such as those mentioned above, there is an increase in gaming interest, reduction in processing load on gaming machines, optimization of processing, simplification of control, simplification of structure, efficiency of development of gaming machines, and problems. Further technical improvements are desired for the purpose of providing difficult gaming machines, providing gaming machines in consideration of players, and providing more sound games.

  SUMMARY An advantage of some aspects of the invention is to solve at least a part of the problems described above, and the invention can be implemented as the following forms.

[Form] (This form is mainly based on the aspect 110 of the following first embodiment)
Setting information changing means capable of changing setting information, which is information for determining one privilege granting condition from among a plurality of privilege granting conditions;
Privilege grant condition storage means for storing the one privilege grant condition corresponding to the setting information, triggered by at least the setting information being changed,
A ball entry means that allows a game ball to 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 one privilege grant condition stored in the privilege grant condition storage means;
A privilege granting means for granting a privilege to a player when it is determined that the special information satisfies the one privilege granting condition;
A gaming machine characterized by comprising:

  According to the said form, the game machine which is hard to receive to the influence of noise etc. can be provided.

It is a perspective view of the pachinko machine in a 1st embodiment. It is a rear view of a pachinko machine. It is a front view of a game board. It is explanatory drawing which shows the symbol and display surface which are variably displayed in a symbol display apparatus. It is a block diagram which shows the electric constitution of a pachinko machine. It is explanatory drawing which shows the content of the various counters used for winning lottery. It is explanatory drawing which shows the content of the success / failure table. It is explanatory drawing which shows the content of the allocation table. It is explanatory drawing which shows the content of the success / failure table for electrically-powered object open | release lottery. It is a block diagram which shows the structure of a main controller, and the structure of an inspection machine in detail. It is explanatory drawing which shows typically the content of the process in a game history management chip | tip and an inspection machine. It is a flowchart which shows the main process which the main side MPU performs. It is a flowchart which shows the timer interruption process which the main side MPU performs. It is explanatory drawing explaining the structure of the input port provided in main side MPU. It is explanatory drawing explaining the entrance detection process which the main side MPU performs. It is a flowchart which shows the entrance determination process which the main side MPU performs. It is explanatory drawing explaining a mode that the presence or absence of a ball is detected. It is a flowchart which shows the main process which CPU of a game log | history management chip performs. It is a block diagram which shows in detail the structure of the main control apparatus with which the pachinko machine of the aspect 6 of 1st Embodiment is provided, and the structure of an inspection machine. It is explanatory drawing which shows typically the content of the process in the game log | history management chip | tip and test | inspection machine of the aspect 6 of 1st Embodiment. It is a block diagram which shows in detail the structure of the main controller with which the pachinko machine of aspect 7 of 1st Embodiment is provided, and the structure of an inspection machine. It is explanatory drawing which shows typically the outline | summary of the process in the game log | history management chip | tip of the aspect 7 of 1st Embodiment, and an inspection machine. It is a block diagram which shows the electric constitution of the pachinko machine in aspect 11 of 1st Embodiment. It is explanatory drawing which shows typically the outline | summary of the process in the main side MPU of the aspect 11 of 1st Embodiment. It is a block diagram which shows the electric constitution of the pachinko machine in aspect 12 of 1st Embodiment. It is a block diagram which shows the electric constitution of the pachinko machine in aspect 23 of 1st Embodiment. It is a flowchart which shows the timer interruption process which the main side MPU (main side CPU) of the aspect 23 of 1st Embodiment performs. It is a flowchart which shows the entrance detection process which the main side MPU (main side CPU) of the aspect 23 of 1st Embodiment performs. It is a flowchart which shows the process for game history which the main side MPU (main side CPU) of the aspect 23 of 1st Embodiment performs. It is explanatory drawing which shows an example of the specific process which the main side MPU (main side CPU) of the aspect 23 of 1st Embodiment performs. It is a block diagram which shows the electric constitution of the pachinko machine in aspect 37 of 1st Embodiment. It is a flowchart which shows an example of the main process which the main side MPU (main side CPU) of the aspect 46 of 1st Embodiment performs. It is explanatory drawing which shows typically a part of electrical structure of the pachinko machine in the aspect 50 of 1st Embodiment. It is a flowchart which shows an example of the main process which the main side MPU (main side CPU) in the aspect 56 of 1st Embodiment performs. It is explanatory drawing which shows the structure of an information display part. It is explanatory drawing which shows a mode that the game history information is displayed on the information display part. It is explanatory drawing which shows a mode that setting information is displayed on the information display part in setting change mode. It is explanatory drawing which shows a mode that setting information is displayed on the information display part in setting change mode. It is explanatory drawing which shows a mode that setting information is displayed on the information display part in setting change mode. It is explanatory drawing which shows a mode that setting information is displayed on the information display part in setting change mode. It is explanatory drawing which shows a mode that setting information is displayed on the information display part in setting change mode. It is a block diagram which shows the electric constitution of the pachinko machine 10 in the aspect 74 of 1st Embodiment. It is explanatory drawing which shows the structure of main side ROM. It is explanatory drawing which shows the structure of main side RAM. It is a schematic diagram which shows an example of the memory map of a main controller. It is a flowchart which shows the timer interruption process which the main side CPU of the aspect 74 of 1st Embodiment performs. It is a flowchart which shows the timer interruption process which the main side CPU of the aspect 75 of 1st Embodiment performs. It is a flowchart which shows the timer interruption process which the main side CPU of the aspect 76 of 1st Embodiment performs. It is process drawing which shows the operation | work process in case an administrator changes the lottery setting of a pachinko machine. It is process drawing which shows the operation | work process in case an administrator confirms the lottery setting of a pachinko machine. It is a flowchart which shows a part of main process which the main side MPU (main side CPU) of the aspect 87 of 1st Embodiment performs when a power supply is turned ON. It is a flowchart which shows the setting change process which the main side MPU (main side CPU) of the aspect 87 of 1st Embodiment performs. It is a flowchart which shows the setting confirmation process which the main side MPU (main side CPU) of the aspect 87 of 1st Embodiment performs. It is a flowchart which shows a part of main process which the main side MPU (main side CPU) of the aspect 88 of 1st Embodiment performs when a power supply is turned ON. It is a flowchart which shows a part of main process which the main side MPU (main side CPU) of the aspect 89 of 1st Embodiment performs when a power supply is turned ON. It is a flowchart which shows a part of main process which the main side MPU (main side CPU) of the aspect 90 of 1st Embodiment performs when a power supply is turned ON. It is a flowchart which shows the setting change process which the main side MPU (main side CPU) of the aspect 91 of 1st Embodiment performs. It is a time chart which shows an example of the change of the display mode of an information display part. It is a time chart which shows an example of the change of the display mode of the information display part in case the number of discharge passage passages during measurement reaches 60000. It is a time chart which shows an example of the change of the display mode of the information display part in case the number of discharge passage passages during measurement reaches 60000. It is a flowchart which shows the main process which the main side MPU (main side CPU) of the aspect 97 of 1st Embodiment performs when a power supply is turned ON. It is a flowchart which shows the main process which the main side MPU (main side CPU) of the aspect 97 of 1st Embodiment performs when a power supply is turned ON. It is a flowchart which shows the main process which the main side MPU (main side CPU) of the aspect 98 of 1st Embodiment performs when a power supply is turned ON. It is a flowchart which shows the main process which the main side MPU (main side CPU) of the aspect 98 of 1st Embodiment performs when a power supply is turned ON. It is a flowchart which shows the main process which the main side MPU (main side CPU) of the aspect 100 of 1st Embodiment performs when a power supply is turned ON. It is a flowchart which shows the setting change process which the main side MPU (main side CPU) of the aspect 100 of 1st Embodiment performs. It is a flowchart which shows the setting confirmation process which the main side MPU (main side CPU) of the aspect 100 of 1st Embodiment performs. It is a flowchart which shows the timer interruption process which the main side MPU (main side CPU) of the aspect 100 of 1st Embodiment performs. FIG. 2 is a block diagram illustrating mainly an electrical configuration of a sound emission control device 90 and a display control device 100 according to an aspect 101 of the first embodiment. It is a flowchart which shows the main process which the main side MPU (main side CPU) of the aspect 101 of 1st Embodiment performs when a power supply is turned ON. It is a flowchart which shows the setting change process which the main side MPU (main side CPU) of the aspect 101 of 1st Embodiment performs. It is a flowchart which shows the setting confirmation process which the main side MPU (main side CPU) of the aspect 101 of 1st Embodiment performs. It is a flowchart which shows the timer interruption process which the main side MPU (main side CPU) of the aspect 101 of 1st Embodiment performs. It is a flowchart which shows the main process which the sound-light side MPU (sound-light side CPU) of the aspect 101 of 1st Embodiment performs. It is a flowchart which shows the starting date information acquisition process which the sound light side MPU (sound light side CPU) of the aspect 101 of 1st Embodiment performs. It is a flowchart which shows the starting classification alerting | reporting process which the sound-light side MPU (sound-light side CPU) of the aspect 101 of 1st Embodiment performs. It is a flowchart which shows the timer interruption process which the sound light side MPU (sound light side CPU) of the aspect 101 of 1st Embodiment performs. It is a flowchart which shows the process for RTC effects which the sound-light side MPU (sound-light side CPU) of the aspect 101 of 1st Embodiment performs. It is explanatory drawing explaining an RTC effect execution determination table. It is a flowchart which shows the starting date information acquisition process which the sound light side MPU (sound light side CPU) of the aspect 102 of 1st Embodiment performs. It is a flowchart which shows the timer interruption process which the main side MPU (main side CPU) of the aspect 103 of 1st Embodiment performs. It is a flowchart which shows the entrance process for the starting port which the main side MPU (main side CPU) of the aspect 103 of 1st Embodiment performs. It is a flowchart which shows the destination determination process which the main side MPU (main side CPU) of the aspect 103 of 1st Embodiment performs. It is a flowchart which shows the entrance process for through gates which the main side MPU (main side CPU) of the aspect 103 of 1st Embodiment performs. It is a flowchart which shows the game time control process which the main side MPU (main side CPU) of the aspect 103 of 1st Embodiment performs. It is a flowchart which shows the data setting process which the main side MPU (main side CPU) of the aspect 103 of 1st Embodiment performs. It is a flowchart which shows the change start process which the main side MPU (main side CPU) of the aspect 103 of 1st Embodiment performs. It is a flowchart which shows the hit determination processing which the main side MPU (main side CPU) of the aspect 103 of 1st Embodiment performs. It is a flowchart which shows the setting process of the variation time which main side MPU (main side CPU) of the aspect 103 of 1st Embodiment performs. It is a flowchart which shows the game state transfer process which the main side MPU (main side CPU) of the aspect 103 of 1st Embodiment performs. It is a flowchart which shows the big prize opening / closing process which the main side MPU (main side CPU) of the aspect 103 of 1st Embodiment performs. It is a flowchart which shows the transfer process at the time of the end of the ending period which the main side MPU (main side CPU) of the aspect 103 of 1st Embodiment performs. It is a flowchart which shows the electric power support process which the main side MPU (main side CPU) of the aspect 103 of 1st Embodiment performs. It is a flowchart which shows the electric utility opening / closing control process which the main side MPU (main side CPU) of the aspect 103 of 1st Embodiment performs. It is a flowchart which shows the timer interruption process which the sound light side MPU (sound light side CPU) of the aspect 102 of 1st Embodiment performs. It is a flowchart which shows the process for holding | maintenance effect which the sound-light side MPU (sound-light side CPU) of the aspect 102 of 1st Embodiment performs. It is a flowchart which shows the entrance process for the starting port which the main side MPU (main side CPU) of the aspect 104 of 1st Embodiment performs. It is a flowchart which shows the change start process which the main side MPU (main side CPU) of the aspect 104 of 1st Embodiment performs. It is a flowchart which shows the entrance process for the starting port which the main side MPU (main side CPU) of the aspect 105 of 1st Embodiment performs. It is a flowchart which shows the change start process which the main side MPU (main side CPU) of the aspect 105 of 1st Embodiment performs. It is a flowchart which shows the entrance process for the starting port which the main side MPU (main side CPU) of the aspect 106 of 1st Embodiment performs. It is a flowchart which shows the change start process which the main side MPU (main side CPU) of the aspect 106 of 1st Embodiment performs. It is a flowchart which shows the main process which the main side MPU62 (main side CPU62x) of the aspect 110 of 1st Embodiment performs when a power supply is turned ON. It is a flowchart which shows the timer interruption process which the main side MPU62 of the aspect 110 of 1st Embodiment performs. It is a flowchart which shows the entrance process for the starting port which the main side MPU62 of the aspect 110 of 1st Embodiment performs. It is a flowchart which shows the destination determination process which the main side MPU62 of the aspect 110 of 1st Embodiment performs. It is a flowchart which shows the game time control process which the main side MPU62 of the aspect 110 of 1st Embodiment performs. It is a flowchart which shows the change start process which the main side MPU62 of the aspect 110 of 1st Embodiment performs. It is a flowchart which shows the hit determination processing which the main side MPU62 of the aspect 110 of 1st Embodiment performs. It is explanatory drawing which shows a mode that setting information is displayed on the information display part 45z in the aspect 111 of 1st Embodiment. It is a flowchart which shows the setting change process which the main side MPU62 (main side CPU62x) of the aspect 111 of 1st Embodiment performs. It is a flowchart which shows the setting confirmation process which the main side MPU62 (main side CPU62x) of the aspect 111 of 1st Embodiment performs. It is a front view of the game board 30 in the aspect 112 of 1st Embodiment. It is a block diagram which shows the electric constitution of the pachinko machine 10 in the aspect 112 of 1st Embodiment. It is a flowchart which shows the main process which the main side MPU62 (main side CPU62x) of the aspect 112 of 1st Embodiment performs when a power supply is turned ON. It is a block diagram which shows the electric constitution of the pachinko machine 10 in the aspect 118 of 1st Embodiment. It is explanatory drawing which shows a mode that the error code is displayed on the information display part 45z in the aspect 119 of 1st Embodiment.

Embodiments of a 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. About the invention group extracted from each of the above embodiments, etc .:

A. First embodiment:
A1. Game machine structure:
FIG. 1 is a perspective view of a pachinko gaming machine (hereinafter also referred to as “pachinko machine”) in the first embodiment. The pachinko machine 10 includes a wooden outer frame 11 combined into a substantially rectangular shape. When the pachinko machine 10 is installed in the game hall, the outer frame 11 is fixed to the island equipment of the game hall. The pachinko machine 10 includes a pachinko machine body 12 that is rotatably supported by the outer frame 11. The pachinko machine main body 12 includes an inner frame 13 and a front door frame 14 disposed on the front surface 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 surface of the inner frame 13, control devices such as a main control device, a sound emission control device, and a display control device that control the pachinko machine body 12 are arranged. Details of these control devices will be described later. Further, 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 as not to be opened and a function of locking the front door frame 14 to the inner frame 13 so as not to be opened. Each lock is unlocked by performing a predetermined operation using a dedicated key on the cylinder lock 17.

  An opened window portion 18 is formed at a substantially central portion of the front door frame 14. Around the window portion 18 of the front door frame 14, resin parts and electric decoration parts for decorating the pachinko machine 10 are provided. The electrical decoration part is comprised by the light emission means which consists of various lamps, such as LED. The light-emitting means plays a role of enhancing the effect by lighting or blinking at each game time, a big win winning, a reach occurrence or the like performed by the pachinko machine 10. Further, on the back side of the front door frame 14, a glass unit 19 made of two plate glasses is disposed, and the opened window 18 is sealed by the glass unit 19. A game board, which will be described later, is detachably attached to the inner frame 13, and a player of the pachinko machine 10 can visually recognize 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 plate 20 and a lower plate 21 for storing game balls. The upper plate 20 is formed in a box shape having an open upper surface, and stores game balls such as rental balls lent out from a rental machine (not shown) and prize balls discharged from the pachinko machine body 12. The game balls stored in the upper plate 20 are supplied to a game ball launching mechanism provided in the pachinko machine body 12. The game ball launching mechanism is driven by the operation of the operation handle 25 by the player, and launches the game ball supplied from the upper plate 20 onto the front surface of the game board. The lower plate 21 is disposed below the upper plate 20 and is formed in a box shape with an open upper surface. The lower plate 21 stores game balls that could not be stored in the upper plate 20. On the bottom surface of the lower plate 21, a discharge port 22 for discharging game balls stored in the lower plate 21 is formed. A lever 23 is provided below the discharge port 22, and the player can switch between the closed state and the open state of the discharge port 22 by operating the lever 23. When the player operates the lever 23 to open the discharge port 22, the game ball falls from the discharge port 22, and the game ball is discharged from the lower plate 21 to the outside.

  An effect operation button 24 as an operation receiving means is provided in front of the peripheral portion of the upper plate 20. The effect operation button 24 is an operation unit for a player to perform an input operation for a game effect performed by the pachinko machine 10. When the player operates the effect operation button 24 at a predetermined timing prepared by the pachinko machine 10, a game effect reflecting the operation is performed by the pachinko machine 10.

  Furthermore, an operation handle 25 for a player to operate is provided on the right side of the front door frame 14 when viewed from the front. When the player operates the operation handle 25, a game ball is launched from the game ball launch mechanism to the front of the game board in conjunction with the operation. Inside the operation handle 25, a touch sensor 25a for permitting driving of the game ball launching mechanism, a weight button 25b for stopping the game ball launching by the game ball launching mechanism by a pressing operation by the player, and the operation handle 25 Is provided with a variable resistor 25c that detects the amount of rotation of the first and second rotations based on a change in electrical resistance. When the player holds 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 corresponding to the amount of rotation operation. Then, a game ball is launched from the game ball launching mechanism to the front surface of the game board with a strength corresponding to the resistance value of the variable resistor 25c.

  Next, the configuration of the back surface of the pachinko machine 10 will be described. A control device for controlling the operation of the pachinko machine 10 is disposed on the back surface 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 mechanism portions are provided on the back surface of the inner frame 13.

  The first control unit 51 includes a main control device 60. The main control device 60 has a main control board having a function for controlling the main game and a function for monitoring the power source. The main control board is accommodated in a board box made of a transparent resin material. The substrate box is configured to leave an open / close trace (also referred to as an open trace or an open trace). For example, a seal seal is affixed to an openable and closable portion, and characters such as “open” appear when the substrate box is opened.

  The second control unit 52 includes a sound emission control device 90 and a display control device 100. The sound emission control device 90 controls light emitting means such as a speaker and various lamps provided on the front surface of the pachinko machine 10 based on the command transmitted from the main control device 60. The display control device 100 controls the symbol display device based on the command transmitted from the sound emission control device 90. The symbol display device includes a liquid crystal display that displays a symbol or an image for production.

  The third control unit 53 includes a payout control device 70 and a launch control device 80. The payout control device 70 performs payout control for paying out prize balls. When the instruction for launching the game ball is input from the main control device 60, the launch control device 80 launches the game ball with a strength corresponding to the amount of rotation of the operation handle 25 by the player. Controls the ball launch mechanism. In addition, on the back surface of the inner frame 13, a tank 54 to which game balls supplied from the island equipment of the game hall are sequentially replenished, and a slope that is gently inclined so that the game balls are connected to the lower side of the tank 54 and flow downstream. A tank rail 55 having a vertical position, a case rail 56 connected to the downstream side of the tank rail 55 in the vertical direction, a supply of game balls from the case rail 56, and a predetermined number of game balls to be paid out according to an instruction from the 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 described. 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 composed 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 a game ball is formed between the inner rail portion 31a and the outer rail portion 31b. The game ball launched from the game ball launching mechanism is guided to 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 each accessory such as a windmill is arranged. The nails 42 and the windmills distribute and organize the falling directions 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. Further, the game board 30 is provided with a variable display unit 40 and a main display unit 45. The main display unit 45 includes a special map unit 37, a universal map unit 38, and a round display unit 39.

  The general prize opening 32 is a ball opening through which a game ball can enter and is provided on the game board 30. In the present embodiment, when a game ball enters the general winning opening 32, ten game balls are paid out from the payout device 71 as prize balls. In the present embodiment, three general winning ports 32a, 32b, and 32c are provided as the general winning ports 32. Hereinafter, the general winning port 32a is also referred to as a first winning port 32a, the general winning port 32b is also referred to as a second winning port 32b, and the general winning port 32c is also referred to as a third winning port 32c.

  The first start port 33 is a ball entrance where a game ball can enter. The first start port 33 is provided below the center of the game board 30. In the present embodiment, when a game ball enters the first start port 33, three game balls are paid out as prize balls, and a winning lottery described later is executed.

  The second start port 34 is a entrance for allowing game balls to enter, and is provided on the right side of the game board 30. In the present embodiment, when a game ball enters the second start port 34, three game balls are paid out as prize balls and a winning lottery described later is executed. 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 penetrating in the vertical direction. The through gate 35 is a through gate serving as an opportunity for executing a lottery for opening the electric accessory 34a. Specifically, when the game ball passes through the through gate 35, the main control device 60 performs an internal lottery (electrical instrument opening lottery) triggered by the passage. As a result of the internal lottery, when the winning combination is won, the electric accessory 34a shifts to an open state where the electric combination 34a is opened in a predetermined manner. Since the through gate 35 is disposed on the upstream side of the second starting port 34 with respect to the flow direction of the game ball, the game ball that has passed through the through gate 35 flows down the game area PA after passing through the second start port 34 and is second. It is possible to enter the starting port 34. In this embodiment, even when the game ball passes through the through gate 35, the payout of the winning ball is not executed.

  The variable winning device 36 includes a large winning opening 36a that leads to the back side of the game board 30, and an open / close door 36b that opens and closes the large winning opening 36a. The open / close door 36b is normally in a closed state in which a game ball cannot enter the grand prize winning opening 36a. When a game ball enters the first start port 33 or the second start port 34, the main control device 60 executes a winning lottery (internal lottery). As a result of the winning lottery, when the big win or the small win is won, the pachinko machine 10 shifts to the opening / closing execution mode. The opening / closing execution mode is a mode for executing the opening / closing process of the opening / closing door 36b of the variable winning device 36. Specifically, when the open / close door 36b of the variable prize-winning device 36 shifts to the open / close execution mode, the open / close door 36b transitions from a closed state in which a game ball cannot enter to an open state in which a game ball can enter and a predetermined condition is satisfied. After that, the transition is again made to the closed state. In the present embodiment, when a game ball enters the large winning opening 36 a of the variable winning device 36, 15 paying balls are paid out by the payout device 71.

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

  In the present embodiment, a game that has entered the first starting port 33, the second starting port 34, the first winning port 32a, the second winning port 32b, the third winning port 32c, the big winning port 36a, and the out port 43. The ball is configured to join a discharge passage provided on the back surface of the game board 30, and a discharge passage detection sensor for detecting the game ball is provided in the discharge passage. As will be described later, in the present embodiment, the number of game balls launched on the game board 30 can be grasped by detecting the game balls with the discharge passage detection sensor.

  The special symbol unit 37 includes a first symbol display unit 37a and a second symbol display unit 37b. The 1st symbol display part 37a and the 2nd symbol display part 37b are respectively comprised by the segment indicator by which the some segment light emission part was arranged in the predetermined | prescribed aspect.

  The first symbol display unit 37a is a display unit for displaying the first symbol. The first symbol refers to a symbol that is variably displayed or stopped based on a winning lottery triggered by a game ball entering the first start port 33. The first symbol display unit 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 with the game ball entering the first start port 33. Then, the first symbol variation display or predetermined display is performed. When the lottery is finished, the first symbol display unit 37a causes the segment display to stop display of the first symbol corresponding to the lottery result. Hereinafter, a game number in which a lottery is executed when a game ball enters the first start port 33 is also referred to as a first start port game number.

  The 2nd symbol display part 37b is a display part for displaying a 2nd symbol. The second symbol refers to a symbol that is displayed in a variable or stopped manner based on a winning lottery triggered by a game ball entering the second start port 34. When a winning lottery is performed in response to the game ball entering the second starting port 34, the second symbol display unit 37b displays the segment display unit until a display corresponding to the lottery result is performed. Then, the variation display or predetermined display of the second symbol is performed. When the lottery is completed, the second symbol display unit 37b causes the segment display to stop display of the second symbol corresponding to the lottery result. Hereinafter, the game times in which a lottery is executed when a game ball enters the second start port 34 will be referred to as second start port game times.

  Here, the time from the start of the first symbol displayed on the first symbol display unit 37a or the second symbol displayed on the second symbol display unit 37b until the stop display is displayed. Also called variable time. Specifically, the time from the start of the first symbol variation display displayed on the first symbol display portion 37a to the stop display is also referred to as the first variation time, and the second symbol display portion 37b The time from the start of the variable display of the second symbol to be displayed to the stop display is also referred to as a second variable time.

  The special figure unit 37 further includes a first holding display part 37c and a second holding display part 37d made of LED lamps at positions adjacent to the first symbol display part 37a and the second symbol display part 37b.

  The 1st reservation display part 37c displays the number of reservations of the 1st starting port 33 with the color and combination of the LED lamp to light. In the present embodiment, up to four game balls that have entered the first start port 33 are held.

  The second hold display unit 37d displays the number of hold of the second start port 34 according to the color or combination of the LED lamps to be lit. In the present embodiment, up to four game balls that have entered the second start opening 34 are held.

  The universal map unit 38 includes a light emitting display unit in which a plurality of LED lamps are arranged in a predetermined manner. When the electrification member opening lottery is performed with the passage of the through gate 35 as an opportunity, the universal map unit 38 causes the light emitting display to be turned on, blinked, or displayed in a predetermined manner. When the electrification opening lottery is completed, the general-purpose unit 38 displays a predetermined mode corresponding to the lottery result.

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

  The special map unit 37, the universal map unit 38, and the round display unit 39 are not limited to being configured by a segment display or a light-emitting display using an LED lamp. For example, a liquid crystal display, an organic EL display, You may be comprised by the various display apparatus which can show a lottery result and a lottery result, such as a CRT or a dot matrix display.

  The variable display unit 40 is disposed substantially at the center of the game 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. In addition, the structure of the display apparatus with which the variable display unit 40 is provided is not limited to the symbol display apparatus 41, For example, you may be comprised by various display apparatuses, such as a plasma display apparatus, an organic EL display apparatus, or CRT.

  When the first symbol display unit 37a performs variation display or predetermined display based on the game ball entering the first start port 33, the symbol display device 41 displays the symbol variation display or predetermined display accordingly. I do. In addition, the symbol display device 41, when the second symbol display unit 37b performs variation display or predetermined display based on the game ball entering the second start port 34, the symbol variation display or predetermined Is displayed. The symbol display device 41 is not limited to the symbol variation display or the predetermined display triggered by the game ball entering the first start port 33 or the second start port 34, but when a big hit is won The effect display during the opening / closing execution mode is also performed. Hereinafter, details of the symbol display device 41 will be described.

  FIG. 4 is an explanatory diagram showing symbols and display surfaces 41a that are variably displayed on the symbol display device 41. FIG. 4A is an explanatory diagram showing symbols variably displayed on the symbol display device 41. As shown in FIG. 4A, the symbols indicating the numbers 1 to 8 are variably displayed on the symbol display device 41. In addition, you may employ | adopt the design by which symbols, such as a character, were attached | subjected to each symbol which shows the numbers 1-8 as a symbol which is variably displayed.

  FIG. 4B is an explanatory diagram showing the display surface 41 a of the symbol display device 41. As shown in the figure, three symbol rows Z1, Z2, and Z3 of left, middle, and right are displayed on the display surface 41a. In each of the symbol rows Z1 to Z3, the symbols 1 to 8 shown in FIG. 4A are arranged in ascending or descending order of the numbers, and each symbol row has a periodicity from top to bottom or from below. A variable display that scrolls up is displayed. As shown in FIG. 4B, after the variable display by scrolling, one symbol is displayed on the effective line L for each symbol row. Specifically, when a game ball wins the first start port 33 or the second start port 34, the variable display in which the symbols in the symbol rows Z1 to Z3 are scrolled in a predetermined direction with periodicity is started. The symbols to be scrolled are switched from the variable display to the standby display in the order of the symbol row Z1, the symbol row Z3, and the symbol row Z2, and finally the predetermined symbols are stopped and displayed in the symbol rows Z1 to Z3. . When the symbol change display ends and the display is stopped, if the winning lottery result by the main controller 60 is a big win, a predetermined combination of symbols is placed on the active line L. It is formed. For example, the same symbol combination is formed on the effective line L. In addition, the mode of the symbol variation display in the symbol display device 41 is not limited to the above-described mode, but the number of symbol columns, the number of effective lines, the direction of symbol variation display in the symbol sequence, the symbols of each symbol column Various modes can be adopted as the mode of the variable display of symbols such as the number.

  Here, the game times is one unit of processing for notifying the player of the lottery result of the winning lottery for the special information acquired based on the winning of either the first start port 33 or the second start port 34 It is. In other words, the pachinko machine 10 notifies the player of the lottery result of one winning lottery for one special information for each game. When the pachinko machine 10 according to the present embodiment acquires special information based on the winning of either the first start port 33 or the second start port 34, the first result display unit 37a or the second result is obtained for each game. In any one of the display units 37b, after the segment display is variably displayed, the segment display is stopped and displayed so that the display corresponds to the lottery result of the acquired special information. In addition, when the pachinko machine 10 according to the present embodiment acquires special information based on the winning of either the first start port 33 or the second start port 34, the symbol display device 41 performs a predetermined process every game. After the symbol string is variably displayed, the symbol string is stopped and displayed so that the display corresponds to the lottery result of the acquired special information. In addition, the time required for one game time is also referred to as a unit game time. The unit game time is composed of a variable time which is a time from when the variable display is started until a predetermined lottery result is stopped and displayed, and a stop time which is a time when the predetermined lottery result is stopped and displayed. Yes.

  Furthermore, as shown in FIG.4 (b), on the display surface 41a of the symbol display apparatus 41, the 1st reservation display area Ds1 and the 2nd reservation display area Ds2 are displayed. In the first hold display area Ds1, the number of holds based on winning in the first start port 33 is displayed. In the second hold display area Ds2, the number of holds based on winning in the second start port 34 is displayed. In the present embodiment, as described above, the number of reserved game balls won in the first start port 33 and the second start port 34 is up to four each.

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

  FIG. 5 is a block diagram illustrating an electrical configuration of the pachinko machine 10 according to the first embodiment. The pachinko machine 10 is mainly configured with the main control device 60 as a center, and 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 composed of elements having a plurality of functions. The MPU 62 temporarily stores various data and the like when the CPU 62x executes various control programs, the ROM 63 that records various control programs and fixed value data, and the program recorded in the ROM 63. A RAM 64 and an input / output port 62a. The MPU 62 further includes a game history management chip 300 and an inspection terminal 65.

  The game history management chip 300 calculates various game history information to be described later on the basis of game ball entry information into a start gate, a winning gate, and a gate (hereinafter collectively referred to as “ball entrance”). To do. The inspection terminal 65 is a terminal for transmitting game history information stored in the game history management chip 300 to an inspection machine described later. Details of the game history management chip 300 and the inspection terminal 65 will be described later.

  In addition, the MPU 62 includes an interrupt circuit, a timer circuit, a data input / output circuit, and a counter circuit as a random number generator. Note that another element may have a part of the functions of the MPU 62.

  A payout control device 70 and a power failure monitoring circuit 86 provided in the power supply device 85 are connected to the input side of the MPU 62. The main control board 61 is supplied with power of DC stable 24V 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, converts external power supplied from the commercial power source into operating power required by the main control device 60, the payout control device 70, etc. Supply power. In the present embodiment, the power supply device 85 includes the capacitor 87, and continues power supply to each device for a predetermined period when a power failure occurs or when the power switch is turned off.

  In addition, on the input side of the MPU 62, an incoming detection sensor provided at each entrance is connected. Specifically, a grand prize opening detection sensor 44a that detects a game ball that has entered the grand prize opening 36a, a first start opening detection sensor 44b that detects a game ball that has entered the first start opening 33, and a first 2 a second start port detection sensor 44c that detects a game ball that has entered the start port 34, a first winning port detection sensor 44d that detects a game ball that has entered the first winning port 32a, and a second award port 32b. A second winning port detection sensor 44e for detecting a game ball that has entered the game, a third winning port detection sensor 44f for detecting a game ball that has entered the third winning port 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 a game ball that has 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 start opening or the winning opening, and the game ball has passed through the through gate or the discharge passage. It is determined whether or not. Further, the MPU 62 performs a winning lottery based on the game balls entering the first start port 33 and the second start port 34.

  On the output side of the MPU 62, a variable winning drive unit 36c that opens and closes the open / close door 36b of the variable winning device 36, an electric combination drive unit 34b that opens and closes the electric combination 34a of the second start port 34, and a main display. The part 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 circuit.

  Specifically, in the opening / closing execution mode, the MPU 62 executes drive control of the variable winning drive unit 36c so that the opening / closing door 36b is opened / closed. Further, when the electrification opening is selected as a result of the electrification opening lottery, the MPU 62 executes drive control of the electrification accessory driving unit 44b so that the electrification accessory 34a is opened. Further, in each game round, the MPU 62 executes display control of the first symbol display unit 37a or the second symbol display unit 37b on the main display unit 45, and in the opening / closing execution mode, the round display on the main display unit 45 is performed. The display control of the unit 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 from the main control device 60 to the payout control device 70 based on the result of entering the ball. 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 a game ball is entered into the general prize opening 32, a prize ball command corresponding to the payout of 10 game balls is transmitted from the main control device 60 to the first start opening 33. When the entry of the game ball is specified, a prize ball command corresponding to the payout of the three game balls is transmitted from the main control device 60, and the entry of the game ball to the second start port 34 is specified. The main control device 60 transmits a prize ball command corresponding to the payout of one game ball. The payout control device 70 controls the payout device 71 based on the prize ball command received from the main control device 60 to pay out the prize ball.

  A discharge control device 80 is connected to the payout control device 70. The launch control device 80 performs launch control of the game ball launch mechanism 81. The game ball launching mechanism 81 is driven when predetermined launch conditions are met. An operation handle 25 is connected to the launch control device 80. As described above, the operation handle 25 includes the touch sensor 25a, the weight button 25b, and the variable resistor 25c. When the player holds the operation handle 25, the touch sensor 25a is turned on, and when the player rotates the operation handle 25, the resistance value of the variable resistor 25c changes corresponding to the rotation operation amount. A game ball is launched from the game ball launching mechanism to the front of the game board with a strength corresponding to the resistance value of the variable resistor 25c.

  The sound 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 sound emission control device 90 controls the driving of various lamps 47 including light emitting means such as LEDs arranged on the front door frame 14 based on various commands received from the main control device 60, and the speaker 46. And the display control apparatus 100 are controlled. In addition, an effect operation button 24 is connected to the sound emission control device 90, and when the effect operation button 24 is operated by a player at a predetermined timing, a game effect reflecting the operation is performed. Various lamps 47, the speaker 46, the display control apparatus 100, etc. are controlled.

  The display control device 100 executes display control of the symbol display device 41 based on various commands received from the sound emission control device 90. Specifically, the display control device 100 grasps the symbol variation time in the symbol display device 41 and the type of symbol combination to be finally stopped and displayed based on various commands received from the sound emission control device 90. The presence / absence of 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 variably displayed are grasped. In the present embodiment, the stop time, which is the time during which the first liquid crystal symbol or the second liquid crystal symbol is stopped and displayed, is constant. Therefore, by determining the variation time, the unit game time which is the time required for one game time 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 a lottery, setting the display of the main display unit 45, setting the symbol display of the symbol display device 41, and the like. Specifically, a big hit random number counter C1 is used for the winning lottery. When distributing the jackpot type, a jackpot type counter C2 is used. A reach random number counter C3 is used for reach determination as to whether or not to generate reach when the symbol sequence to be displayed on the symbol display device 41 is deviated and changed.

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

  Each of the counters C1 to C3, CINI, CS, and C4 is a loop counter that adds 1 to the counter value every time it 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 holding information storage area 64b and a determination processing execution area 64c. The hold information storage area 64b is provided with a first hold area Ra and a second hold area Rb. In the present embodiment, when a game ball enters the first start port 33, the values of the big hit random number counter C1, the big hit type counter C2, the reach random number counter C3, and the fluctuation type counter CS at the timing of entering are stored in the holding information storage area. 64b is stored in the first reserved area Ra in time series. When a game ball enters the second start port 34, the values of the jackpot random number counter C1, the jackpot type counter C2, the reach random number counter C3, and the variation type counter CS at the timing of entering are stored in the holding information storage area 64b. 2 is stored in time series in the reserved area Rb.

  Details of the jackpot random number counter C1 will be described. The jackpot random number counter C1 is used for winning lottery as described above. The jackpot random number counter C1 is configured to increment one by one within the range of 0 to 1199, for example, and return to 0 after reaching the maximum value. 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. 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 periodically updated, and when the game ball enters the first start port 33, the updated value is stored in the first reservation area Ra of the reservation information storage area 64b at the timing of the entry. When a game ball enters the second start port 34, it is stored in the second holding area Rb of the holding information storage area 64b at the timing of the 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 processing execution area 64c, and is compared with the success / failure table stored in the success / failure table storage area of the ROM 63 to become a big winner. It is determined whether or not. Further, 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 hit / fail table stored in the hit / fail table storage area of the ROM 63, and the jackpot It is determined whether or not.

  In the pachinko machine 10 according to the present 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 game ball entering the first starting port 33 or the second starting port 34. Thus, the process moves to the execution area AE of the determination process execution area 64c in the order obtained. Then, the jackpot random number counter C1 moved to the execution area AE is checked against a hit / fail table stored in the hit / fail table storage area of the ROM 63 to determine whether or not the jackpot random counter C1 is a jackpot.

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

  The jackpot type counter C2 is periodically updated, and when the game ball enters the first start 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 entry. When a game ball enters the second start port 34, it is stored in the second reservation area Rb of the hold information storage area 64b at the timing of the entry.

  As described above, the MPU 62 performs a winning lottery using the value of the big hit random number counter C1 stored in the determination processing execution area 64c, and when the win lottery result is a big win, the determination processing execution area 64c. The jackpot type is determined using the value of the jackpot type counter C2 stored in the table. Further, 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 unit 37a and the second symbol display unit 37b. . In the 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 described. The reach random number counter C3 is used to determine whether or not a reach occurs when the winning lottery result is not a big win. The reach random number counter C3 is configured to increment one by one within a range of 0 to 238, for example, and return to 0 after reaching the maximum value.

  The reach random number counter C3 is periodically updated, and the updated value is stored in the first holding area Ra of the holding information storage area 64b at the timing when the game ball enters the first starting port 33, and the second starting port 34 is updated. Is stored in the second holding area Rb of the holding information storage area 64b at the timing when the game ball enters. The value of the reach random number counter C3 stored in the first holding area Ra is collated with the reach determination table stored in the reach determination table storage area of the ROM 63 after moving to the determination processing execution area 64c, and the reach is determined. It is determined whether or not it occurs. The value of the reach random number counter C3 stored in the second holding area Rb is collated with the reach determination table stored in the reach determination table storage area of the ROM 63 after moving to the determination processing execution area 64c. It is determined whether or not it occurs. However, when the winning lottery result is a big hit and the mode is shifted to the opening / closing execution mode, the MPU 62 determines the reach occurrence regardless of the value of the reach random number counter C3.

  Reach is the stop of a combination of symbols that may be a combination of symbols corresponding to the jackpot for a portion of a plurality of symbol sequences displayed on the display screen of the symbol display device 41. This is a display state in which the symbols are displayed in the state of the remaining symbols. In the pachinko machine 10 of the present embodiment, the symbol combination corresponding to the jackpot means a combination of the same symbols on a predetermined effective line. As a specific example, in the main display area MA of the display surface 41a of FIG. 4B, the symbol is first 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 symbol is displayed in the symbol row Z2, and a reach is achieved. When a big hit occurs, the same symbol as the symbol forming the reach line is stopped and displayed in the symbol row Z2.

  In addition, in the reach, in the state that the reach line is formed, while performing the variable display of the symbols in the remaining symbol row, and performing a reach effect by displaying a predetermined character or the like as a moving image on the background screen, A combination of performing a reach effect by displaying a predetermined character or the like as a moving image on substantially the entire display surface 41a after reducing or not displaying a combination of symbols on which a reach line is formed. In addition, when the reach effect is being performed, or prior to the reach display, it is determined whether or not the notice display using a predetermined image such as a predetermined character is performed using the reach random number counter C3 or other counters. May be.

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

  The variation type counter CS is updated once every time a normal process to be described later is executed once, and is repeatedly updated even within the remaining time in the normal process. Then, the buffer value of the variation type counter CS is acquired when the variation pattern is determined at the start of variation display in the first symbol display unit 37a or the second symbol display unit 37b and at the time of symbol variation start by the symbol display device 41. In determining the variation time in the first symbol display unit 37a and the second symbol display unit 37b, a variation time table stored in the variation time table storage area of the ROM 63 is used.

  Next, details of the electric accessory release counter C4 will be described. The electric accessory release counter C4 has a configuration in which, for example, 1 is sequentially added within a range of 0 to 465, and returns to 0 after reaching the maximum value. The electric accessory release counter C4 is periodically updated and stored in the electric utility reservation 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 release counter C4 stored in the electric utility reservation area 64d moves to the electric accessory execution area 64e, the electric accessory release in the electric accessory execution area 64e is performed. A lottery is performed as to whether or not the electric accessory 34a is controlled to be in the open state using the value of the counter C4. For example, if C4 = 0, 1, the electric accessory 34a is controlled to be in an open state, and if C4 = 2 to 465, the electric accessory 34a is maintained in a 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 the special information in the present invention. It corresponds to. Further, 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 variation type counter CS stored in the first holding area Ra and the second holding area Rb is held. Also called information.

  Next, the success / failure table will be described. The success / failure table is table data for collating with the jackpot random number counter C1 when the lottery is performed based on the jackpot random number counter C1. In the pachinko machine 10, a low probability mode and a high probability mode are set as the lottery mode of the winning lottery. In the winning lottery in the low probability mode, the success / failure table for the low probability mode is referred to. In the winning lottery in the probability mode, the success / failure table for the high probability mode is referred to.

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

  As shown in FIG. 7A, five values of 0 to 4 are set as the value of the jackpot random number counter C1 which is a jackpot in the success / failure table for the low probability mode. Of the values 0 to 1199, values other than the five values 0 to 4 (5 to 1199) are out of place. On the other hand, as shown in FIG. 7 (b), 16 values of 0 to 15 are set as the value of the jackpot random number counter C1 which is a jackpot in the success / failure table for the high probability mode. Of the values 0 to 1199, values other than the 16 values 0 to 15 are out of place. As described above, the high probability mode has a higher probability of winning a big hit in the winning lottery than the low probability mode.

  Further, in this embodiment, the value group of the jackpot random number counter C1 set as the jackpot in the low probability mode hit / fail table is the value of the jackpot random number counter C1 set as the jackpot in the high probability mode hit / fail table. Included in the group. However, as a result of the winning lottery, if the probability that the high probability mode is a big hit is higher than the low probability mode, the number and value of random numbers set as the big win are arbitrary.

  Although not adopted in the success / failure table in the present embodiment, “small winning” may be provided as a result of the winning lottery.

  “Small Win” is a result of the success / failure that does not trigger the transition in both the lottery mode and the support mode, although it is the transition trigger to the opening / closing execution mode in which the variable winning device 36 is opened / closed. On the other hand, “displacement” is a result of success / failure that does not trigger the transition to the opening / closing execution mode and does not trigger the transition for the lottery mode and support mode.

Next, the jackpot type will be described. A plurality of types of jackpots can be set for the pachinko machine 10. Specifically, for example, a plurality of types of jackpots can be set by providing a difference in the following three modes or modes.
(1) Number of times (number of rounds) of opening / closing door 36b of variable winning device 36 in opening / closing execution mode
(2) Aspect of opening / closing control of variable winning device 36 in opening / closing execution mode (3) Winning lottery mode 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-described (2) opening / closing execution mode, occurrence of a game ball (winning) in the variable winning device 36 from the start to the end of the opening / closing execution mode The high-frequency winning mode and the low-frequency winning mode can be set so that the frequency is relatively high or low. For example, in the high-frequency winning mode, one opening of the open / close door 36b in the open / close execution mode is set to continue until 30 seconds elapse or until the number of game balls entering the open / close door 36b reaches 10. can do. On the other hand, in the low-frequency winning mode, the opening / closing door 36b in the opening / closing execution mode is set to be continuously opened until 1.6 seconds elapses or until the number of balls entering the opening / closing door 36b reaches 10. Can do.

  The opening limit time for one opening of the opening / closing door 36b and the opening limit number for one opening are the frequency of occurrence of entering the variable winning device 36 from the start to the end of the opening / closing execution mode. If the high-frequency winning mode is higher than the low-frequency winning mode, the opening and closing mode of the open / close door 36b is arbitrary. Specifically, the high-frequency winning mode may be set longer than the low-frequency winning mode, or the opening limit number for one opening may be set longer. In order to clarify the difference between the high-frequency winning mode and the low-frequency winning mode, the configuration may be such that the variable winning device 36 is not substantially won in the opening / closing execution mode of the low-frequency winning mode.

  In the present embodiment, a plurality of types of winning modes are not provided as the opening / closing execution mode, and the above-described high-frequency winning mode is set during the opening / closing execution mode. That is, one opening of the opening / closing door 36b in the opening / closing execution mode is set so as to continue until 30 seconds elapse or until the number of game balls entering the opening / closing door 36b reaches ten.

  In the present embodiment, if the winning lottery results in a big win, the big hit type is distributed using the big win type counter C2. The sort of jackpot type corresponding to the value of the jackpot type counter C2 is stored in the sort table storage area of the ROM 63 as a sort table.

  FIG. 8 is an explanatory diagram showing the contents of the distribution table. FIG. 8A shows a distribution table for the first start port, and FIG. 8B shows a distribution table for the second start port. The distribution table for the first start port is referred to in the winning lottery based on the entry of the game ball into the first start port 33, and the distribution table for the second start port is referred to the second start port 34. It is referred to when winning a lottery based on the game balls entered.

  As shown in the distribution table for the first start port in FIG. 8A, in the pachinko machine 10 of the present embodiment, as the jackpot type based on the first start port 33, 16R probability variation big hit, 8R probability variation big hit, 16R normal A jackpot, 8R normal jackpot is set.

  In the 16R probability variation jackpot and 8R probability variation jackpot, the open / close control mode of the variable winning device 36 in the opening / closing execution mode is the high-frequency winning mode, the winning lottery mode after the opening / closing execution mode ends is the high probability mode, and the opening / closing execution mode The support mode after the end of is a jackpot that becomes the high frequency support mode.

  In the 16R normal jackpot and the 8R normal jackpot, the open / close control mode of the variable winning device 36 in the open / close execution mode is the high-frequency winning mode, the winning lottery mode after the end of the open / close execution mode is the low probability mode, and the open / close execution mode The support mode after the end of is a jackpot that becomes the high frequency support mode.

  In the distribution table for the first start port, among the values of the jackpot type counter C2 of “0 to 39”, “0 to 13” corresponds to the 16R probability variation jackpot, and “14 to 27” corresponds to the 8R normal jackpot. "28-33" corresponds to 16R normal jackpot, and "34-39" corresponds to 8R normal jackpot.

  As described above, in the pachinko machine 10 of the present embodiment, four types of jackpots are set as the jackpot type. Therefore, the mode of jackpot is diversified. When these four types of jackpots are compared, the degree of advantage for the player is the highest in the 16R probability variable jackpot, the next highest in the 8R probability variable jackpot, then the 16R regular jackpot, and finally the 8R regular jackpot. Thus, by setting a plurality of types of jackpots having different advantages for the player, monotonization of the game can be suppressed, and the degree of attention to the game can be increased.

  As shown in the distribution table for the second start port in FIG. 8B, in the pachinko machine 10 of the present embodiment, 16R probability variable jackpot and 8R normal jackpot are set as the jackpot type based on the second start port 34. ing. In the distribution table for the second start port, among the values of the jackpot type counter C2 of “0 to 39”, “0 to 27” corresponds to the 16R probability variable jackpot, and “28 to 39” is the 8R normal jackpot. It corresponds to.

  Thus, in the pachinko machine 10 of the present embodiment, the distribution mode of the jackpot type when the jackpot is the jackpot based on the game ball entering the first start port 33, 2 The difference between the case where a big hit is made based on the entry of the game ball into the start opening 34 and a clear difference in the advantage for the player are provided.

  As described above, the MPU 62 performs a lottery using the value of the jackpot random number counter C1 stored in the execution area AE and uses the value of the jackpot type counter C2 stored in the execution area AE. In addition, the MPU 62 uses the value of the jackpot random number counter C1 and the value of the jackpot type counter C2 to stop the segment display unit to be displayed on the first result display unit 37a and the second result display unit 37b. The display mode is determined. In the 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 the mode of the support mode of the electric accessory 34a of the second start port 34 after the end of the above (3) opening / closing execution mode, the launch of the game ball in the same mode is continued in the same mode. When the comparison is made in the situation, the high frequency support mode and the low frequency support mode are such that the frequency at which the electric accessory 34a of the second start port 34 is opened per unit time is relatively high. Can be set.

  Specifically, in the pachinko machine 10 according to the present embodiment, the probability of becoming an electrification opening win in the electric accessory release lottery using the electric accessory release counter C4 differs between the high frequency support mode and the low frequency support mode. . In the high-frequency support mode, the probability of winning an electric combination opening in the electric combination opening lottery is higher than in the low-frequency support mode. Also, in the high frequency support mode, the time for opening the electric utility item 34a once is set longer when the power combination is won than in the low frequency support mode.

  Although not adopted in the present embodiment, in the case where the electrification opening is elected in the high frequency support mode and the electrification state of the electric accessory 34a occurs a plurality of times, the next one after the completion of the one disengagement state. The closing time until the opening state is started may be set shorter than one opening time. Furthermore, in the high frequency support mode, the time that is secured from the time when one lottery opening lottery is performed to the time when the next lottery opening lot is performed is set to be relatively shorter than in the low frequency support mode. May be.

  As described above, in the high-frequency support mode, the probability that a game ball enters the second start port 34 is higher than in the low-frequency support mode. That is, the high frequency support mode functions as an auxiliary gaming state that assists the establishment of the special information acquisition condition.

  FIG. 9 is an explanatory diagram showing the contents of a success / failure table (electrical accessory release lottery success / failure table) used when the electric accessory release lottery is executed.

  FIG. 9 (a) shows an electrical accessory release lottery success / failure table (for the low frequency support mode) used in the low frequency support mode. As shown in FIG. 9 (a), in the electric component release lottery success / failure table (for the low frequency support mode), two values of 0 and 1 are set as the values of the electric component release counter C4 that is elected to win the electric utility. Value is set. 464 values of 2 to 465 are set as the value of the electric accessory release counter C4 to be detached. In other words, when the game ball passes through the through gate 35 and the electrified product release lottery is executed in the low frequency support mode, the electrified role is won with a probability of 1/233. In the pachinko machine 10 according to the present embodiment, when the electrification release is won in the low frequency support mode, the electric accessory 34a is opened once, and the opening time is 1.4 seconds.

  FIG. 9 (b) shows an electrical accessory release lottery success / failure table (for the high frequency support mode) used in the high frequency support mode. As shown in FIG. 9 (b), in the electric component release lottery success / failure table (for the high frequency support mode), there are 462 values of 0 to 461 as the values of the electric agent release counter C4 that is elected to win the electric utility. Value is set. Four values of 462 to 465 are set as values of the electric accessory release counter C4 to be detached. In other words, when the game ball passes through the through gate 35 and the electric component release lottery is executed in the high frequency support mode, the electric combination release win is made with a probability of 231/233. In the pachinko machine 10 according to the present embodiment, when the electrification release is won in the high-frequency support mode, the electrical accessory 34a is opened once, and the opening time is 1.6 seconds.

  As described above, the high-frequency support mode is set to have a higher probability that a game ball will enter the second start port 34 than in the low-frequency support mode, according to the electric component release lottery success / failure table. .

  FIG. 10 is a block diagram showing in detail the configuration of the main control device 60 and the configuration of the inspection machine 320 provided in the pachinko machine 10 of the first embodiment. Hereinafter, the MPU 62, the CPU 62x, the ROM 63, and the RAM 64 are also referred to as a main MPU 62, a main CPU 62x, a main ROM 63, and a main RAM 64, respectively.

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

In the award ball number data storage area, the number of game balls (award ball number data) to be paid out as a prize ball when a game ball enters each entrance is stored. In the present embodiment, the following winning ball number data is stored in the winning ball number data storage area.
Number of game balls to be paid out as prize balls when a game ball enters the first start opening 33 (first start opening prize ball number P ₁ ): 3
Number of game balls to be paid out as prize balls when game balls enter the second start opening 34 (second start opening prize balls number P ₂ ): 3
Number of game balls to be paid out as prize balls when a game ball enters the first prize opening 32a (first prize mouth prize ball number P _N1 ): 10
-Number of game balls to be paid out as a prize ball when a game ball enters the second prize opening 32b (second prize mouth prize ball number P _N2 ): 10
-Number of game balls to be paid out as prize balls when a game ball enters the third prize opening 32c (third prize mouth number P _N3 ): 10
-Number of game balls to be paid out as prize balls when a game ball enters the big prize opening 36a (number of prize balls P _S ): 15

  The main side MPU 62 refers to the winning ball number data stored in the winning ball number data storage area of the main side ROM 63, so that a gaming ball to be paid out as a winning ball when a gaming ball enters each entrance Determine the number of.

  Further, in the present embodiment, the winning ball number data stored in the main ROM 63 is transmitted to the game history management chip 300 in an initial setting process executed after the pachinko machine 10 is turned on. Thereby, the game history management chip 300 can grasp the winning ball number data set in the pachinko machine 10.

  The calculation execution condition storage area stores a calculation execution condition which is a condition for the game history management chip 300 to start calculation for calculating the game history information. In the present embodiment, the fact that the number of game balls that have passed through the discharge passage reaches 500 is stored as a calculation execution condition. 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 pachinko machine 10 is turned on. Thereby, the game history management chip 300 can grasp the calculation execution conditions set in the pachinko machine 10.

  The game history management chip 300 is a semiconductor chip that calculates various game history information based on the game ball entry information of each game entrance and stores the calculated game history information. The game history management chip 300 includes a buffer 302 for acquiring game ball entrance information from each CPU 62x to each entrance, a register 304 for storing the number of game balls entering each entrance, and a main ROM 63. Control for the game history management chip 300, and a memory 306 for storing the number of winning balls obtained from the memory 306 for storing the number of winning balls, the memory 307 for storing the calculation execution conditions acquired from the main ROM 63, and the game history management chip 300. CPU 308 for calculating game history information based on the number of game balls entering each entrance and the number of prize balls set in each entrance when the calculation execution condition is satisfied And a calculation result storage memory 309 for storing the played game history information.

  The inspection terminal 65 is a terminal for connecting the inspection machine 320 and the pachinko machine 10. In the present embodiment, the game history information stored in the calculation result storage memory 309 is transmitted to the inspection machine 320 via the inspection 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 game history management chip 300. A display unit 328 for displaying the received game history information and a connection cable 329 for connecting to the inspection terminal 65 of the pachinko machine 10 are provided.

  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 the entrance information at each entrance from the CPU 62x. Specifically, the buffer 302 is provided with a plurality of bits corresponding to each entrance, and the CPU 62x turns on the bit corresponding to the entrance that has been determined that a game ball has entered (“1 )). For example, when the CPU 62x determines that a game ball has entered the first start port 33, the CPU 62x turns ON (“1”) the bit corresponding to the first start port 33 of the buffer 302.

  The buffer 302 is also provided with a bit for grasping the game mode and the state of the pachinko machine 10 (hereinafter also referred to as a game state) when a game ball enters each entrance. In the present embodiment, a bit for determining whether or not the normal mode is in effect (the mode that is not in the high probability mode, the high frequency support mode, and the open / close execution mode) and the high probability mode are in effect. A bit for determining whether or not it is in the high frequency support mode, a bit for determining whether or not it is in the open / close execution mode, and the first reserved number is the upper limit A bit for determining whether or not it is in a period that is a value, a bit for determining whether or not it is in a period in which the second reserved number is an upper limit, and the front door frame 14 is open There are provided a bit for determining whether or not there is a bit and a bit for determining whether or not the pachinko machine 10 is in an error that causes a trouble such as a failure. For example, when the CPU 62x determines that the normal mode is in the timing when the game ball enters the first start port 33, the bit for determining whether or not the buffer 302 is in the normal mode is turned ON (“1 )).

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

In the present embodiment, the register 304 stores the following values by each counter corresponding to each entrance.
And large winning hole 36a to the ball entrance to the number of game balls = special winning opening ball entrance number N _S
-Number of game balls that have entered the first start port 33 = number N _{1 of} balls that have entered the first start port
-Number of game balls that have entered the second start port 34 = number N _{2 of} the second start port
-Number of game balls that have entered the first winning opening 32a = number N _{N1 of} entering the first winning opening
-Number of game balls that entered the second winning opening 32b = number N _{N2 of} entering the second winning opening
-Number of game balls that entered the third winning opening 32c = number N _{N3 of} entering the third winning opening
-Number of game balls passing through gate 35 = number of through gates _NG
-Number of game balls that have passed through the discharge passage = Number of discharge passage passages N _OUT
As described above, the discharge passage passage number N _OUT matches the number of game balls fired on the game board 30.

Further, in the present embodiment, the register 304 stores the number of game balls that have entered each entrance for each game state.
・ Number of game balls that entered each entrance during normal mode ・ Number of game balls that entered each entrance during high probability mode ・ Entered each entrance during high frequency support mode Number of game balls / number of game balls that have entered each entrance during the opening / closing execution mode / game balls that have entered the first start opening 33 during the normal mode and the first reserved number is the upper limit. The number of game balls that have entered the second start opening 34 during the normal mode and the second reserved number is the upper limit value. The games that have entered the respective entry openings while the front door frame 14 is open. Number of balls / Number of game balls that entered each entrance during an error

  For example, it is determined that the bit corresponding to the first start port 33 of the buffer 302 has the ball entry information (the bit is ON), and the bit for determining whether or not the normal mode is in the information. If it is determined that there is a bit (the bit is ON), the value of the first start entrance ball number counter, which is a counter for storing the number of game balls entering the first start port 33, is set to 1. Is added, and 1 is added to the value of the first start entrance ball number counter in the normal mode, which is a counter for storing the number of game balls entering the first start port 33 during the normal mode. The

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

  The calculation execution condition storage memory 307 is a memory for storing calculation execution conditions set in the pachinko machine 10. The calculation execution condition is a condition for starting a calculation for calculating game history information as described above. In the pachinko machine 10 of the present embodiment, the calculation for calculating the game history information is started 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 ROM 63 are transmitted to the game history management chip 300 by the CPU 62x 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. As a calculation execution condition, the number of game balls that have passed or entered other than the discharge passage 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 condition stored in the calculation execution condition storage memory 307 is satisfied. When the CPU 308 determines that the calculation execution condition is satisfied, the award ball number data storage memory 306 Various game history information is calculated on the basis of the number of prize balls stored in the above and the number of game balls that have entered the entrances stored in the register 304. In the present embodiment, the CPU 308 calculates the following value as the game history information every time the value of the discharge passage passage number N _OUT stored in the register 304 reaches 500.

・ Role ratio = Number of game balls paid out as prize balls due to actuating action (number of prize balls) / Total number of game balls delivered as prize balls (total 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 )
・ Consecutive character ratio = Number of game balls paid out as winning balls due to continuous action actuated (number of consecutive feature award balls) / Total number of gaming balls paid out as prize balls (total number of winning 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 )
・ Risk rate (total)
= Total number of game balls paid out as prize balls (total number of prize balls) / Number of game balls launched on 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 due to the action of the prize (number of prize balls)
= Number of game balls paid out as winning balls when the electric winning combination 34a as a normal electric winning combination and the variable winning device 36 as a special electric winning combination are activated = to the second starting opening 34 and the big winning opening 36a the number of game balls of the incoming ball to the game balls paid out as a prize balls based _{= N 2 × P 2 + N} S × P S
・ Number of game balls paid out as prize balls by continuous action (number of consecutive prize prizes)
= Number of game balls paid out as prize balls by operating the variable winning device 36 as a special electric accessory = Games paid out as prize balls based on the entrance of game balls into the big prize opening 36a Number of spheres = N _S × P _S
-Number of game balls paid out as prize balls based on the entry of game balls into the first to third winning 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 prize balls)
= Number of game balls paid out as prize balls based on the entrance of game balls to the first to third winning openings 32a to 32c, the first starting opening 33, the second starting opening 34 and the big winning opening 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

  Further, in the present embodiment, the following game history information is calculated based on the number of game balls that have entered the entrances counted for each game state.

・ Payout ratio (in normal mode)
= Number of game balls paid out as prize balls based on the game balls entering the first start port 33 during the normal mode / Based on game balls entering the first start port 33 during the normal mode Number of game balls paid out as prize balls + number of game balls paid out as prize balls on the basis of the entrance of game balls into the first to third winning ports 32a to 32c during the normal mode Tamari (in normal mode)
= Total number of game balls paid out as prize balls in the normal mode / Number of game balls launched on the game board 30 in the normal mode / race rate (in the high frequency support mode)
= Total number of game balls paid out as prize balls during the high frequency support mode / Number of game balls launched to the game board 30 during the high frequency support mode / BY (in normal mode)
= Number of gaming balls paid out as winning balls based on the entering of gaming balls into the first to third winning ports 32a to 32c during the normal mode + the first holding number during the normal mode is the upper limit value The number of game balls paid out as prize balls based on the game balls entering the first start port 33 during the period + the second start port during the normal mode and the second reserved number is the upper limit value Number of game balls paid out as prize balls based on game balls entering 34 / number of game balls fired on game board 30 during normal mode / BY _MIN (in normal mode)
= Number 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 / game balls launched to the game board 30 during the normal mode Number of balls and the entrance rate when the front door frame is open = the number of game balls that enter the entrance when the front door frame 14 is open / the number of game balls that are launched on the game board 30 and the entrance rate during error = Number of game balls that have entered each entrance during an error / number of game balls that have been fired on the game board 30 The above-described game history information is merely an example, and other game history information is calculated. It is good.

  When the CPU 308 calculates the various game history information, the CPU 308 stores the calculated game history information in the calculation result storage memory 309 and resets the values of the counters in the register 304 to “0”. Hereinafter, various game history information calculated every time 500 game balls are launched onto the game board 30 will be collectively referred to as a “short-term game history information group”.

  The calculation result storage memory 309 is a memory for storing game history information calculated by the CPU 308. In this embodiment, the calculation result storage memory 309 is configured by a non-volatile memory capable of holding the memory even when power supply is cut off. Has been. The calculation result storage memory 309 also stores information related to the order in which the short-term game history information group is written, and the CPU 308 calculates when there is no empty area for writing the calculated short-term game history information group. The short-term game history information group that has been written is stored in an area in which the short-term game history information group having the oldest written 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 latest short-term game history information group is always stored. It becomes a state.

  In the present 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 launched to the game board 30. is doing. For example, if game balls are fired continuously for 10 hours per day, 60000 game balls will be fired per day. Therefore, 120 short-term game history information groups are calculated per day. The result is stored in the memory 309 for storing results. Therefore, the calculation result storage memory 309 can store the short-term game history information group for the latest 10 days.

  When the inspection machine 320 detects that the connection cable 329 is connected to the inspection terminal 65, the inspection machine 320 transmits a transmission request command for requesting transmission of game history information 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, the game history information stored in the calculation result storage memory 309 is transmitted to the inspection machine 320 via the inspection 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, every time the number of game balls that have passed through the discharge passage reaches 500, that is, every time 500 game balls are fired on the game board 30, a game such as an accessory ratio is obtained. History information is calculated and stored in the calculation result storage memory 309. Then, the calculated game history information is displayed on the display unit 328 of the inspection machine 320.

A3. Details of various processes executed in the gaming machine:
Next, each process executed by the MPU 62 (CPU 62x in this embodiment) will be described. The processing of the MPU 62 is roughly classified into main processing that is started when the power is turned on and timer interrupt processing that is started periodically (in this embodiment, at a cycle of 4 msec).

  First, the main process will be described with reference to the flowchart of FIG.

  FIG. 12 is a flowchart showing main processing executed by the main MPU 62. In step S10101, an initial setting process is executed. Specifically, initial setting of each control device when power is turned on, determination of the validity of data stored and held in the RAM 64, and the like are executed. Further, in the present embodiment, in the initial setting process, a process of transmitting operation data to the game history management chip 300 is executed. Specifically, the calculation data (prize ball number data and calculation execution conditions) stored in the main ROM 63 are transmitted to the game history management chip 300. As will be described later, the game history management chip 300 that has received the calculation data stores the prize ball number data and the calculation execution condition in the prize ball number data storage memory 306 and the calculation execution condition storage memory 307, respectively. Is sent to the main MPU 62. After executing Step S10101, the process proceeds to Step S10102.

  In step S10102, it is determined whether a setting completion command has been received. If it is determined in step S10102 that a setting completion command has been received (S10102: YES), the process proceeds 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 a setting completion command has not been received (S10102: NO), the process of 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 generation of the timer interrupt process is not performed.

  After executing Step S10103, the process proceeds to the remaining process of Steps S10104 to S10107. That is, the main MPU 62 is configured to periodically execute timer interrupt processing as described later, but a remaining time is generated between one timer interrupt process and the next timer interrupt process. The remaining time varies depending on the processing completion time of each timer interrupt process, but the remaining processes in steps S10104 to S10107 are repeatedly executed using such irregular time. In this regard, it can be said that the remaining processes in steps S10104 to S10107 are non-periodic processes that are executed irregularly.

  In the remaining process, first, in step S10104, an interrupt prohibition setting is performed to prohibit the generation of the timer interrupt process. In subsequent step S10105, random number initial value update processing for updating the random number initial value counter CINI is executed, and in step S10106, variation counter updating processing for updating the variation type counter CS is performed. In these update processes, the current numerical information is read from the corresponding counter of the main RAM 64, the process of adding 1 to the read numerical information is executed, and then the process of overwriting the reading source counter is executed. In this case, each counter value is cleared to “0” when it reaches the maximum value. Thereafter, in step S10107, an interrupt permission setting for switching from a state in which the generation of timer interrupt processing is prohibited to a state in which the timer interrupt processing is permitted is performed. After executing the process of step S10107, the process returns to step S10104, and the processes of step S10104 to step S10107 are repeated.

  Next, timer interrupt processing executed by the main MPU 62 (CPU 62x in this embodiment) 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, a lottery random number update process is first executed in step S10201. In the lottery random number update process, the big hit random number counter C1, the big hit type counter C2, the reach random number counter C3, and the electric accessory release counter C4 are updated. Specifically, after executing the process of sequentially reading the current numerical information from the jackpot random number counter C1, the jackpot type counter C2, the reach random number counter C3, and the electric accessory release counter C4, and adding 1 to each of the read numerical information Then, a process of overwriting the reading source counter is executed. In this case, each counter value is cleared to “0” when it reaches the maximum value. Thereafter, the process proceeds to step S10202.

  In step S 10202, the random number initial value counter CINI is updated in the random number initial value update process, and the process advances to step S 10203 to update the variation type counter CS in the variation type counter update process. Thereafter, the process proceeds to step S10204.

  In step S10204, port output processing is executed. In the port output process, when output information is set in the previous timer interrupt process, a process for performing output corresponding to the output information to the various drive units 36c and 34b is executed. For example, when the information for switching the special winning opening 36a to the open state is set, the output of the drive signal to the variable winning drive unit 36c is started, and when the information for switching to the closed state is set. The output of the drive signal is stopped. In addition, when the information for switching the electric accessory 34a of the second start port 34 to the open state is set, the output of the drive signal to the electric accessory driving unit 34b is started, and the information to be switched to the closed state is set. If set, output of the drive signal is stopped. Thereafter, the process proceeds to step S10205.

  In step S10205, read processing is executed. In the reading process, a signal other than the incoming ball signal is read and the read information is stored for use in future processing. Thereafter, the process proceeds to step S10206.

  In step S10206, a signal received from each of the incoming detection sensors 44a to 44h is read, and an incoming detection process for performing processing corresponding to the read information is executed. The details of the entry detection process will be described later in detail. Thereafter, the process proceeds to step S10207.

  In step S 10207, the ball detection information is output to the bit of the buffer 302 of the game history management chip 300. Specifically, the bit corresponding to the entrance for which it is determined that a game ball has entered in the entrance detection processing in step S10206 is set to ON (“1”), and the bit corresponding to the gaming state of the pachinko machine 10 Is turned on (“1”). Thereafter, the process proceeds to step S10208.

  In step S10208, a timer update process for updating the numerical information of a predetermined timer counter provided in the main RAM 64 is executed. Thereafter, the process proceeds to step S10209 to execute a prize ball command output setting process. Thereafter, the process proceeds to step S10210.

  In step S10210, a start-up entrance process that accompanies the entry of game balls into the first start-up opening 33 and the second start-up opening 34 is executed. In the starting ball entry processing, the big hit random number counter C1, the big hit type counter C2, and the reach random number counter C3 are determined based on the determination that the game ball has entered the first starting port 33 or the second starting port 34. The value is acquired and the acquired counter value is stored in the hold information storage area 64b of the RAM 64. After executing step S10210, the process proceeds to step S10211.

  In step S <b> 10211, a through gate entry process for entering (passing) a game ball into the through gate 35 is executed. In the through process for the through gate, the value of the variation type counter CS is acquired based on the determination that the game ball has entered (passed through) the through gate 35, and the acquired counter value is used as the power of the RAM 64. Store in the reserved area 64d. After executing Step S10211, the process proceeds to Step S10212.

  In step S10212, a game times control process for controlling a game in each game time is executed. In the game times control process, winning lottery, display control of the first symbol display unit 37a and the second symbol display unit 37b, and the like are performed. After executing Step S10212, the process proceeds to Step S10213.

  In step S10213, a game state transition process for shifting the game state is executed. In the game state transition process, a process of shifting the game state to an opening / closing execution mode, a high probability mode, a high frequency support mode, or the like is executed. After executing step S10213, the process proceeds to step S10214.

  In step S10214, an electric combination support process for controlling the electric combination 34a is executed. In the electric utility support process, it is determined whether or not the electric accessory 34a is in an open state (electric accessory release lottery), and when it is determined to be in an open state, the electric accessory 34a is driven and controlled. After executing Step S10214, the process proceeds to Step S10215.

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

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

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

  In the entrance detection process, a process for confirming the detection results of the entrance detection sensors 44a to 44h is executed. In this confirmation, the input port 62b of the input / output port 62a of the main MPU 62 is confirmed. Here, prior to the description of the incoming ball detection process, the configuration of the input port 62b provided in the main MPU 62 will be described with reference to FIG.

  FIG. 14 is an explanatory diagram for explaining the configuration of the input port 62 b 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. An area for storing “0” or “1” information according to the voltage of each signal is provided in a one-to-one correspondence with each terminal. That is, the area includes 0th bit D0 to 7th bit D7.

  Further, more than eight types of signals are input to the input port 62b. In order to limit the number of simultaneously input targets to eight types, the signal group to be input to the input port 62b depends on the driver IC. It is switched through switching control. In the entrance detection process, a signal group to be input to the input port 62b is set to each of the entrance detection sensors 44a to 44h.

  In such a situation, the 0th bit D0 stores information corresponding to the ball entry signal from the big winning opening detection sensor 44a, and the first bit D1 is the ball entry signal from the first start opening detection sensor 44b. Corresponding information is stored, the second bit D2 stores information corresponding to the pitch signal from the second starting port detection sensor 44c, and the third bit D3 indicates the pitch signal from the first winning port detection sensor 44d. Corresponding information is stored, the fourth bit D4 stores information corresponding to the winning signal from the second winning opening detection sensor 44e, and the fifth bit D5 is stored in the winning signal from the third winning opening detection sensor 44f. Corresponding information is stored, information corresponding to the incoming signal from the through gate detection sensor 44g is stored in the sixth bit D6, and the seventh bit D7 is input from the discharge passage detection sensor 44h. Information corresponding to a sphere signals are stored.

  In this case, when each of the entrance detection sensors 44a to 44h does not detect the passing of the game ball, it outputs an HI level signal indicating that it is not detected as an entrance signal, and the passing of the game ball Is detected, the LOW level signal indicating that the ball is being detected is output. However, the main control board 151 is provided with an inverting circuit, and the signal state is inverted before the detection signals are input to the input port 62b. When the LOW level signal is received through the inverting circuit, the input port 62b stores "0" information (data 0 or none information) in the corresponding bit, and receives the HI level signal through the inverting circuit. If it is, information “1” (data 1 or presence information) is stored in the corresponding bit.

  That is, in a situation where the passing of the game ball is not detected by the entrance detection sensors 44a to 44h, information of “0” corresponding to the information indicating non-detection is stored in the corresponding bit, and the passing of the game ball is detected. In such a situation, “1” information corresponding to information indicating that detection is in progress is stored in the corresponding bit.

  Each of the incoming ball detection sensors 44a to 44h outputs a LOW level signal as an incoming ball signal while not detecting the passing of a game ball, and HI as an incoming ball signal while detecting the passing of a gaming ball. It is good also as a structure which outputs a level signal. In this case, the inverting circuit may be omitted.

  FIG. 15 is an explanatory diagram for explaining the entrance detection process executed by the main MPU 62. FIG. 15A is a flowchart showing the incoming ball detection process executed by the main MPU 62. FIG. 15B is an explanatory diagram schematically showing a ball entry determination area used in the ball entry detection process. In the entrance detection process, as shown in the flowchart of FIG. 15A, first, in step S10301, the information currently stored in the 0th to 7th bits D0 to D7 is stored in the register of the main MPU 62. A process of shifting to the 1 entrance determination area WA1 is executed. The first 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 is possible data capacity. In this case, the storage source bits in the 0th to 7th bits D0 to D7 and the storage destination bits in the first entrance determination area WA1 are determined in a one-to-one correspondence, for example, the 0th bit. Information of D0 is always stored in a predetermined bit in the first entrance determination area WA1.

  In a succeeding step S10302, a wait process for detecting the incoming ball is executed. In this wait process, the main MPU 62 waits without executing any process until a predetermined wait time elapses. In this pachinko machine 10, 10 μsec is set as the wait time, but it does not disturb the execution of the periodic timer interrupt process, and the effects described below are sufficiently exerted by setting the wait process. However, 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 the process of one step. Therefore, even if the process of step S10302 is not set, a forcible wait time of 1.2 μsec occurs between steps S10301 and S10303. In this regard, in step S10302, not only the minimum time required for executing the process but also an additional wait time is set between the process of step S10301 and the process of step S10303.

  In a succeeding step S10303, a process of shifting the information currently stored in the 0th to 7th bits D0 to D7 to the second entrance determination area WA2 in the register of the main MPU 62 is executed. Incidentally, since the information update at the input port 62b is performed 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 in step S10303. The information transferred from can be different from that in step S10301.

  Similarly to the first entry determination area WA1, the second 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 described above. It has a data capacity that can 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 entry determination area WA2 are determined in a one-to-one correspondence with each other. The relationship between the bit and the storage destination bit is the same as in the case of the first entry determination area WA1.

  Then, in step S10304, after executing the ball entering determination process, the ball entering detection process is terminated. The entrance determination process will be described with reference to the flowchart of FIG.

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

  In subsequent step S10403, AND processing of each information grasped in step S10402 is executed, and the AND processing result is stored in a register. In step S10404, the first post-computation area WA3 and the second post-computation area WA4 are stored. Among them, the AND processing result is stored in the corresponding bit on the side different from the side on which the information on the result of the AND processing is stored in the ball entry detection processing in the previous timer interruption processing. The first post-computation area WA3 and the second post-computation area WA4 are composed of 8 bits as shown in FIGS. 15 (b-3) and 15 (b-4), and the first entry determination area WA1. The data capacity can store all the information of the AND processing result of each bit and each bit of the second entry determination area WA2. In this case, the order of bits in the first entrance determination area WA1 and the second entrance determination area WA2 subjected to AND processing, and the order of each bit in the first post-computation area WA3 and the second post-computation area WA4, Is uniquely defined.

  After that, in step S10405, in the first post-computation area WA3 and the second post-computation area WA4, information on the result of the AND process is stored in the ball entry judgment process in the previous timer interrupt process. Therefore, the bit information corresponding to the numerical information of the current entrance determination counter is read. In step S10406, an inversion process for inverting the read information between “0” and “1” is executed.

  Thereafter, in step S10407, AND processing of the AND processing result information in step S10403 and the inversion processing result information in step S10406 is executed. In subsequent step S10408, the AND processing result is the ball detection detection start information. It is determined whether or not it is “1” corresponding to. If it is determined in step S10408 that the AND process result is “1”, the process proceeds to step S10409 and subsequent steps.

  In step S10409, it is determined whether or not the numerical information of the current entrance determination counter is information indicating a bit corresponding to either the first start port 33 or the second start port 34. If it corresponds to either the first start port 33 or the second start port 34, “1” is set to the start port entrance flag provided in the main side RAM 64 in step S10410, and step S10411 is performed. Then, 1 is added to the numerical information of the three prize ball counters provided in the main RAM 64.

  The start entrance ball flag specifies the entrance of the game ball to the first start port 33 or the second start port 34 by the main MPU 62 and the game ball to the first start port 33 or the second start port 34. It is a flag for specifying in the main MPU 62 that the process corresponding to the incoming ball is in a state where a process other than the execution of the prize ball should be executed. Incidentally, since the entrance detection sensors 44b and 44c are provided in the first start opening 33 and the second start opening 34, respectively, the entrance into the first start opening 33 and the entrance into the second start opening 34 are performed. May be simultaneously recognized within the range of one processing of timer interrupt processing. Therefore, in order to respond to this, the start ball entering flag is provided in correspondence with the number of the start ports 33 and 34, and specifically, two are provided. The three prize ball counter is a counter for specifying in the main MPU 62 the number of times to output a three prize ball command instructing execution of three prize balls.

  If a negative determination is made in step S10409, it is determined in step S10412 whether or not the current numerical value information of the winning determination counter is information indicating a bit corresponding to the big winning opening 36a (variable winning device 36). judge. If it corresponds to the variable winning device 36, “1” is set to the big prize opening entrance flag provided in the main RAM 64 in step S 10413, and provided in the main RAM 64 in step S 10414. 1 is added to the numerical information of the 15 prize ball counters.

  The big winning mouth entry flag is a process corresponding to the entry of a game ball into the variable prize winning device 36, while the main MPU 62 specifies the game ball entry into the variable prize winning device 36. This is a flag for the main MPU 62 to specify that processing other than execution is to be executed. The 15 prize ball counter is a counter for the main MPU 62 to specify the number of times to output 15 prize ball commands instructing execution of 15 prize balls.

  If a negative determination is made in step S10412, it is determined in step S10415 whether or not the numerical information of the current entry determination counter is information indicating a bit corresponding to the through gate 35. If it corresponds to the through gate 35, “1” is set to the through passage flag provided in the main RAM 64 in step S10416.

  The through pass flag specifies that the main side MPU 62 specifies that the game ball has passed through the through gate 35 and that the process corresponding to the entry of the game ball into the through gate 35 is to be executed. This is a flag for specifying by the MPU 62.

  If a negative determination is made in step S10415, in step S10417, the current numerical value information of the winning determination counter corresponds to one of the first winning port 32a, the second winning port 32b, and the third winning port 32c. It is determined whether or not the information indicates a bit. If it corresponds to any one of the first winning port 32a, the second winning port 32b, and the third winning port 32c, in step S10418, the general winning port entrance flag provided in the main RAM 64 is set to “1”. Is set, and in step S10419, 1 is added to the numerical value information of the three prize ball counters provided in the main RAM 64.

  The general winning entry pitch flag is a flag for the main side MPU 62 to specify the entering of a game ball into the first winning entry 32a, the second winning entry 32b, or the third winning entry 32c. By the way, the first winning opening 32a, the second winning opening 32b, and the third winning opening 32c are provided with the ball detection sensors 44d, 44e, 44f, respectively. There is a case where the ball entering the winning port 32b and the ball entering the third winning port are simultaneously grasped within the range of one processing time of the timer interrupt processing. Therefore, in order to cope with this, the general winning opening entrance flag is provided corresponding to the number of the general winning openings 32a, 32b, 32c, and specifically, three are provided. The 10-award ball counter is a counter for specifying in the main MPU 62 the number of times to output a 3-award ball command instructing the execution of 10 award balls.

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

  When a negative determination is made in step S10408, or after execution of any one of steps S10411, S10414, S10416, S10419, and S10420, the process proceeds to step S10421. In step S10421, the entrance determination counter is decremented by 1, and then it is determined in step S10422 whether the entrance determination counter is “0”.

  If the entry determination counter is not “0”, the processing of steps S10402 to S10420 is executed for the bits corresponding to the numerical information of the entry determination counter updated in step S10421. When the processing of step S10402 to step S10420 is executed for the numerical information set in step S10401, an affirmative determination is made in step S10422, and the main entrance determination processing is terminated.

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

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

  As shown in FIG. 17A, in the configuration in which the timer interrupt process (FIG. 13) is activated at a cycle of T1 (specifically, 4 msec), the process for monitoring the entrance information is performed each time the timer interrupt process is performed. It is performed twice (step S10301, step S10303). The process of monitoring each set of entry information is executed so that the timing is changed, but the process of monitoring the entry information on the front side (step S10301) is T2 with respect to the timing when the timer interrupt process is started. It is executed at the timing when the time elapses.

  In this case, the timing at which the entrance detection process is executed in the timer interrupt process is executed before the process whose processing time is likely to fluctuate, such as the game time control process and the electric role support process. The processing executed prior to the detection processing is processing in which the processing time is relatively difficult to fluctuate. Therefore, the period until the process of monitoring the incoming ball information on the front side in the timer interrupt process of each processing time is the same, substantially the same or similar at T2. Therefore, among the processes for monitoring a set of incoming ball information included in each processing time of the timer interrupt process, the process for monitoring the incoming ball information on the front side is periodically executed.

  In addition, among the processes for monitoring each set of entry information, between the process for monitoring the entry information on the front side (step S10301) and the process for monitoring the entry information on the rear side (step S10303), A waiting process for entering a ball (step S10302) is executed. In such a waiting process, no waiting process is executed and only a wait is made until a certain waiting time T3 elapses. Accordingly, among the processes for monitoring a set of incoming ball information included in each processing time of the timer interrupt process, the process for monitoring the incoming ball information is periodically executed.

  Next, with reference to FIG. 17 (B), the contents of the calculation executed when the entry determination is performed will be described. FIG. 17B is an explanatory diagram for explaining the contents of the calculation executed when the entry determination is performed. Actually, various operations are performed in units of 1 bit, but in the following description, the contents of the operations will be described in units of 1 byte. However, a configuration in which an operation in units of 1 byte as described below is actually performed may be employed.

  In the case of FIG. 17B, first, in the process of monitoring the incoming information on the front side in the n-th timer interruption process, “00100000” is displayed in the first incoming determination area WA1, as shown in FIG. 17B1. "Is set. In this case, the entry information of the third prize opening detection sensor 44f among the entry detection sensors 44a to 44h is information indicating that a game ball is detected (hereinafter also referred to as entry information), The entry information of other sensors is information indicating that no game ball is detected (hereinafter also referred to as no entry information).

  In the process of monitoring the incoming information on the rear side in the n-th timer interruption process, “10100000” is set in the second incoming determination area WA2, as shown in FIG. 17B2. In this case, each of the entrance detection sensors 44a to 44h includes the exit passage detection sensor 44h and the third winning port detection sensor 44f as entry information, and the other sensors as entry information. .

  When the information of the first entry determination area WA1 and the second entry determination area WA2 is set as described above, the AND processing result is “00100000” as shown in FIG. Information is set in the area WA3 after the first calculation as a monitoring result of the entrance information in the timer interruption process of the nth processing time. In addition, when the monitoring result of the entrance information is set in the area WA3 after the first calculation in the n-1th timer interrupt process, the monitoring result of the entrance information in the nth timer interrupt process is the second calculation. It is set in the rear area WA4. In addition, although the entry determination process is executed using the monitoring result of the entry information at the (n-1) th time and the monitoring result of the entry information at the nth time, the contents of the calculation of this process are omitted here.

  Next, in the process of monitoring the previous-side entry information in the (n + 1) th timer interruption process, “10100110” is set in the first entry determination area WA1, as shown in FIG. 17 (B4). In this case, each of the entrance detection sensors 44a to 44h includes the exit passage detection sensor 44h, the third winning opening detection sensor 44f, the second start opening detection sensor 44c, and the first start opening detection sensor 44b. The other sensors have no entry information.

  In the process of monitoring the incoming ball information on the rear side in the (n + 1) th timer interruption process, “101000110” is set in the second incoming ball judging area WA2, as shown in FIG. 17 (B5). In this case, each of the entrance detection sensors 44a to 44h includes the exit passage detection sensor 44h, the third winning opening detection sensor 44f, and the first start opening detection sensor 44b. No entry information.

  When the information of the first entrance determination area WA1 and the second entrance determination area WA2 is set as described above, the AND processing result is “10110000” as shown in FIG. The information is set in the second post-computation area WA4 as a monitoring result of the entrance information in the timer interruption process of the (n + 1) th processing time.

  Thereafter, in the entry determination process (FIG. 16) in the (n + 1) th timer interruption process, first, the monitoring result of the entry information in the nth timer interruption process is read out from the first post-calculation area WA3 and read out. Inversion processing is performed on the information of the monitored results. Then, as shown in FIG. 17 (B7), “11011111” is obtained. Then, the monitoring result of the entrance information in the (n + 1) th timer interrupt process is ANDed with the information on the result of the inversion process. As a result, “10000010” is obtained as shown in FIG. In this case, in the entry determination process, it is determined that the entry of the game ball is detected by the discharge passage detection sensor 44h, and it is determined that the entry of the game ball is detected by the first start port detection sensor 44b. .

  In addition, as shown in FIG. 17B4, the second start port detection sensor 44c is information indicating that there is an entry in the process of monitoring the entry information on the front side in the (n + 1) th timer interruption process. Is caused by electrical noise. In this case, even if it is confirmed that there is a change from the no entry information to the presence information, it is not immediately determined that the entry has occurred, but the entry is made when the presence information is confirmed multiple times. This is a configuration that identifies occurrence. Therefore, as shown in FIG. 17 (B5), in the process of monitoring the incoming ball information on the rear side in the (n + 1) th timer interruption process, the second start port detection sensor 44c is the no-going ball information. Noise generation is not handled as game balls.

  In addition, the third winning hole detection sensor 44f enters in each of the process of monitoring one set of entry information in the n-th timer interrupt process and the process of monitoring one set of entry information in the n + 1-th timer interrupt process. Although it is ball presence information, this indicates a state in which a game ball whose occurrence has already been detected is continuously detected. In this case, since the occurrence of the entry is specified on the condition that the monitoring result of the entry information in the n-th timer interruption process is “0”, the entry of one game ball is made up of a plurality of entries. I will not treat it as a ball.

  When the entrance detection process is executed as described above, the detection results of the entrance detection sensors 44a to 44h are monitored, and the entrance corresponding to the game ball is generated. Are added to the three prize ball counters, the ten prize ball counters, and the fifteen prize ball counters according to the place of entry. If any one 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). The awarded 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 processing time of the timer interrupt processing. Therefore, for example, even if the 15 prize ball counter is “2” or more, the 15 prize ball commands are transmitted only once in one process. However, the present invention is not limited to this, and a predetermined plurality (for example, two or three) of prize ball commands may be transmitted in one processing time.

  In addition, there may be a case where each of the three prize ball counters, the ten prize ball counters, and the 15 prize ball counters is “1” or more. In this case, an output of a prize ball command with a large number of prize balls is output. have priority. That is, the output of 15 prize ball commands has priority over the output of 10 prize ball commands and the output of 3 prize ball commands, and the output of 10 prize ball commands has priority over the output of 3 prize ball commands. .

  When the 15 prize ball counter is set to “1” or more and the 15 prize ball command is set as an output target, 1 is subtracted from the 15 prize ball counter. Further, when the 10 prize ball counter is set to “1” or more and the 10 prize ball command is set as an output target, 1 is subtracted from the 10 prize ball counter. When the three prize ball counter is set to “1” or more and the three prize ball command is set as an output target, the three prize ball counter is decremented by one.

  Next, processing executed by the CPU 308 of the game history management chip 300 will be described. In the present embodiment, the CPU 308 of the game history management chip 300 executes the following main process as the pachinko machine 10 is turned on.

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

  In step S10501, it is determined whether calculation data including winning ball number data and calculation execution conditions is received. If it is determined in step S10501 that calculation data has been received (S10501: YES), the process proceeds 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 of step S10501 is executed again. That is, until the calculation data is received, the infinite loop is continued without proceeding to the next step S10502.

  In step S10502, the received winning ball number data is stored in the winning ball number data storage memory 306. Thereafter, the process proceeds to step S10503, and the received calculation execution condition is stored in the calculation execution condition storage memory 307. Thereafter, the process proceeds to step S10504.

  In step S10504, a setting completion command means that the storage of the winning ball number data in the winning 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 transmitted to the main CPU 62x. Thereafter, the process proceeds to step S10505.

In step S10505, it is determined whether or not the bit of the buffer 302 includes the entrance information received from the main CPU 62x ("1" is stored in the bit). If it is determined in step S10505 that the bit in the buffer 302 has the entry information received from the main CPU 62x (S10505: YES), the process proceeds to step S10506, and the counter of the register corresponding to the bit in the buffer 302 is set to 1. to add. Specifically, for example, when the bit corresponding to the first start opening entry information in the buffer 302 is “1” and the bit corresponding to the normal mode is “1”, the big prize of the register 304 is obtained. with it adds 1 to counter corresponding to the mouth ball entrance number N _S, 1 is added to the counter corresponding to the winning opening ball entrance number in the normal mode. Thereafter, the process proceeds to step S10507. On the other hand, if it is determined in step S10505 that there is no entry information received from the main CPU 62x in the bit of the buffer 302 (S10505: NO), the process proceeds to step S10507 without executing step S10506.

In step S10507, it is determined whether or not the calculation execution condition stored in the calculation execution condition storage memory 307 is satisfied. In the present embodiment, it is determined whether or not the value of the discharge passage passage number N _OUT stored in the register 304 is 500, that is, whether or not the number of game balls launched on the game board 30 has reached 500. judge. If it is determined in step S10507 that the calculation execution condition stored in the calculation execution condition storage memory 307 is satisfied (S10507: YES), the process proceeds to step S10508.

  In step S10508, based on the winning ball number data stored in the winning ball number data storage memory 306 and the number of game balls that have entered the respective entrances stored in the register 304, various types of game history information are stored. An arithmetic process for calculating is performed. Thereafter, the process proceeds to step S10509, and the various game history information calculated is stored in the calculation result storage memory 309. Thereafter, the process proceeds to step S10510, and the number of game balls that enter the entrances stored in the register 304 is cleared to zero. Thereafter, the process proceeds to step S10511.

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

  In step S10511, it is determined whether or not a game history information transmission request command has been received from the inspection machine 320. If it is determined that a transmission request command has been received (S10511: YES), the process proceeds to step S10512. The game history information stored in the calculation result storage memory 309 is transmitted 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 the processing from Step S10505 is repeated. On the other hand, if it is determined in step S10511 that a 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 of step S10512. The processing after S10505 is repeated.

  As described above, according to the present embodiment, the game history management chip 300 can calculate the game history information, which is information correlated with the behavior of the game ball in the executed game. If the gaming machine has been tampered with, etc., the calculated game history information may be an unnatural value different from the assumed value. Therefore, the inspector of the pachinko machine 10 can determine whether the pachinko machine 10 has been tampered with by checking the game history information. As a result, the game soundness can be improved.

  Furthermore, 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 nonvolatile manner. Since the game history information is information having a correlation with the behavior of the game ball in the executed game, the game history information is different for each pachinko machine 10 and is unique information of the pachinko machine 10. That is, the game history information is information that reflects the characteristics of the pachinko machine 10. According to the present embodiment, game history information that is information reflecting the characteristics of the pachinko machine 10 is stored in the operation result storage memory 309 of the game history management chip 300 stored in the housing of the pachinko machine 10 body. To 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 main body of the pachinko machine 10 itself. When the pachinko machine 10 is installed in the game hall, the pachinko machine 10 can acquire information on the characteristics of the pachinko machine 10 by a hall computer installed in the game hall. However, since the pachinko machine 10 circulates repeatedly, the pachinko machine 10 may be placed in a state where it is not connected to the hall computer. In this case, the conventional pachinko machine 10 holds information on the characteristics of the pachinko machine 10. Can not do it. The pachinko machine 10 of the present embodiment stores the game history information, which is information reflecting the characteristics of the pachinko machine 10, in the operation result storage memory 309 of the game history management chip 300 stored in the housing of the pachinko machine 10 body. Since it is stored, even if the pachinko machine 10 is not connected to the hall computer, the game history information can be acquired from the main body of the pachinko machine 10. That is, the pachinko machine 10 of the present embodiment always has a one-to-one correspondence between the pachinko machine 10 and the game history information, regardless of the state of the pachinko machine 10 (a state installed in a game hall or a distribution state). The pachinko machine 10 can be managed and inspected. As a result, the game soundness can be improved.

  Furthermore, in the present 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 with 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 problem has occurred in the power system of the hall computer. Even when a problem occurs in the processing of the hall computer, the 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 sources, and if there is a problem with the power supply of the game history management chip 300, the game is being executed by the pachinko machine 10. Regardless, there is a problem that the 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 is always calculated if the game can be executed. Can do. Therefore, the reliability of game history information can be improved.

  Furthermore, according to the present embodiment, the calculation result storage memory 309 is stored inside the substrate box, which is a space in which a trace of opening and closing (also referred to as an open trace and an open trace) remains. Accordingly, when the operation result storage memory 309 is physically contacted, a trace of opening the substrate box remains. Therefore, if the game history information stored in the calculation result storage memory 309 is changed through physical contact with the calculation result storage memory 309, the change is grasped from the trace of the board box. It becomes possible to do. Therefore, unauthorized modification of game history information can be prevented. Since the pachinko machine 10 is in circulation, various external contacts are made in the process of circulation, but the calculation result storage memory 309 is stored inside the substrate box where traces of opening and closing remain. Therefore, even if the pachinko machine 10 is in circulation, unauthorized modification of the game history information by someone can be suppressed. In addition, since the game history information is information acquired based on the executed game, it is possible to manage and inspect the game-related characteristics of the pachinko machine 10 using the game history information. Therefore, according to this embodiment, the pachinko machine 10 can be appropriately managed and inspected by preventing unauthorized modification of the game history information reflecting the game-related characteristics of the pachinko machine 10. As a result, the game soundness can be improved.

  Furthermore, according to the present embodiment, the game history management chip 300 acquires the winning ball number data stored in the winning ball number data storage area of the main ROM 63, so the characteristics of the pachinko machine 10 relating to the paid-out winning ball Can be calculated. Further, even if different prize ball number data is set for each type (model) of the pachinko machine 10, the game history management chip 300 uses the award ball number data set for each type of the pachinko machine 10 to correct the game. History information can be calculated. If the gaming machine has been tampered with, etc., the calculated game history information may be an unnatural value different from the assumed value. Therefore, the inspector of the pachinko machine 10 can appropriately determine whether the pachinko machine 10 has been illegally modified by confirming correct game history information. As a result, the game soundness can be improved.

  Further, 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 ROM 63 to the game history management chip 300, so that the game history management is performed. The configuration in which the chip 300 cannot access the prize ball number data storage area of the main ROM 63, or the storage position of the prize ball number data stored in the prize ball number data storage area of the main ROM 63 by the game history management chip 300 Even in a configuration in which (memory address) cannot be grasped, the game history management chip 300 can acquire the winning ball number data stored in the winning ball number data storage area of the main ROM 63.

  Furthermore, according to the present embodiment, in the main process of the main CPU 62x, the timer interrupt process interrupt is not permitted until the setting completion command is received, and the game ball launch control process included in the timer interrupt process is not executed. It has a configuration. That is, since the game ball is not fired until the storage of the winning ball number data in the winning ball number data storage memory 306 is completed, the gaming ball leaks from the calculation target of the game history information by the gaming history management chip 300. Can be suppressed.

  Furthermore, according to the present embodiment, game history information for each period until 500 game balls are detected by the discharge passage detection sensor 44h is calculated and stored, so that each pachinko machine 10 uses 500 game balls. Even if there is a variation in the time until the game is detected, game history information that does not affect the variation in the time can be calculated and stored. That is, even when there is a difference in the frequency with which the game balls are fired, it is possible to calculate and store highly accurate game history information that is less susceptible to the difference. Further, the required storage capacity can be reduced as compared with the configuration in which the entrance information to each entrance is stored as it is.

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

  Further, according to the present embodiment, after the CPU 308 of the game history management chip 300 performs an operation for calculating the game history information, the number of game balls entering each entrance stored in the register 304 Since the (counter value) is erased, it is possible to store information relating to the number of game balls entered in the register 304 again. Accordingly, the storage capacity required for the register 304 can be reduced.

  Furthermore, according to this 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. Then, the inspector of 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 ROM 63 is set to reach 500 gaming balls detected by the discharge passage detection sensor 44h. It is good also as a structure by which the time interval which performs a calculation is set as execution conditions. 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 calculate the game history information every time one hour elapses. The inspector of the pachinko machine 10 can confirm the detailed game history information calculated every hour, and can appropriately determine whether the pachinko machine 10 has been illegally modified. Become. As a result, the game soundness can be improved.

  In addition, since the characteristics of a game differ if the kind (model) of the pachinko machine 10 differs, the optimal conditions (time interval) for performing the calculation for calculating the game history information also differ. Therefore, different calculation execution conditions are stored for each type (model) of the pachinko machine 10. Therefore, also in this aspect 1, the game history management chip 300 acquires the calculation execution conditions stored in the calculation execution condition storage area of the main ROM 63, so that it is set for each type (model) of the pachinko machine 10. The calculation can be executed when the calculation execution condition is satisfied.

  Further, the CPU 308 of the game history management chip 300 measures the elapsed time since the calculation is executed, determines whether or not a game is being performed by the player, and determines that the game is not being performed. During the period, the measurement of elapsed time may be interrupted. Specifically, for example, when a state where there is no entry information in the bit of the buffer 302 has elapsed for a predetermined time (for example, 3 minutes), it is determined that the game has not been performed, and the measurement of the elapsed time is interrupted. When the entry information is confirmed at the bit 302, it may be determined that the game has been resumed and the measurement of the elapsed time is resumed. According to this configuration, the game history information can be calculated only for a period during which a game is actually performed.

  The elapsed time may be measured using a timer counter, or may be configured to use RTC date and time information by providing an RTC (Real-Time Clock). Moreover, it is good also as a structure which calculates game history information for every predetermined time.

<Aspect 2>
In the first embodiment, the calculation execution condition stored in the calculation execution condition storage area of the main ROM 63 is set to reach 500 gaming balls detected by the discharge passage detection sensor 44h. As an execution condition, a configuration may be set in which the occurrence of power shutoff is detected. Specifically, when the power failure monitoring circuit 86 detects the occurrence of power interruption, the power failure monitoring circuit 86 outputs a signal indicating that the power interruption has occurred to the game history management chip 300. The CPU 308 of the game history management chip 300 that has received the signal determines that a power interruption has occurred and calculates game history information. In this configuration, the register 304 is configured by a volatile memory, and the number-of-entry information is erased. According to such a configuration, the game history information can be calculated based on the number of game balls detected during the period from when the supply of power to the pachinko machine 10 is started until the power is cut off. it can. That is, the game history information is calculated for each business day of the game hall since the game history information is calculated for each period from the start to the end of the game hall business. Therefore, since the inspector of the pachinko machine 10 can easily grasp whether or not the characteristics of the game history information have changed across the business days of the game hall, the pachinko machine 10 is illegally modified or the like. It is possible to appropriately determine whether or not it is. As a result, the game soundness can be improved.

  Furthermore, if the capacitor 87 for supplying power to the game history management chip 300 is provided even after the power is cut off, the memory 309 for calculating game history information by the CPU 308 and storing the calculation results of the game history information. It is possible to reliably complete the storage in the memory.

<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 uses a dedicated device (such as the inspection machine 320) for checking the game history information. The game history information of the pachinko machine 10 can be confirmed without using it. The main CPU 62x can access the calculation result storage memory 309, but preferably has a configuration in which data cannot be changed. According to such a configuration, it is possible to prevent the game history information from being destroyed or rewritten by noise, a program bug, 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 notifies that the game history information stored in the calculation result storage memory 309 does not satisfy a predetermined condition. It is good also as a structure which equips the front surface (for example, the predetermined location of the main display part 45) of the pachinko machine 10 with the LED lamp for this. For example, the LED lamp may be configured to emit light when a specific value included in the game history information (for example, a bonus rate, a continuous bonus rate, or a payout rate (during normal mode)) is not included in a predetermined range. Good. According to this configuration, the inspector of the pachinko machine can easily find the pachinko machine 10 in which the specific value included in the game history information is not included in the predetermined range. Then, by checking the game history information of the pachinko machine 10, it is possible to determine whether the pachinko machine 10 has been tampered with. As a result, the game soundness can be improved. In particular, if the nail near the first start opening 33 or the general winning opening (first to third winning openings 32a to 32c) is illegal, the above-mentioned payout ratio (in normal mode) is the design of the pachinko machine. It will deviate from a predetermined range (for example, 0.60 to 0.70) that is sometimes assumed. Therefore, when the payout ratio (during the normal mode) is not included in a predetermined range (for example, 0.60 to 0.70), the LED lamp is caused to emit light, so that the first start port 33 and the general winnings are obtained. It is possible to appropriately determine whether the nail near the mouth (first to third prize winning openings 32a to 32c) has been cheated.

  Furthermore, the light emission mode (color) of the LED lamp in accordance with the degree of deviation from a predetermined range of specific values (for example, an accessory ratio, a continuous accessory ratio, and a payout ratio (in normal mode)) included in the game history information It is good also as a structure which determines. For example, the first LED lamp emits blue light when the accessory ratio is included in a predetermined range (0.70 or less), and the first LED lamp when the accessory ratio is 0.71 to 0.80. May emit purple light, and the first LED lamp may emit red light when the ratio of the accessory is 0.81 to 1.00. The second LED lamp emits blue light when the continuous character ratio is included in a predetermined range (0.60 or less), and the second LED lamp when the continuous character ratio is 0.61 to 0.70. May emit purple light, and the second LED lamp may emit red light when the ratio of successive objects is 0.71 to 1.00. In addition, when the payout ratio (in the normal mode) is included in the predetermined range (0.60 to 0.70), the third LED lamp emits blue light, and the payout ratio (in the normal mode) is 0.71. In the case of ˜0.80, the third LED lamp may emit purple light, and when the payout ratio (in the 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 far the specific value included in the game history information deviates from the predetermined range. The main CPU 62x can access the calculation result storage memory 309, but preferably has a configuration in which data cannot be changed. According to such a configuration, it is possible to prevent the game history information from being destroyed or rewritten by noise, a program bug, or the like.

<Aspect 5>
In the first embodiment, the calculation data (prize ball number data and calculation execution conditions) stored in the main ROM 63 is transmitted to the game history management chip 300 in the initial setting process executed by the main MPU 62 (CPU 62x). However, the game history management chip 300 can access the award ball number data storage area and the calculation execution condition storage area of the main ROM 63, and the game history management chip 300 immediately after the pachinko machine 10 is turned on. Configuration for accessing the main ROM 63 to obtain calculation data (prize ball number data and calculation execution conditions) and storing the acquired calculation data in the prize ball number data storage memory 306 and calculation execution condition storage memory 307 It is good. 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 is configured to calculate game history information such as the ratio of the bonuses. However, the number of entered balls stored in the register is stored as it is, and the inspection machine 320 The game history information may be calculated. According to such a configuration, the processing load of the game history management chip 300 can be reduced. Hereinafter, the details of the aspect 6 will be described focusing on 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 according to the aspect 6 of the first embodiment.

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

  As in the first embodiment, the number of game balls (award ball number data) to be paid out as a prize ball when a game ball enters each entrance is stored in the prize ball number data storage area. Yes. As in the first embodiment, the winning ball number data stored in the main ROM 63 is transmitted to the game history management chip 300 in the initial setting process that is executed after the pachinko machine 10 is turned on. Is done. Thereby, the game history management chip 300 can grasp the winning ball number data set in the pachinko machine 10.

  In the storage execution condition storage area, storage execution conditions that are conditions under which the game history management chip 300 executes storage processing described later are stored. In this aspect 6, the fact that the number of game balls that have passed through the discharge passage reaches 500 is stored as a storage execution condition. The storage execution condition stored in the main ROM 63 is transmitted to the game history management chip 300 in the initial setting process executed after the pachinko machine 10 is turned on. Thereby, the game history management chip 300 can grasp the storage execution condition set in the pachinko machine 10.

  The game history management chip 300 includes a buffer 302 for acquiring game ball entrance information from each CPU 62x to each entrance, a register 304 for storing the number of game balls entering each entrance, and a main ROM 63. Control for the game history management chip 300, and a memory execution condition storage memory 307a for storing the storage execution condition acquired from the main ROM 63, and the memory for managing the game history management chip 300. CPU 308 that controls the number of games, and a number-of-entry memory 309 a that sequentially stores the number of game balls that have entered the entrances stored in the register 304. The storage process described above is a process for storing the number of game balls that have entered the entrances stored in the register 304 in the number-of-entry storage memory 309a.

  The inspection terminal 65 is a terminal for connecting the inspection machine 320 and the pachinko machine 10. In this aspect 6, the number-of-entry information stored in the number-of-entry storage memory 309a and the number-of-prize-ball data stored in the prize-ball-number data storage memory 306 are transmitted to the inspection machine 320 via the inspection terminal 65. Is 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. A part 328 and a connection cable 329 for connecting to the inspection terminal 65 of the pachinko machine 10 are provided.

  In this aspect 6, when the inspection machine 320 detects that the connection cable 329 is connected to the inspection terminal 65, the game history management chip 300 sends a transmission request command for requesting transmission of the number-of-entry information and prize-number data. Send to. When the CPU 308 of the game history management chip 300 receives the transmission request command from the inspecting machine 320, it enters the number-of-entry information stored in the number-of-entry storage memory 309a via the inspecting terminal 65 and stores the number of winning balls data. The prize ball number 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 number-of-entry-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 according to aspect 6 of the first embodiment.

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

  The winning ball number data storage memory 306 is a memory for storing the winning ball number data set in the pachinko machine 10. In this aspect 6, when the power of the pachinko machine 10 is turned on, the prize ball number data stored in the main ROM 63 is transmitted to the game history management chip 300 and stored in the prize ball number data storage memory 306. . Accordingly, the content of the winning ball number data stored in the winning ball number data storage memory 306 is the same as the content of the winning ball number data stored in the main ROM 63.

  The storage execution condition storage memory 307 a 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 condition stored in the main ROM 63 is transmitted to the game history management chip 300 by the CPU 62x and stored in the storage execution condition storage memory 307a. Therefore, the content of the storage execution condition stored in the storage execution condition storage memory 307 a is the same as the content 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. If the CPU 308 determines that the storage execution condition is satisfied, each CPU 308 stores each input stored in the register 304. Information regarding the number of game balls entering the ball opening is stored in the memory 309a for storing the number of balls, and the value of each counter in the register 304 is reset to “0”. In this aspect 6, every time the value of the discharge passage passage number N _OUT stored in the register 304 reaches 500, the CPU 308 relates to the number of game balls that enter the entrances stored in the register 304. The information is stored in the incoming ball number storage memory 309a. In the following, information on the number of game balls that enter the entrances that are counted while 500 game balls are launched onto the game board 30 is also referred to as a “short-term entry number information group”.

  The number-of-entries storage memory 309a is a memory that sequentially stores information on the number of entrances stored in the register 304 (short-term entrance number information group). In this embodiment, the memory is stored even when the supply of power is cut off. Is constituted by a non-volatile memory capable of holding The memory 309a for storing the number of incoming balls also stores information regarding the order in which the short-term incoming number information group is written, and the CPU 308, when there is no empty area for writing the short-term incoming number information group, The short-term incoming number information group is stored in the area in which the short-term incoming number information group having the oldest written order is stored. In other words, the memory 309a for storing the number of incoming balls is configured to be overwritten in order from the oldest short-term incoming ball number information group (first-in / first-out method). It becomes a memorized state.

  In this aspect 6, the memory 309a for storing the number of incoming balls is short-term input that is information on the number of incoming game balls to each of the entrances counted while 500 game balls are launched on the game board 30. It has a capacity capable of storing 1200 ball number information groups. For example, if game balls are fired for 10 hours in a day, 60000 game balls will be fired per day. The number of entered balls is stored in the memory 309a. Therefore, the number-of-entries storage memory 309a can store a short-term entrance number information group for the last 10 days.

  As described above, when the inspection machine 320 detects that the connection cable 329 is connected to the inspection terminal 65, the inspection machine 320 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, the CPU 308 transmits the short-term incoming number information group and the winning ball number data to the inspection machine 320 via the inspection terminal 65. Then, the inspecting machine 320 calculates game history information such as an accessory ratio based on the short-term incoming number information group and the winning ball number data, and causes the display unit 328 to display the calculated game history information.

  Specifically, in this aspect 6, the inspection machine 320 can calculate one short-term game history information group for one short-term entry number information group, like the CPU 308 of the first embodiment. It is possible to add the number of game balls entered to each entrance stored in each of a plurality of short-term entry number information groups, and use the added entry number for long-term game history information. (Long-term game history information group) can be calculated. That is, the inspection machine 320 of this aspect 6 is not only a short-term game history information group based on the number of balls entered into each entrance in a short period of time when 500 game balls have been launched, but also, for example, 600,000 (about It is possible to calculate a long-term game history information group based on the number of balls entered into each entrance for a long period of time when game balls for 10 days) are launched.

  In this aspect 6, the following configuration may be adopted.

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

  Further, 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 is the prize stored in the main ROM 63. It is good also as a structure which transmits ball number data with respect to the test | inspection machine 320. FIG. According to such a configuration, the memory 306 for storing the number of prize balls can be omitted, and the manufacturing cost of the game history management chip 300 can be reduced.

  Moreover, it is good also as a structure by which the time interval which performs a memory | storage process is set as a memory | storage execution condition memorize | stored in the memory | storage execution condition storage area of main side ROM63. 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 execute the storage process every time one hour elapses.

  In addition, as a storage execution condition stored in the storage execution condition storage area of the main ROM 63, it may be configured that the occurrence of power shut-off is detected. Specifically, when the power failure monitoring circuit 86 detects the occurrence of power interruption, the power failure monitoring circuit 86 is configured to output a signal indicating that power interruption has occurred to the game history management chip 300, and the game history management chip that has received the signal. The CPU 308 of 300 may determine that a power interruption has occurred and execute a storage process.

  In the aspect 6, the calculation for calculating the game history information is executed by the CPU 321 of the inspection machine 320. However, the CPU 308 of the game history management chip 300 executes a part or all of the calculation, and the calculation is performed. It is good also as a structure which transmits the game history information which is the result of this to the test | inspection machine 320. FIG.

<Aspect 7>
In the first embodiment, the game history management chip 300 calculates the game history information such as the ratio of the bonuses. However, the entry information in the buffer is stored as it is, and the inspection machine 320 is based on the entry information. The game history information may be calculated. According to such a configuration, the processing load of the game history management chip 300 can be reduced. Hereinafter, details of the aspect 7 will be described focusing on 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 according to the aspect 7 of the first embodiment.

  In this aspect 7, 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 includes a backup power source, and can update date information and time information even when the pachinko machine 10 is powered off.

  The main ROM 63 of the main MPU 62 is provided with a prize ball number data storage area. In this aspect 7, the calculation start condition storage area is not provided.

  As in the first embodiment, the number of game balls (award ball number data) to be paid out as a prize ball when a game ball enters each entrance is stored in the prize ball number data storage area. Yes. As in the first embodiment, the winning ball number data stored in the main ROM 63 is transmitted to the game history management chip 300 in the initial setting process that is executed after the pachinko machine 10 is turned on. Is done. Thereby, the game history management chip 300 can grasp the winning ball number data set in the pachinko machine 10.

  The game history management chip 300 includes a buffer 302 for acquiring game ball entry information from the CPU 62x to each entrance, and a prize ball number data storage memory 306 for storing prize ball number data acquired from the main ROM 63. The CPU 308 is responsible for overall control of the game history management chip 300, and the entry information storage memory 309b for sequentially storing the entry information of the game balls into the entry openings stored in the buffer 302. .

  The inspection terminal 65 is a terminal for connecting the inspection machine 320 and the pachinko machine 10. In the aspect 7, when the inspection machine 320 is connected to the inspection terminal 65, the number of winning balls stored in the memory 306 for storing the winning ball information and the number of winning ball data stored in the memory 309b for storing ball information. Data is transmitted to the 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. A part 328 and a connection cable 329 for connecting to the inspection terminal 65 of the pachinko machine 10 are provided.

  In this aspect 7, when the inspection machine 320 detects that the connection cable 329 is connected to the inspection terminal 65, the game history management chip 300 sends a transmission request command for requesting transmission of entry 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 entry information and the like stored in the entry information storage memory 309b via the inspection terminal 65 and the prize ball number data storage are stored. The prize ball number 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 entry information and the winning 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 according to aspect 7 of the first embodiment.

  Since the contents of the processing in the buffer 302 are the same as those in the first embodiment described above, description thereof is omitted.

  The entry information storage memory 309b is a memory for sequentially storing entry information stored in the buffer 302 and information regarding a game state when a game ball enters, and in this embodiment, power supply is cut off. However, it is configured by a non-volatile memory that can hold the memory. Further, in the present embodiment, when the entry information and information regarding the game state are stored, the date and time information when the game ball enters each entrance is added and stored. In addition, the entry information storage memory 309b also stores information about the order in which entry information and the like are written, and the CPU 308 enters the entry when there is no empty area for writing entry information and the like. Information and the like are stored in an area in which the entry information and the like having the oldest written order are stored. That is, the entry information storage memory 309b is configured to be overwritten in order from the oldest entry information (first-in / first-out method), and the latest entry information is always stored. It becomes a state.

  The winning ball number data storage memory 306 is a memory for storing the winning 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 ROM 63 is transmitted to the game history management chip 300 and stored in the prize ball number data storage memory 306. . Accordingly, the content of the winning ball number data stored in the winning ball number data storage memory 306 is the same as the content of the winning ball number data stored in the main ROM 63. Further, in this aspect 7, 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, the game history management chip 300 sends a transmission request command for requesting transmission of entry 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 entry information stored in the entry information storage memory 309b via the inspection terminal 65, information on the game state, and date / time information, The prize ball number data stored in the prize ball number data storage memory 306 is transmitted 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 entered into each entrance for a short period of time when 500 game balls are launched. In addition to, for example, game history information (long-term game history information group) is calculated based on the number of balls entered into each entrance for a long period of time when 600000 (about 10 days) game balls have been launched. Is possible. That is, it is possible to calculate game history information in an arbitrary period.

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

  In this aspect 7, the following configuration may be adopted.

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

  Further, 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 is the prize stored in the main ROM 63. It is good also as a structure which transmits ball number data with respect to the test | inspection machine 320. FIG. According to such a configuration, the memory 306 for storing the number of prize balls can be omitted, and the manufacturing cost of the game history management chip 300 can be reduced.

  Further, in aspect 7, the calculation for calculating the game history information is configured to be executed by the CPU 321 of the inspection machine 320, but part or all of the calculation is executed by the CPU 308 of the game history management chip 300. It is good also as a structure which transmits the game history information which is the result of this to the test | inspection machine 320. FIG.

<Aspect 8>
In the first embodiment and the other aspects described above, the calculation execution condition or the storage execution condition is stored in the main ROM 63, and the game history management chip 300 acquires these conditions from the main ROM 63. The game history management chip 300 may be configured to store these conditions in a nonvolatile memory from the beginning. According to this configuration, an inappropriate calculation execution condition or storage execution condition is stored in the main ROM 63, and the occurrence of a situation where the game history information or the number-of-entry information cannot be properly stored can be suppressed. it can. For example, an extremely short period (for example, the discharge passage passage number N _OUT = 5) is stored as the calculation execution condition or the storage execution condition, and the calculation result storage memory 309 or the entered ball number storage memory 309a is stored. Occurrence of a situation where only game history information or number-of-entry information is stored for an extremely short period (for example, about one hour) can be suppressed.

<Aspect 9>
In the first embodiment and the other aspects described above, a function for storing the number of game balls that enter each entrance, a function for calculating game history information such as a ratio of bonuses, and the calculated game history information Although the game history management chip 300 has a function to store, the main CPU 62x (the main MPU 62 excluding the game history management chip 300) may have a part of these functions. Further, 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, it is not necessary to separately provide the game history management chip 300, so that the manufacturing cost can be reduced. However, according to the configuration in which the game history management chip 300 is provided, it is possible to reduce the processing load on the main CPU 62x.

<Aspect 10>
In the first embodiment and the other aspects described above, the game history management chip 300 includes a part or all of the functions of the functional units (for example, the inspection machine 320 and the main CPU 62x) other than the game history management chip 300. Alternatively, a part or all of the functions provided in the game history management chip 300 may be provided in a functional unit other than the game history management chip 300. For example, if the game history management chip 300 has a part of the functions provided in the inspection machine 320, the processing load and manufacturing cost of the inspection machine 320 can be further reduced. If the inspection machine 320 is partially configured, 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 bonuses. However, the game history management chip 300 is not provided, and the main CPU 62x calculates the game history information. Also good. Hereinafter, the detail of the aspect 11 is demonstrated centering on difference with the said 1st Embodiment.

  FIG. 23 is a block diagram illustrating an electrical configuration of the pachinko machine 10 according to the aspect 11 of the first embodiment. In this aspect 11, the point that the game history management chip 300 is not provided, and the point that the main RAM 64 is provided with the number-of-entries storage area and the calculation result storage area are the same as in the first embodiment (FIG. 5). Is different.

  The main CPU 62x updates the number of game balls that have entered the respective entrances stored in the number-of-entries storage area of the main RAM 64, based on the information about the game balls received from the input / output port 62a. To do. When the calculation execution condition stored in the calculation execution condition storage area of the main ROM 63 is established, the prize ball number data stored in the prize ball number data storage area of the main ROM 63 and the main RAM 64 Based on the number of game balls entered at each entrance, stored in the number-of-games storage area, game history information is calculated and the game history information is stored in the main RAM 64 as a result of calculation. Remember in the area. This will be specifically described below.

FIG. 24 is an explanatory diagram schematically illustrating an outline of processing in the main MPU 62 according to aspect 11 of the first embodiment. The main CPU 62x determines whether or not the calculation execution condition stored in the calculation execution condition storage area of the main ROM 63 is satisfied. If the main CPU 62x determines that the calculation execution condition is satisfied, the main CPU 62x Information relating to the number of game balls that enter the respective entrances stored in the cache is stored in the number-of-entries storage area of the main RAM 64. In this aspect 11, every time the value of the discharge passage passage number N _OUT stored in the cache of the main CPU 62x reaches 500, the main CPU 62x provides information on the number of game balls entering each entrance. And stored in the number-of-entries storage area of the main RAM 64. Note that, as described above, the information regarding the number of game balls that enter the entrances counted while 500 game balls are fired on the game board 30 is also referred to as a “short-term entry number information group”. .

  The incoming number storage area of the main RAM 64 is an area for sequentially storing information on the number of incoming balls (short-term incoming number information group). Information on the order in which the short-term incoming number information group is written is also stored in the incoming number storage area of the main RAM 64, and the main CPU 62x has no empty area for writing the short-term incoming number information group. In this case, the short-term incoming number information group that is newly written is stored in the area in which the short-term incoming number information group that has the oldest writing order is stored. That is, the incoming number storage area of the main side RAM 64 is configured to be overwritten in order from the oldest short-term incoming number information group (first-in first-out method), and the latest short-term incoming number information is always the latest. The group is stored.

  In this aspect 11, the number-of-entries storage area of the main side RAM 64 is information regarding the number of game balls that enter each entrance, counted while 500 game balls are fired on the game board 30. It has a capacity capable of storing 1200 short-term incoming number information groups. For example, if game balls are fired for 10 hours in a day, 60000 game balls will be fired per day. It is stored in the number-of-entrances storage area of the main RAM 64. Therefore, the number-of-entries number storage area of the main RAM 64 can store a short-term number-of-entries information group for the last 10 days.

  Then, each time the calculation execution condition is satisfied, the main CPU 62x newly calculates one short-term game history information group for one newly stored short-term entry number information group. Further, each time the calculation execution condition is satisfied, the main CPU 62x plays a game at each entrance stored in each of the plurality of short-term entrance number information groups including the newly stored short-term entry number information group. The number of balls entered is added, and the long-term game history information (long-term game history information group) is calculated using the added number of balls entered. That is, the main CPU 62x of this aspect 11 is not limited to the short-term game history information group based on the number of balls entered into each entrance in a short period of time when 500 game balls are launched, but, for example, 600,000 (about It is possible to calculate a long-term game history information group based on the number of balls entered into each entrance for a long period of time when game balls for 10 days) are launched. The calculated game history information is stored in the calculation result storage area of the main RAM 64.

  The calculation result storage area of the main RAM 64 includes an area for sequentially storing short-term game history information groups and an area for storing long-term game history information groups. In the area for sequentially storing the short-term game history information group, information on the order in which the short-term game history information group is written is also stored, and the main CPU 62x has no free area for writing the short-term game history information group. The newly calculated short-term game history information group is stored in an area in which the short-term game history information group having the oldest writing order is stored. That is, the area for sequentially storing the short-term game history information group in the main RAM 64 is configured to be overwritten in order from the oldest short-term game history information group (first-in / first-out method), and always has the latest short-term game history information group. The game history information group is stored. The area for storing the long-term game history information group is overwritten with the newly calculated long-term game history information group each 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 game number information groups including the latest short-term game number information group is stored. become.

  When the inspection device 320 detects that the connection cable 329 is connected to the inspection terminal 65, the inspection device 320 transmits a transmission request command to the main CPU 62x. When the main CPU 62x receives 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.

  Further, 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 RAM 64 is controlled by sound emission control via the input / output port 62x. It is output to the device 90 and displayed on the symbol display device 41.

  Moreover, in this aspect 11, even if the supply of power to the pachinko machine 10 is cut off, the short-term incoming number information group and the game history information stored in the main RAM 64 are counted by the backup power supplied from the capacitor 87. It is configured to be retained for days.

  According to such a configuration, the main CPU 62x that is a single processing unit executes a process for advancing a game such as a winning lottery process and a process for calculating and storing game history information. 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.

  Further, a short-term incoming number information group, which is information regarding the number of game balls entering each entrance, counted while 500 game balls are launched on the game board 30, is stored in the main RAM 64. Therefore, it is possible to store the incoming information of the game ball in the same format (for example, the configuration of storing the incoming information stored in the incoming information storage memory 309b in FIG. 22). In comparison, the most recent short-term game history information group and long-term game history information group can be calculated while greatly reducing the memory capacity required for the main RAM 64.

  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, and may be configured to calculate only one of them.

<Aspect 12>
FIG. 25 is a block diagram illustrating an electrical configuration of the pachinko machine 10 according to the aspect 12 of the first embodiment. The difference from the above-described aspect 11 (FIG. 23) is that the main-side MPU 62 is provided with a flash memory 64x that is a non-volatile memory that is rewritable and can retain memory even when power supply is cut off. This is the point. The flash memory 64x stores the number-of-balls storage area for storing the short-term game number information group in the above-described aspect 11, and the short-term game history information group and the long-term game history information group in the above-described aspect 11. The calculation result storage area is provided.

  The main CPU 62x of this aspect 12 is configured to store the short-term incoming number information group and the calculated game history information in the flash memory 64x every time the calculation execution condition is satisfied.

  According to such a configuration, the manufacturing cost of the pachinko machine 10 can be reduced as compared with the configuration including the game history management chip 300. Further, even if the supply of power to the pachinko machine 10 is interrupted for a long time, the short-term incoming number information group and the game history information are retained, so that the pachinko machine 10 is in any state (for example, the pachinko machine for a long time). 10), the pachinko machine 10 and the game history information can always be linked one-on-one, and the characteristics of the pachinko machine 10 can be managed. Can be inspected.

  Moreover, since it is not necessary to provide an area for storing the short-term incoming number information group and the game history information in the main RAM 64, the storage capacity of the main 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 the other aspects described above, the main controller 60 sends the game mode, which is a mode capable of executing a game progress process, which is a process for progressing a game, and game history information to the inspection machine 320. It is good also as a structure which can be switched and switched to the inspection mode which is an output mode. The game progress process is a process that is executed based on the detection of the game ball by the entrance detection sensors 44a to 44h. The winning lottery process, the electric role release lottery process, the prize ball payout process, and the main display unit 45, a change display process of symbols, an opening / closing process of the door 36b and the electric accessory 34a, and the like.

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

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

  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 malfunction when executed in parallel with the game progress process, and the like. . Further, according to such a configuration, since the game progress process is not executed in the inspection mode, when developing the program for the process to be executed in the inspection mode, a countermeasure when the game progress process is executed in parallel is taken. Since this need not be taken into consideration, the development efficiency of a program for processing executed in the inspection mode can be greatly improved.

  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 for executing the process of outputting the game history information in parallel with the game progress process is employed, the inspector of the pachinko machine 10 is inspecting the characteristics of the pachinko machine 10 with the game history information. When the game progress process is executed, the contents of the game history information may change at any time, and it may be difficult to perform the inspection smoothly. On the other hand, according to the configuration of the aspect 13, since the game history information is output in the inspection mode in which the game progress process is not executed even when the game ball passes through the predetermined area, the game history information is output. It is possible to suppress the content of the game history information from changing during the game. As a result, the inspector of the pachinko machine 10 can smoothly perform the inspection.

  In addition, the aspect which outputs game history information in test | inspection mode is not restricted to the aspect which outputs game history information to the test | inspection machine 320, and may display it. For example, the game history information may be output and displayed on the symbol display device 41.

  Further, the information output in the inspection mode is not limited to the game history information but may be other information. For example, other information based on the detection of the game ball by the ball detection sensors 44a to 44h, such as the game ball entrance information and the number of balls entered, may be used.

<Aspect 14>
Among the first embodiment and the other aspects described above, in the configuration in which the main control device 60 can execute by switching between the game mode and the inspection mode, the game mode is changed from the game mode to the inspection mode. When a predetermined operation (hereinafter also referred to as a “mode switching operation”) is performed by the inspector, the game progress process being executed is completed up to a predetermined processing stage at the timing when the game is completed. It may be configured to shift from the mode to the inspection mode.

  Specifically, for example, when a mode switching operation of pressing the power button while pressing the mode switching button is executed during the game progress processing of the game mode, Winning lottery processing, electric role opening lottery processing, prize ball payout processing, symbol variation display processing in the main display section 45, opening / closing processing of the door 36b and the electric accessory 34a, etc.) Complete the process. Then, when the game progress process is completed up to a predetermined process stage, the process after the process stage is not executed, and a standby state is entered. Then, the game mode is shifted to the inspection mode at the timing when all of the game progress processes being executed are completed up to a predetermined processing stage.

  According to such a configuration, the game mode is changed from the game mode to the inspection mode at the timing immediately after the mode switching operation is performed regardless of whether or not the game progress process being executed is completed up to a predetermined process stage. Compared with the configuration to be transferred, it is possible to suppress the occurrence of processing problems when shifting to the inspection mode.

  For example, a configuration in which the game progress process being executed is shifted from the game mode to the inspection mode at the timing immediately after the mode switching operation is performed regardless of whether or not the process has been completed up to a predetermined processing stage. In the case where it is adopted, when the mode switching operation is executed during the period in which the symbol change display process in the main display unit 45 is executed as the game progress process in the game mode, the symbol in the main display unit 45 is displayed. In the middle of the variable display, the mode is changed to the inspection mode, and it becomes difficult to control the timing of the symbol stop and the symbol variation time. On the other hand, according to the configuration of the aspect 14, for example, when the mode switching operation is performed during the period in which the symbol variation display process is performed in the game mode, the symbol variation display process is performed. The inspection mode is entered at the timing when the processing is completed up to the processing stage where the symbol is terminated and the symbol is stopped. Therefore, it is possible to suppress the occurrence of processing problems such as difficulty in controlling the timing of symbol stop and control of symbol variation time.

  It should be noted that when the examination mode is shifted (returned) to the game mode, the game progress process in the remaining processing stages that are scheduled to be executed before the examination mode is shifted may be 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, when a mode switching operation is performed during the execution of the game progress process in the game mode, the game mode is shifted to the inspection mode at the timing when all the processes of the respective game progress processes are completed. It is good. According to such a configuration, it is possible to suppress the occurrence of processing problems when the game progress process is resumed.

  In addition, when a mode switching operation is executed during the execution of the game progress process in the game mode, the main RAM 64 stores information enabling the game execution process to be interrupted and resuming the interrupted game progress process. It is good also as a structure which memorize | stores and transfers to inspection mode from game mode at the timing which the said memory | storage was completed. According to such a configuration, the pachinko machine 10 quickly shifts from the game mode to the inspection mode, so that 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 another mode. For example, a single operation of pressing a mode switching button may be used. In addition, when the inspection machine 320 is connected to the inspection terminal 65, the same processing as when the mode switching operation is performed may be performed.

<Aspect 15>
Among the first embodiment and the other aspects described above, in the configuration in which the main control device 60 can execute by switching between the game mode and the inspection mode, 10 minutes from the time when the inspection mode is entered during the inspection mode. When the automatic return condition that the time has passed is satisfied, a predetermined operation for shifting from the inspection mode to the game mode (for example, pressing the power button while pressing the mode switching button) is not executed. Even so, it may be configured to shift from the inspection mode to the game mode.

  According to such a configuration, when 10 minutes have elapsed since the transition to the inspection mode, even if a predetermined operation for shifting from the inspection mode to the game mode has not been performed, the inspection mode Therefore, it is possible to reliably prevent a predetermined operation from being performed and not returning to the game mode. For example, even if the inspector of the pachinko machine 10 inspects the characteristics of the pachinko machine 10 based on the game history information output in the inspection mode and then forgets to perform a predetermined operation, the inspection mode is set. Since 10 minutes have elapsed from the time of transition, the game mode is restored, so that a situation occurs in which the player cannot play a game on the pachinko machine 10 without returning to the game mode in which the pachinko machine 10 can execute the game progress process. Can be suppressed.

  The automatic return condition is not limited to the condition that 10 minutes have elapsed from the time when the mode is changed to the inspection mode, but may be another mode. For example, it may be a condition that 5 minutes have elapsed from the time of transition to the inspection mode, or a condition that 10 minutes have elapsed since the inspection machine 320 was removed from the inspection terminal 65.

  In addition, the predetermined operation for shifting from the inspection 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 another mode. For example, a single operation of pressing a mode switching button may be used.

<Aspect 16>
In the first embodiment and the other aspects described above, a RAM clear button for initializing the main-side RAM 64 is provided in the main control device 60, and an operation of pressing the power button while pressing the RAM clear button (hereinafter, referred to as a RAM clear button) When “deletion operation” is executed, the information stored in the main RAM 64 may be deleted (initialized).

  Furthermore, the main controller 60 may be configured to be able to execute by switching between the game mode and the inspection mode. Then, in the state after the transition to the inspection mode and before the transition to the game mode, for example, the state in the inspection mode or the state where the power is turned off after the transition to the inspection mode, the RAM clear button is pressed. Even when an erasing operation of pressing the power button is executed, the information stored in the main RAM 64 may not be erased.

  According to such a configuration, the state after the transition to the inspection mode and before the transition to the game mode is a case where an erasing operation for erasing the information stored in the main RAM 64 is performed. However, since the information stored in the main RAM 64 is not erased, an erasure operation is erroneously executed in order to shift to the game mode in the state after the transition to the inspection mode and before the transition to the game mode. Even if it is a case, it can suppress that the said information is deleted accidentally.

  For example, the erasing operation for erasing the information stored in the main RAM 64 is an operation of pressing the power button while pressing the RAM clear button, and the mode is shifted between the game mode and the inspection mode. In the configuration in which the operation for pressing the power button while pressing the mode switching button, the intention to press the power button while pressing the mode switching button in order to shift from the inspection mode to the gaming mode is incorrect. The power button may be pressed while the RAM clear button is pressed. However, according to the configuration of this aspect 16, in the state after the transition to the inspection mode and before the transition to the game mode, an erasing operation is performed in which the power button is pressed by mistake while the RAM clear button is pressed. Even if it is a case, it can suppress that the said information is deleted accidentally.

  More specifically, for example, when the game mode is shifted to the inspection mode, the game progress process that has been executed in the game mode is temporarily stopped, and the stopped game progress process is returned to the inspection mode. When adopting a configuration in which information for resuming later is stored in the main RAM 64, the intention is to press the power button while pressing the mode switching button in order to return from the inspection mode to the game mode, but the RAM clear button If the power button is pressed while pressing, the information for resuming the game progress process is erased, and the game progress process cannot be resumed after returning to the inspection mode. May be disadvantageous. On the other hand, according to the configuration of this aspect 16, in the state after the transition to the inspection mode and before the transition to the gaming mode, the power button is pressed while erroneously pressing the RAM clear button in order to transition to the gaming mode. Even if it is pressed, information stored in the main RAM 64 can be prevented from being erased by mistake, so that it is possible to prevent the player from being disadvantaged. Can do.

  The game history information may be stored in the main RAM 64. According to such a configuration, it is not necessary to separately provide a dedicated memory for storing game history information, so that the manufacturing cost of the pachinko machine 10 can be reduced.

  In addition, when an erasing operation is executed, the game history stored in the main RAM 64 regardless of the state of the pachinko machine 10 (power on / off state, game mode or inspection mode). The information may not be erased, and only information other than the game history information stored in the main RAM 64 (information stored in order to resume the game progress process) may be erased (initialized). . According to such a configuration, it is possible to suppress intentional deletion of game history information that deviates from a predetermined specified range.

  The erasing operation is not limited to the operation of pressing the power button while pressing the RAM clear button, but may be another mode. For example, a single operation of pressing a RAM clear button may be used.

<Aspect 17>
Among the first embodiment and the other aspects described above, when the main control device 60 shifts between the game mode and the inspection mode and can be executed, when the main control device 60 shifts from the game mode to the inspection mode, The game stop command, which is a command indicating that the game progress process is temporarily stopped after entering the inspection mode, is transmitted to the sound emission control device 90, and the game progress process that has been executed is performed in the test mode. It may be configured to temporarily stop. Specifically, for example, when the display shifts to the inspection mode during execution of the symbol variation display on the main display unit 45, the display on the main display unit 45 is turned off and the symbol variation time on the main display unit 45 is counted. To stop. Further, when the main control device 60 shifts from the inspection mode to the game mode, a game restart command, which is a command indicating that the game progress processing is restarted by shifting to the game mode, is transmitted to the sound emission control device 90. It is good also as composition to do.

  Then, when the game stop command is received, the sound emission control device 90 temporarily stops the effect that is being executed, and then when the game restart command is received, the effect that is temporarily stopped. Is configured to resume. According to such a configuration, even when the main control device 60 shifts between the game mode and the inspection mode, the game progress process executed by the main control device 60 (for example, the symbol on the main display unit 45). (Variable display processing) and effects controlled by the sound emission control device 90 (for example, symbol variable display processing in the symbol display device 41) can be synchronized, and the player feels uncomfortable after shifting to the game mode. Can be suppressed.

  Note that the sound emission control device 90 may be configured not to stop the effect being executed even when the game stop command is received. Specifically, for example, when a game stop command is received during the symbol variation display on the symbol display device 41, the symbol variation display layer is maintained while the control of the symbol variation display on the symbol display device 41 is continued. A layer of another image (for example, a black image) is displayed on the screen. However, since the control of the symbol variation display in the symbol display device 41 is continued, the symbol variation display is continued under the black image layer. Then, when the symbol variation time in the symbol display device 41 has elapsed, the symbol variation display ends under the black image layer, but the symbol does not stop but is slightly shaken.

  When the game restart command is received from the main control device 60, the black image layer displayed above the symbol variation 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 progress process (design variation display on the main display unit 45).

  Then, main controller 60 resumes the symbol variation display on main display unit 45 that has stopped counting the variation time. When the remaining variation time has elapsed, that is, the symbol variation on main display unit 45 is detected. When it is time to stop, a symbol stop command is transmitted to the sound emission control device 90. The sound emission control device 90 that has received the symbol stop command transmits a symbol stop command to the display control device 100, and the display control device 100 displays the symbol that has been displayed in a slightly swaying manner on the symbol display device 41. Stop completely.

  According to such a configuration, when the main control device 60 is in the inspection mode, the display on the main display unit 45 is turned off, and the display on the symbol display device 41 is a black image. When the main control device 60 shifts from the inspection mode to the game mode, the symbol variation display on the main display unit 45 that has stopped counting the variation time is resumed, and the symbols on the symbol display device 41 are variably displayed. It becomes an aspect or the display aspect which shakes small. The symbol on the symbol display device 41 is also stopped at the timing when the symbol on the main display unit 45 is stopped. That is, the symbol variation display on the main display unit 45 and the symbol variation display on the symbol display device 41 can be synchronized. Further, even when a game stop command is received, the control of the effect that is being executed is not stopped, so that it is possible to suppress the occurrence of problems caused by temporarily stopping the control of the effect that is being executed. For example, when the production control is resumed from the state where the production control is temporarily stopped, the timing of the plurality of productions may be shifted when the production is executed, or the symbol display device For example, there is a difference between the moving image displayed on 41 and the sound output from the speaker 46.

  If the main control device 60 adopts a configuration in which the symbol stop command is not transmitted to the sound emission control device 90 even when it is time to stop the symbol change in the main display unit 45, The variation display of the symbols on the display device 41 will continue in a slightly swaying manner, and thereafter a variation command transmitted from the main control device 60 or a standby command transmitted when no hold information is stored. The symbol in the symbol display device 41 is stopped by receiving.

<Aspect 18>
In the said 1st Embodiment and said other aspect, it is good also as a structure which displays the game history information memorize | stored in the said pachinko machine 10 on the symbol display apparatus 41 triggered by having become predetermined time. Specifically, for example, the game mode may be changed from the game mode to the inspection mode at 11:10 pm, and the game history information of the pachinko machine 10 may be displayed 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 around 11:10 pm after the game hall is closed. The person can quickly inspect and confirm the game history information of many pachinko machines 10 after closing the game hall without taking the trouble of shifting each pachinko machine 10 from the game mode to the inspection mode.

  The game history information stored in the pachinko machine 10 may be displayed on the symbol display device 41 when a predetermined signal is received from the hall computer. According to such a configuration, for example, all the pachinko machines 10 installed in the game hall are simultaneously shifted to the inspection mode, and the game history information of each pachinko machine 10 is displayed on each symbol display device 41. Therefore, the inspector of the pachinko machine 10 can quickly inspect and confirm the game history information of many pachinko machines 10 without taking the trouble of shifting each pachinko machine 10 from the game mode to the inspection mode. It becomes.

<Aspect 19>
In the said 1st Embodiment and said other aspect, it is good also as a structure which always displays game history information on the symbol display apparatus 41. FIG. According to such a configuration, the player or the inspector can always check the game history information, so that when the game history information deviates from a predetermined range or the like occurs, It becomes possible to notice the incident. As a result, it is possible to quickly ensure the game soundness.

<Aspect 20>
In the first embodiment and the other aspects described above, a 7-segment display constituted by seven light emitting diodes is provided on the back surface of the pachinko machine 10, and the game stored in the pachinko machine 10 is stored in the 7-segment display. It is good also as a structure which displays the information relevant to historical information. For example, when the main control device 60 shifts from the above-described game mode to the inspection mode, whether the accessory ratio and the payout ratio (in the normal mode) stored in the pachinko machine 10 are within a predetermined range. It is good also as a structure which is displayed on a 7 segment display.

  More specifically, for example, when the main control device 60 shifts from the game mode to the inspection mode, “1” indicating that the display relating to the accessory ratio is performed is displayed on the 7-segment display, and then the accessory ratio Is within the predetermined range (specifically, when the accessory ratio is 0.700 or less), “O” indicating OK is displayed on the 7-segment display, while the accessory ratio is If “E” is not within the predetermined range, “E” indicating an error may be displayed on the 7-segment display. After the display regarding the ratio of the actors, “2” indicating that the display regarding the ratio of the consecutive actors is performed is displayed on the 7-segment display, and the ratio of the consecutive actors is within a predetermined range (specifically, If the consecutive character ratio is 0.600 or less), “O” meaning “OK” is displayed on the 7-segment display, while if the consecutive character ratio is not within the predetermined range, , “E” indicating an error may be displayed on the 7-segment display. “2” indicating that the display related to the payout ratio (in normal mode) is to be performed is displayed on the 7-segment display after displaying the continuous character ratio, 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” indicating OK is displayed on the 7-segment display, On the other hand, when the payout ratio (in the 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 is possible to quickly and easily inspect game history information such as an accessory ratio. In addition, since the 7-segment display consumes little power, even if the power of the pachinko machine 10 is turned off, the game history information is inspected with only a small amount of power from the capacitors and batteries provided in the pachinko machine 10. It becomes possible to do.

  Moreover, it is good also as a structure which always displays the information relevant to the game history information memorize | stored in the pachinko machine 10 on a 7 segment display. According to such a configuration, it is possible to simply and quickly inspect the game history information such as the proportion of an accessory without switching from the game mode to the inspection mode. Further, even in the pachinko machine 10 that does not have the inspection mode, it is possible to simply and quickly inspect the game history information such as the ratio of the accessory. Further, if the 7-segment display is provided on the back surface of the pachinko machine 10, the 7-segment display does not enter the player's field of view. Therefore, it is possible to prevent the user from being able 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, the pachinko machine body 12 supported by the hinge 15 is rotated forward and provided on the back surface of the pachinko machine body 12. Since it is only necessary to confirm the display on the 7-segment display, it is possible to easily and quickly inspect the game history information such as the ratio of the items. Instead of the 7-segment display, another display that can display the game history information in a manner that can recognize the game history information, such as a segment display constituted by a number of light emitting diodes other than seven, may be adopted.

<Aspect 21>
In the first embodiment and the other aspects described above, the sound emission control device 90 may be configured to calculate game history information. Specifically, for example, the main CPU 62x of the main control device 60 transmits a signal including the winning ball number data stored in the winning ball number data storage area of the main ROM 63 in the initial setting process to the sound emission control device 90. The sound emission control device 90 calculates game history information based on the acquired winning ball number data and the game ball entry information transmitted from the main control device 60, and the calculated game history information. May be displayed on the symbol display device 41.

  According to such a configuration, the voice light emission control device 90 cannot access the prize ball number data storage area of the main ROM 63, or the voice light emission control device 90 is in the prize ball number data storage area of the main ROM 63. Even if the storage position (memory address) of the stored prize ball number data cannot be grasped, the prize emission ball stored in the prize ball number data storage area of the main ROM 63 by the sound emission control device 90 It becomes possible to acquire numerical data, and it is possible to calculate game history information. Further, since the sound 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 greatly reduced.

<Aspect 22>
The first embodiment and the 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 a gaming machine that can shift from the gaming mode to another mode. . For example, the present invention can be applied to a gaming machine having a game state display mode capable of displaying a state of processing relating to a game such as a state of a high probability mode flag or a high frequency support mode flag, a content of stored hold information, and the like. it can.

<Aspect 23>
FIG. 26 is a block diagram illustrating an electrical configuration of the pachinko machine 10 according to the aspect 23 of the first embodiment. In this aspect 23, the game history management chip 300 is not provided, and the main CPU 62x is configured to calculate the above-described game history information. The main RAM 64 is divided into two areas (a first area and a second area). The first area of the main RAM 64 is an area for developing a program or the like for executing processing related to the progress of the game. The second area of the main RAM 64 is used as an area for developing a program or the like for executing a process for calculating / displaying game history information (hereinafter also referred to as a game history process). The main CPU 62x executes the writing of information only to the first area of the main RAM 64 when executing a process related to the progress of the game (a process other than the game history process), and when executing the game history process. The information writing is executed only for the second area of the main RAM 64.

  The first area of the main RAM 64 is also used as an 8-bit entrance detection information storage area, a stack area, and the like, 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 totaling buffer, a calculation buffer, a calculation result buffer, a stack area, and the like, which will be described later. Details of these will be described later.

  A game history information display unit 45z is connected to the input / output port 62a. The game history information display unit 45z is composed of four 7-segment displays, and is provided on the back surface 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 unit 45z.

  FIG. 27 is a flowchart illustrating timer interrupt processing executed by the main MPU 62 (main CPU 62x) according to aspect 23 of the first embodiment. Also in this aspect, the timer interrupt process is started 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 for calculating and displaying the game history information. The process is added as the last process of the timer interrupt process (step S10616), and the ball detection information output process (the process of step S10207 in FIG. 13) is a process of outputting the ball detection information to the game history management chip. The other processing is the same as the processing described in the timer interrupt processing (FIG. 13) of the first embodiment described above. Hereinafter, the entrance detection process in step S10606 shown in FIG. 27 and the game history process shown in step S10616 will be described.

  FIG. 28 is a flowchart illustrating a ball entering detection process executed by the main MPU 62 (main CPU 62x) according to the aspect 23 of the first embodiment. In the entrance detection processing of this aspect 23, it is determined that there is no information in the bit of the input port 62b (“0”) in the previous timer interrupt processing (one time before), and the bit of the input port 62b is determined in the current timer interrupt processing. If it is determined that there is information ("1") and the bit is again determined to have information ("1") in the timer interrupt process, a game is entered at the entrance corresponding to the bit. It is determined that a ball has entered. Hereinafter, an example of the incoming ball detection process will be described.

  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 entry determination information) is read, and is read as step S10702. The entry determination information is stored in the first buffer which is an 8-bit buffer. That is, the first buffer is a buffer for storing the 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 the ball entry determination information read from each bit of the input port 62b in the previous timer interrupt process. In this aspect, the first buffer and the second buffer are provided in the first area of the main RAM 64. After executing Step S10702, the process proceeds to Step S10703.

  In step S10703, 8 is set in the entrance determination counter provided in the main RAM 64. Thereafter, the process proceeds to 10704. Note that the numerical information of the entrance determination counter is the same as that of the entrance determination counter (step S10401) used in the entrance determination process (FIG. 16) of the first embodiment described above. It corresponds to the bit. Specifically, in this aspect, “8” of the numerical information of the pitch determination counter is the 0th bit D0 of the big winning opening 36a, “7” is the 1st bit D1 of the first start opening 33, and “6” The second bit D2 of the second start port 34, “5” is the third bit D3 of the first winning port 32a, “4” is the fourth bit D4 of the second winning port 32b, and “3” is the third winning port 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.

  In step S10704, it is determined whether or not there is entry determination information in the bit corresponding to the numerical information of the entry determination counter in the second buffer, that is, the entry determination information stored in the bit is “1”. It is determined whether or not. If it is determined in step S10704 that the entry determination information is not “1” (S10704: NO), the process proceeds to step S10705. On the other hand, if it is determined in step S10704 that the entry determination information is “1” (S10704: YES), the process proceeds from step S10705 to step S10709, which will be described later, to step S10710. .

  In step S10705, it is determined whether or not there is entry determination information in the bit corresponding to the numerical information of the entry determination counter in the first buffer, that is, the entry determination information stored in the bit is “1”. It is determined whether or not. If it is determined in step S10705 that the entry determination information is “1” (S10705: YES), the process proceeds to step S10706. On the other hand, if it is determined in step S10705 that the entry determination information is not “1” (S10705: NO), the process proceeds from step S10706 to step S10709, which will be described later, to step S10710. .

  In step S10706, whether or not there is the entry determination information in the bit corresponding to the numerical information of the entry determination counter in the current input port 62b, that is, the entry determination information stored in the bit is “1”. It is determined whether or not. If it is determined in step S10706 that the entry determination information is “1” (S10706: YES), the process proceeds to step S10707. On the other hand, if it is determined in step S10706 that the entry determination information is not “1” (S10706: NO), the process proceeds from step S10707 to step S10709, which will be described later, to step S10710. .

  In step S10707, it is determined whether the numerical information of the current entrance determination counter is information indicating a bit corresponding to which type of entrance, and a game ball has entered the entrance corresponding to the bit. Turns on the entrance flag indicating. Specifically, for example, when it is determined that the numerical information of the current winning determination counter is information indicating a bit corresponding to the big winning opening 36a, it is determined that a game ball has entered the big winning opening 36a. Turn on the winning prize entry flag shown. For example, when it is determined that the numerical information of the current entry determination counter is information indicating a bit corresponding to the second start opening 34, it indicates that a game ball has entered the second start opening 34. Turn on the second start entrance ball flag. After executing Step S10707, the process proceeds to Step S10708.

  In step S10708, 1 is added to the numerical information of the prize ball counter corresponding to the entrance where the entrance flag is turned ON in step S10707, that is, it is determined that a game ball has entered. Specifically, for example, when the big prize entrance ball flag is turned on, the 15 prize ball counter is incremented by 1, and when the second start entrance ball flag is turned on, 3 prize balls Add 1 to the counter. After executing Step S10708, the process proceeds to Step S10709.

  In step S10709, the entrance determination counter is decremented by 1. Thereafter, in step S10710, it is determined whether or not the entrance 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 the process. When the processing from step S10704 to step S10708 is executed for the numerical information set in step S10703, the ball entry determination counter becomes “0”, and an affirmative determination (S10710: YES) is made in step S10710. The process proceeds to S10711.

  In step S10711, the 8-bit 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 interruption process is referred to in the ball entry detection process in the next timer interruption process. After executing Step S10711, the process proceeds to Step S10712.

  In step S10712, entry detection information indicating that an entry of a game ball has been detected in the entry detection process of the current timer interrupt process is stored in an entry detection information storage area capable of storing 8-bit information. . Specifically, the entry detection information storage area indicates “1” when the entry flag is ON for each bit corresponding to each of the above eight entrances. If the flag is OFF, “0” is stored as the entry detection information. For example, as a result of execution of the ball detection process in the timer interruption process of this time, the ball winning flag and the second starting ball flag are ON, and the ball flags corresponding to other ball openings are OFF. In some cases, the 8-bit entry detection information “00000101” is stored in the entry detection information storage area. The 8-bit entry detection information stored in the entry detection information storage area is referred to in a game history process to be described later. After executing Step S10712, the present ball detection process is terminated.

  FIG. 29 is a flowchart showing a game history process executed by the main MPU 62 (main CPU 62x) according to the aspect 23 of the first embodiment. In this game history process, a bonus rate and a continuous bonus rate are calculated, and a process for displaying them on the game history information display unit 45z is executed. Specifically, the bonus rate is calculated, and the calculated bonus rate is displayed on the game history information display unit 45z for 5 seconds. Thereafter, the continuous character ratio is calculated, and the calculated continuous character ratio is displayed on the game history information display unit 45z for 5 seconds. Thereafter, the bonus rate is calculated again, and the calculated bonus rate is displayed on the game history information display unit 45z for 5 seconds. In this way, the bonus rate and the continuous bonus rate are alternately displayed on the game history information display unit 45z. Hereinafter, an example of specific processing will be described.

  In step S10801, a save process is executed to save information stored in a 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 mode 23, before the game history process (step S10616 in FIG. 27) is executed in the timer interrupt process (FIG. 27), the process related to the progress of the game (FIG. 27) is a process other than the game history process. In this saving process, the register information relating to the progress of the game is saved in the stack area of the second area of the main RAM 64. Specifically, the value of the stack pointer in the main CPU 62x (address value indicating the top level of the stack area of the first area) is saved (Pushed) to the bottom of the stack area of 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 RAM 64 is set in the stack pointer of the main CPU 62x. Thereafter, the register information stored in the registers in the main CPU 62x is sequentially saved in the stack area indicated by the stack pointer set in the main CPU 62x (the uppermost stage of the stack area in the second area of the main RAM 64). (Push) By executing this save process, the address value of the stack area of the second area of the main RAM 64 is set in the stack pointer of the main CPU 62x, so the main CPU 62x stores the game history information described below. The calculation / display process can be executed using the second area of the main RAM 64. After executing Step S10801, the process proceeds to Step S10802.

  In step S10802, it is determined whether or not the abnormality flag stored in the second area of the main RAM 64 is ON. The abnormality flag is a flag that is turned on when a prize ball total value to be described later is an abnormal value. If it is determined in step S10802 that the abnormality flag is ON (S10802: YES), the process proceeds to step S10803, and the prize ball total value is cleared to zero. Thereafter, the process proceeds to step S10804, and the abnormality flag is turned OFF. Thereafter, the process proceeds 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, an OR process is executed for each corresponding bit in the ball entry detection information storage area and the buffer area, and the result (logical sum) of each OR process 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 capable of storing the same 8-bit information as the entrance detection information storage area, and is provided in the second area of the main RAM 64. After executing Step S10805, the process proceeds to Step S10806.

  In step S10806, it is determined whether or not the ball entry detection information is present in at least one of the eight bits in the buffer area (whether or not “1” is stored in one or more bits). . If it is determined in step S10806 that at least one bit in the buffer area has the ball entry detection information (S10806: YES), the process proceeds to step S10807.

  In step S10807, a target setting process for setting a target bit of a prize ball totaling process to be described later is executed 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 counting process. Further, as will be described later, when the target setting process is executed in the next or subsequent timer interrupt process, two consecutive bits positioned next to the two bits set in the previous target setting process Is set as the target of the prize ball counting process. In this way, the two bits subject to the prize ball counting process are sequentially shifted to the next. In addition, after the last two bits of the eight bits are set as the target of the prize ball counting process, the first two bits are used for the prize ball counting process in the target setting process to be executed next. Set the target again. As described above, in this aspect, the order of the two bits set as the processing target of the prize ball totaling process from the eight bits in the buffer area is determined in advance. After executing step S10807, the process proceeds 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 with reference to FIG.

  FIG. 30 is an explanatory diagram illustrating an example of a specific process executed by the main MPU 62 (main CPU 62x) according to the aspect 23 of the first embodiment. As described above, the entrance detection information storage area is an 8-bit storage area provided in the first area of the main RAM 64, and each bit corresponds to each entrance. Specifically, in this aspect, the 0th bit D0 of the pitch detection information storage area is the big winning opening 36a, the first bit D1 is the first starting port 33, the second bit D2 is the second starting port 34, the third 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. is doing.

  The buffer area is an 8-bit storage area provided in the second area of the main RAM 64, and each bit corresponds to each entrance. Specifically, in this aspect, the 0th bit D0 of the buffer area is the big prize opening 36a, the first bit D1 is the first start port 33, the second bit D2 is the second start port 34, and the third bit D3 is the first bit. The first winning port 32a, the fourth bit D4 correspond to the second winning port 32b, the fifth bit D5 corresponds to the third winning port 32c, the sixth bit D6 corresponds to the through gate 35, and the seventh bit D7 corresponds to the discharge passage. That is, each bit in the buffer area corresponds to each bit in the ball entry detection information storage area.

  When it is determined in the above-described entrance detection processing (FIG. 28) that a game ball has entered the entrance such as the big prize opening 36a, a game ball out of the 8 bits in the entrance detection information storage area. The bit corresponding to the entrance that is determined to have entered the ball is turned ON (“1”).

  FIG. 30 (A1) shows an example of processing when the n-th timer interrupt processing is executed. In the n-th timer interruption process, it is determined that a game ball has entered the second start port 34 and the first winning port 32a in the ball detection process, and the eight bits of the ball detection information storage area are stored. The value of is “00001100”. Further, the value of the 8 bits in the buffer area before the OR process is executed is “00000000”. Therefore, the value of the eight bits in the buffer area after executing the OR process is “00001100”. Thereby, the entry detection information in the entry detection information storage area that is updated each time the timer interrupt process is executed is set as a processing target of a prize ball counting process described later, and the buffer area until the process is executed. Will be held.

  In the n-th timer interrupt process, among the 8 bits D0 to D7 in the buffer area after the OR process is executed, two consecutive bits of 0th bit D0 and 1st bit D1 are awarded. Set as the processing target.

  In the winning ball counting process, when the 0th bit D0 (bit corresponding to the big winning opening 36a) set as the processing target of the winning ball counting process is “1”, it is stored in the winning ball counting buffer. “15” is added to the total number of award balls and the number of consecutive feature award balls. On the other hand, when the 0th bit D0 is “0”, the addition is not performed. In this aspect, the winning ball totaling buffer is configured as a ring buffer, and is configured to store the number of winning balls paid out during the most recent predetermined period. The number of consecutive winning award balls is the number of gaming balls paid out as winning balls due to the continuous winning action, and paid out as winning balls based on the entering of gaming balls into the big winning opening 36a. It means the number of game balls.

  Further, in the prize ball counting process, when the first bit D1 (bit corresponding to the first start port 33) set as the processing target of the prize ball counting process is “1”, the prize ball counting buffer is stored. Add “3” to the total number of prize balls stored. On the other hand, when the first bit D1 is “0”, the addition is not performed.

  In the example shown in FIG. 30A1, since the 0th bit D0 is “0” and the first bit D1 is also “0”, the above addition is not performed.

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

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

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

  In the prize ball counting process, when the second bit D2 (bit corresponding to the second start port 34) set as the processing target of the prize ball counting process is “1”, it is stored in the prize ball counting buffer. “3” is added to the total number of prize balls and the number of winning prize balls. On the other hand, when the second bit D2 is “0”, the addition is not performed. The number of winning award balls is the number of game balls paid out as winning balls due to the actuating action, and as winning balls based on the entrance of gaming balls into the second start opening 34 and the big winning opening 36a. This means the number of game balls that have been paid out.

  Further, in the prize ball counting process, if the third bit D3 (bit corresponding to the first winning port 32a) set as the processing target of the prize ball counting process is “1”, the prize ball counting buffer is stored. “10” is added to the total number of prize balls stored. On the other hand, when 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 winning prize balls. Further, since the third bit D3 is “1”, “10” is added to the total number of winning balls.

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

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

  In the (n + 2) -th timer interrupt process, a winning ball totaling process is performed on two consecutive bits of the fourth bit D4 and the fifth bit D5 among the eight bits D0 to D7 in the buffer area after the OR process is executed. Set as the processing target.

  In the winning ball totaling process, when the fourth bit D4 (bit corresponding to the second winning port 32b) set as the processing target of the winning ball totaling process is “1”, it is stored in the winning ball totaling buffer. “10” is added to the total number of winning balls. On the other hand, when the fourth bit D4 is “0”, the addition is not performed.

  Further, in the prize ball counting process, when the fifth bit D5 (bit corresponding to the third winning port 32c) set as the processing target of the prize ball counting process is “1”, the prize ball counting buffer is stored. “10” is added to the total number of prize balls stored. On the other hand, when the fifth bit D5 is “0”, the addition is not performed.

  In the example shown in FIG. 30A3, the fourth bit D4 is “1”, so “10” is added to the total number of winning balls. Further, since the fifth bit D5 is “0”, the above-described addition is not performed.

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

  FIG. 30A4 shows an example of processing when the (n + 3) th timer interrupt processing is executed. In the n + 3th timer interruption process, it is determined in the ball entry detection process that a game ball has entered the big prize opening 36a, and the value of the 8 bits in the ball entry detection information storage area is “00100001”. It has become. Further, the value of the eight bits in the buffer area before the OR process is executed is “01000000”, which is the same as the buffer area after the winning ball totaling process in the n + 2th timer interrupt process. Therefore, the value of the eight bits in the buffer area after executing the OR process is “01100001”.

  In the (n + 3) th timer interrupt process, two consecutive bits of the sixth bit D6 and the seventh bit D7 out of the eight bits D0 to D7 in the buffer area after the OR process is executed are awarded. Set as the processing target.

  However, in this aspect, the sixth bit D6 corresponds to the through gate 35, and the seventh bit D7 corresponds to the discharge passage. No prize ball is set in the through gate 35 and the discharge passage. Therefore, in this aspect, when the sixth bit D6 and the seventh bit D7 are set as the target of the prize ball counting process, the total number of prize balls is not added in the prize ball counting process. Thereafter, the two bits (sixth bit D6 and seventh bit D7) set as targets for the prize ball totaling process in the buffer area are cleared to zero.

  Thereafter, in the (n + 4) th timer interrupt process, the 0th bit D0 and the first bit D1 are set again as the processing target of the winning ball totaling process. Thereafter, the same processing is repeatedly executed. However, as will be described later, when there is no entry detection information in the bits of the buffer area (all bits are “0”), the target setting process (step S10807) and the winning ball totaling process (step S10808) ) Is not executed. Further, in this aspect, at least one bit in the buffer area has the ball detection information again from a state in which there is no ball detection information in the bits in the buffer area (all bits are “0”). When the target setting process is executed and the target setting process is executed, the two bits set as the processing target of the prize ball totaling process in the previous target setting process are stored, and the position is next to the two bits. Two consecutive bits are set as the processing target of the prize ball totaling process. In addition, when the two bits set as the processing target of the winning ball totaling process in the previous target setting process are the sixth bit D6 and the seventh bit D7, the 0th bit D0 and the first bit D1 are 2 A set of consecutive bits is set as a target for the prize ball counting process.

  As described above, in this aspect, two bits out of the eight bits in the buffer area are set as targets for the prize ball counting process in one timer interrupt process, so at least one bit in the buffer area When there is ball entry detection information, the timer interruption process is executed four times, whereby the prize ball totaling process is executed for all eight bits in the buffer area.

  Returning to the description of FIG. After the prize ball counting process of step S10808 is executed, the process proceeds to step S10809.

  In step S10809, calculation result display control processing is executed. Specifically, a control is executed to display on the game history information display unit 45z a value stored in a calculation result buffer (to be described later) (a calculated game history information ratio or a continuous role ratio). After executing Step S10809, the process proceeds to Step S10810.

  In step S10810, it is determined whether it is the execution timing of the arithmetic processing for calculating game history information. Specifically, when a predetermined time (30 minutes in this embodiment) has elapsed since the power-on of the pachinko machine 10 or when 5 seconds have elapsed since the previous execution of the arithmetic processing, at the timing of executing the arithmetic processing. Judge that there is. If it is determined in step S10810 that it is time to execute the arithmetic processing (S10810: YES), the process proceeds to step S10811. On the other hand, when it is determined in step S10810 that it is not the timing for executing the arithmetic processing (S10810: NO), the processing proceeds to step S10813 without executing the processing of steps S10811 and S10812 described later.

  In step S10811, the type of game history information calculated in the calculation process (task 1 and task 2 described later) is set. In this aspect, as the type of game history information to be calculated, an accessory ratio and a continuous accessory ratio are alternately set. Thereafter, the process proceeds to step S10812, and task 1 is designated as the next task to be executed in a task process (step S10814) described later. After executing Step S10812, the process proceeds to Step S10813.

  In step S10813, a process of restoring the register information saved in the stack area of the second area of the main RAM 64 in the save process described above to the register of the main CPU 62x is executed. Specifically, the register information sequentially saved from the stack area indicated by the stack pointer set in the main CPU 62x (the top level of the stack area of the second area of the main RAM 64) is sequentially stored in the main CPU 62x. Return (pop) the internal register. Thereafter, the value of the stack pointer (address value indicating the uppermost stage of the stack area in the first area) saved at the bottom of the stack area in the second area is returned (popped) to the stack pointer of the main CPU 62x. By executing this return processing, the address value of the stack area of the first area of the main RAM 64 is set in the stack pointer of the main CPU 62x, so that the main CPU 62x again returns to the first RAM 64 in the main RAM 64. It becomes possible to execute processing relating to the progress of the game using the area. Thereafter, the game history processing is terminated.

  Returning to the description of step S10806. If it is determined in step S10806 that there is no entry detection information in the buffer area bits (all bits are “0”) (S10806: NO), the process proceeds to step S10814.

  In step S10814, any one of designated tasks is executed from the following three tasks. If no task is specified, task 3 is executed. That is, instead of sequentially executing three tasks in one timer interrupt process, only one designated 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, in the case where it is set to calculate a bonus ratio, the prize prize ball number is saved as a dividend and the total prize ball count is saved as a divisor. Further, for example, when it is set so as to calculate the consecutive combination ratio, the number of consecutive combination prize balls is stored as a dividend, and the total number of winning balls is stored as a divisor in the calculation buffer. Thereafter, task 2 is designated as the next task to be executed when the process proceeds to step S10806 in the timer interruption process after the next time.

[Task 2]
An operation for dividing the dividend stored in the operation buffer by the divisor is executed, and the operation result (quotient) is stored in the operation result buffer. Thereafter, task 3 is designated as the next task to be executed when the process proceeds to step S10806 in the timer interruption process from the next time onward.

[Task 3]
It is determined whether or not the prize ball total value (the number of winning prizes, the number of consecutive winning prizes, the total number of winning prizes) is valid. Then, task 3 is designated as the next task to be executed when the processing proceeds to step S10806 in the timer interrupt processing from the next time onward. On the other hand, when it is determined that the winning 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 total number of prize balls is not valid means that if the number of winning prize balls exceeds the total number of winning balls, or if the number of consecutive winning prize balls exceeds the total number of winning balls, This is the case where there is a contradiction in the total value of prize balls, such as when the number of prize prize balls exceeds the number of prize prize balls.

  After executing the designated task among the above-described three tasks, the process proceeds to the above-described step S10809, and the game history information display unit displays the value (combination ratio or continuous combination ratio) stored in the calculation result buffer. Processing to display at 45z is executed. In this aspect, information indicating the type of game history information is displayed on the first 7-segment display constituting the game history information display unit 45z, and the value of game history information is displayed on the remaining three 7-segment displays. To do.

  In the pachinko machine 10 of the present aspect described above, the process related to the progress of the game included in the timer interrupt process (the process other than the game history process) is the time until the next timer interrupt process is started (in this aspect, 4 msec). However, the time required for the process related to the progress of the game to end varies depending on the progress of the game. On the other hand, since the game history process is a process unrelated to the progress of the game, the process related to the progress of the game is executed in one timer interrupt process rather than the time for executing the game history process. It is preferable to preferentially secure the time for this. In addition, various processes included in the game history process (for example, award ball totaling process and arithmetic process for each bit) can be executed continuously in a single timer interrupt process without being completed. There is no effect on progress. Therefore, in this aspect, even when the execution time of the process related to the progress of the game becomes maximum according to the progress status of the game, the execution time of one timer interrupt process (the execution of the process related to the progress of the game) Various processes included in the game history process are divided into a plurality of processes such that (time + game history process execution time) is shorter than the time until the next timer interrupt process starts. In each timer interrupt process, the divided processes are executed, and the various processes are completed by executing the timer interrupt process a plurality of 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 that is a process for calculating the game history information. Can be executed, and by executing the timer interrupt processing twice, all of the two tasks constituting the arithmetic processing are executed, so both tasks are executed in one execution of the timer interrupt processing. Compared to the configuration, the time required for one execution of the timer interrupt process can be shortened. As a result, the time required for one execution of the timer interrupt process becomes longer than 4 msec, which is an interval for starting execution of the timer interrupt process (hereinafter also referred to as an interrupt interval), and the timer interrupt process is reduced to 4 msec. It is possible to suppress the fact that it cannot be executed at intervals.

  Further, according to this aspect, a series of processes in which the execution order is determined is divided into a plurality of tasks, and in one execution of the timer interrupt process, after executing one task of the plurality of tasks Since a task to be executed next to the one task is specified, a series of times when the timer interrupt process takes longer than the interrupt interval of the timer interrupt process when incorporated in the timer interrupt process. Even a process can be executed by being incorporated into a timer interrupt process. Specifically, according to this aspect, when the calculation process for calculating the game history information is incorporated in the timer interrupt process, the time required for one execution of the timer interrupt process is longer than 4 msec. Also in the gaming machine having the configuration, 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 the game history information does not affect the progress of the game even if all tasks are not executed in one execution of the 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 among the eight bits D0 to D7 in the buffer area are set as processing targets for the prize ball counting process, and the setting is performed. The winning ball counting process can be executed for the processed bits, and the winning ball counting process is executed for all the eight bits D0 to D7 in the buffer area by executing the timer interruption process a plurality of times. To do. Therefore, the time required for one execution of the timer interrupt process can be reduced as compared with the configuration in which the prize ball totaling process is executed for all the eight bits D0 to D7 in one execution of the timer interrupt process. Can do. As a result, the time required for executing the timer interrupt process becomes longer than 4 msec, which is the interval for starting the execution of the timer interrupt process, and the timer interrupt process cannot be executed at an interval of 4 msec. Can be suppressed.

  Further, according to this aspect, when two bits are set out of the eight bits D0 to D7 of the buffer area as the target of the prize ball totaling process, they are set in a predetermined order. It is not necessary to execute a determination process as to which bit is set as the processing target of the sphere counting process, the process can be simplified, and as a result, the processing speed can be improved. Furthermore, it is possible to reduce the storage capacity for storing information such as programs and parameters necessary for executing the determination process.

  Further, according to this aspect, the main CPU 62x has a time shorter than the shortest interval (in the present aspect, about 18 msec) detected by two game balls successively entering one entrance. Since the timer interrupt process can be executed four times, the winning ball totaling process (see FIG. 29) is performed on all eight processing target candidates (bits D0 to D7 in the buffer area) in a time shorter than the shortest interval. Step S10808) can be executed. Therefore, even if two game balls enter the same entrance, the first entry of the first game ball is detected at the entrance. The updated entry detection information is set as the processing target and the winning ball counting process is executed, and then the incoming ball detection information corresponding to the remaining other entrances is set as the processing target and the winning ball counting process is performed. Is executed, the winning ball counting process may be completed for all the pieces of entry detection information before the entry of the next second game ball is detected at the entrance. it can. That is, at the time when the entry detection information updated based on the entry of the second game ball being detected at the entrance is set as the processing target and the prize ball counting process is executed, Already, the winning ball counting process for the updated ball detection information based on the detection of the first game ball at the entrance is completed. The effect by this structure is demonstrated below.

  As in this aspect, in the configuration in which binary information of “0” or “1” indicating whether or not a game ball has entered is used as the entry detection information, the second entry to a certain entrance The entry detection updated from “0” to “1” based on the entry of the first game ball into the entrance before the entrance of the game ball is detected at the entrance When the prize ball counting process is not executed for the information, the entry detection information corresponding to the entrance is still “when the entrance of the second game ball is detected at the entrance. “1” remains, and the entry of the second game ball cannot be recorded. That is, despite the fact that two game balls have successively entered the entrance, the entry detection information corresponding to the entrance is one game at the entrance. It cannot be distinguished from the situation where only the ball is entered, and in the winning ball counting process, one game ball is treated as a situation where it has entered the entrance. As a result, there may be a case where an accurate number of winning balls cannot be recorded in the winning ball counting process.

  On the other hand, according to this aspect, when the second game ball is detected at the entrance, it is already updated by the entry of the first game ball at the entrance. Since the winning ball counting process is executed for the received ball detection information and the ball detection information is “0”, it is possible to record the ball of the second game ball. . As a result, it is possible to record the exact number of winning balls in the winning ball counting process. As a result, it is possible to adopt binary information of “0” or “1” indicating whether or not a game ball has entered, while ensuring accuracy in the winning ball counting process, The storage capacity for storing the entry detection information can be reduced, and the processing speed of the prize ball counting process can be improved.

  Further, according to this aspect, the game history processing (FIG. 29) is information held in the register in the main CPU 62x and information for executing processing related to the progress of the game is stored in the second area of the main RAM 64. 29 is stored in the stack area (step S10801 in FIG. 29), so that when the main CPU 62x starts the game history process, the register in the main CPU 62x is executing immediately before the game history process is started. In the case of holding information for execution of processing relating to the progress of this, the information can be temporarily moved (saved) by writing the information in 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 CPU 62x is deleted, and when the game history process is executed by the main CPU 62x, the register for the game history is stored in the register in the main CPU 62x. Information for executing the process can be held.

  Further, according to this aspect, the game history process (FIG. 29) is a return process (FIG. 29) for holding the information written in the stack area of the second area of the main RAM 64 in the save process in the register of the main CPU 62x. Step S10813), when the game history process is terminated, the information for executing the process related to the progress of the game is again held in the register of the main CPU 62x and executed before the start of the game history process. The process related to the progress of the game can be executed again from the state immediately before the start of the game history process.

  In addition, according to this aspect, the save process and the return process are included in the game history process, so 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 Can be provided without any problem. That is, it is 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 the gaming machine is improved so as not to execute the game history process, or when a new gaming machine that does not execute the game history process is developed based on the gaming machine, the design change is minimized. It becomes possible to limit.

  In addition, 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 is written to the first area of the main RAM 64. It is possible to prevent the information from being rewritten by executing the game history process. Therefore, in the configuration in which the process related to the progress of the game is executed using the first area of the main RAM 64, the game history process can be prevented from affecting the process related to the progress of the game. .

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

  In addition, according to this aspect, since the 8-bit buffer area capable of storing the entry detection information is provided, the entry detection information in the entry detection information storage area that is updated every time the timer interrupt process is executed, It can be held until it is set as a processing target of the winning ball counting process and the process is executed.

  In addition, according to this aspect, as shown in FIG. 29, when the winning ball counting process (step S10808) is executed in one timer interrupt process, the arithmetic process (task 1 and task 2 in step S10814) is executed. do not do. In other words, both the prize ball counting process and the calculation process are not executed in one timer interrupt process, so that the time required for one execution of the timer interrupt process can be shortened. As a result, the time required for one execution of the timer interrupt process is longer than the interrupt interval of the timer interrupt process, and the timer interrupt process cannot be executed at the interrupt interval. be able to. Further, according to this aspect, the winning ball counting process in which the game ball entry status and the processing load correlate is executed in preference to the arithmetic processing in which the game ball entry status and the processing load do not correlate. , It is possible to suppress the execution interval of the winning ball counting process from being increased, and as a result, the winning ball total value which is the processing result of the winning ball counting process cannot accurately reflect the entering situation of the game ball. Can be suppressed. Specifically, for example, before the winning ball counting process is executed for a certain bit in the buffer area, the next game ball enters the entrance corresponding to the bit, and two It is possible to suppress handling of a game ball as a single game ball.

  In addition, according to this aspect, as shown in FIG. 29, when the prize ball totaling process (step S10808) is not executed and it is determined that it is the execution timing of the arithmetic process (step S10810: YES). Since the calculation process (task 1 and task 2 in step S10814) is executed, neither the prize ball counting process nor the calculation process is executed in one timer interruption process. In addition, it is possible to execute another process independent of these processes (in this aspect, a process for determining the validity of the prize ball total value (task 3 in step S10814)). Further, in this aspect, when one of the prize ball counting process and the arithmetic process is executed in one timer interrupt process, the time required for one execution of the timer interrupt process is shorter than the interrupt interval. Therefore, in a situation where neither the prize ball counting process nor the calculation process is executed, the time required for one execution of the timer interrupt process is executed by executing a process having a shorter processing time than the prize ball counting process and the calculation process. Can be reliably suppressed from becoming longer than the interrupt interval.

  In addition, according to this aspect, in the arithmetic processing in one timer interrupt process, it is possible to calculate two types of game history information, that is, a bonus rate and a continuous bonus rate. Since the process for calculating either one of the consecutive character ratios is executed, compared with the configuration for executing the process for calculating the two types of game history information in the calculation process in one timer interrupt process. The time required for one execution of the timer interrupt process can be shortened. As a result, the time required for one execution of the timer interrupt process becomes longer than the interrupt interval, and it is possible to prevent the timer interrupt process from being executed at a predetermined interrupt interval. . Further, the storage capacity of the main RAM 64 for temporarily storing the calculated game history information can be reduced.

  Also, according to this aspect, in the incoming detection processing, when the incoming determination information of the bit corresponding to each entrance is “0” → “1” → “1”, it corresponds to the bit. Since it is determined that a game ball has entered the entrance, the occurrence of erroneous detection due to electrical noise can be suppressed as in the first embodiment described above.

<Aspect 24>
In the above-described aspect 23, as the game history information, it is configured to calculate the role ratio and the continuous role ratio, but the game history information to be calculated is not limited to these, and the various game history information shown in the first embodiment is used. It can be set as the structure to calculate. For example, it is good also as a structure which calculates the ball exit rate shown in 1st Embodiment, a payout ratio, etc. In this case, similarly to the above-described prize ball counting process (step S10808 in FIG. 29), the number of game balls that have passed through the discharge passage (the number of game balls fired on the game board 30) is also counted. do it.

<Aspect 25>
In the game history process of the above aspect 23 (FIG. 29), when 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 S1083). S10804) The configuration may be such that when the abnormality flag is turned ON a predetermined number of times within a predetermined period, information indicating that an abnormality has occurred is displayed on the game history information display unit 45z.

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

<Aspect 27>
In the above aspect 23, as the processing target of the prize ball totaling process, two bits out of the eight bits of the buffer area are set as the processing target. However, the number of bits to be processed is two. The number is not limited to this, and may be other numbers. For example, five bits may be set as a processing target in one timer interrupt process. Moreover, it is good also as a structure which sets all eight bits as a process target in one timer interruption process. Further, only predetermined bits (e.g., 6 bits of 0th bit D0 to 5th bit D5 in which a winning ball is set) out of 8 bits can be set as a processing target. In the timer interrupt processing, two bits may be set as a processing target.

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

  The main RAM 64 may be divided into three or more areas. For example, the third area, which is the third area of the main RAM 64, may be assigned as a storage area for executing processing for outputting game 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 other processes other than the game history process may include the save process and the return process. For example, the process scheduled to be deleted when the design of the gaming machine is changed may include a save process and a return process.

<Aspect 30>
In the above aspect 23, the game history process is incorporated in the timer interrupt process (FIG. 27), but the game history process may be incorporated in the main process (FIG. 12). Further, in the above-described aspect 23, the timer interrupt process (FIG. 27) is configured so that the game history process is incorporated as a process different from the process related to the progress of the game, but as a process different from the process related to the progress of the game. A process other than the game history process may be incorporated in the timer interrupt process. For example, a configuration in which a transmission process for transmitting information related to a game status to a hall computer installed in a game hall at a predetermined timing is incorporated in a timer interrupt process as a process different from a process related to the progress of the game It is good. Moreover, it is good also as a structure by which the various processes different from the process regarding advancing of a game are integrated in the main process.

<Aspect 31>
In the above aspect 23, the game history management chip 300 is not provided, and the main CPU 62x executes the game history processing (FIG. 29) to calculate the game history information. The main CPU 62x may execute the game history processing (FIG. 29) and calculate the game history information. According to such a configuration, the game history information can be calculated in two systems, so that the game history information can be calculated even if a problem occurs in one system. In addition, if the game history information calculated from the two systems is compared and a configuration is made to notify (display) whether or not these values match, the reliability and accuracy of the calculated game history information are confirmed. It becomes possible to do.

  In addition, the game history management chip 300 may be configured to execute the game history processing (FIG. 29) described in the above aspect 23 and calculate game history information.

<Aspect 32>
In step S10805 of the game history process (FIG. 29) of the above 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 RAM 64 is ORed. Although it is configured to read in the processing, instead of this configuration, an 8-bit storage area corresponding to the entry detection information storage area (hereinafter also referred to as a second entry detection information storage area) is stored in the second RAM 64. In the configuration provided in the area, the information stored in each bit of the entrance detection information storage area provided in the first area of the main RAM 64 is provided in the second area of the main RAM 64. It is good also as a structure which copies (copy) to the 2nd entrance detection information storage area, and reads the information of each copied said bit in OR process of step S10805.

  Moreover, it is good also as a structure by which the entrance detection information storage area is provided in the 2nd area of main side RAM64.

<Aspect 33>
In step S10814 of the game history processing (FIG. 29) of the above-described aspect 23, when the calculation processing (task 1 or task 2) for calculating the game history information is not executed, the prize ball total value included in task 3 is validated. Although the process for determining the sex 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 the validity of the prize ball total value is determined in task 3, the determined flag indicating that it has been determined is turned ON, and when the task 3 is executed next, the determined flag Is set to ON, the process of determining the validity of the prize ball total value is not executed. Then, in the task 1 executed again, the determined flag may be turned off. According to such a configuration, one game history process is completed while determining the validity of the prize ball total value that is the basis for calculating the game history information and ensuring the validity of the game history information. It is possible to further reduce the processing time required for the process.

<Aspect 34>
In step S10810 of the game history process (FIG. 29) of the above-described aspect 23, when a predetermined time (for example, 30 minutes) has elapsed since the power-on of the pachinko machine 10, or 5 seconds have elapsed since the previous execution of the arithmetic process. In this case, it is determined that it is time to execute the arithmetic processing, and the game history information is calculated. However, instead of this configuration, the first time immediately after power-on without waiting for the elapse of a predetermined time from power-on. It may be determined that it is the timing for executing the arithmetic processing, and thereafter, every time 5 seconds have elapsed since the previous execution of the arithmetic processing, the timing for executing the arithmetic processing is determined. In this configuration, until the total number of winning balls in the total number of winning balls reaches 60000, the calculated game history information is displayed blinking when displayed on the game history information display unit 45z, and the total number of winning balls is 60000. After reaching the game history information, the calculated game history information may be turned on when displayed on the game history information display unit 45z. According to such a configuration, it is possible to easily grasp whether or not a sufficient amount of statistical data is accumulated as a prize ball total value that is a basis for calculation of displayed game history information. In place of the total number of winning balls, the display may be switched from blinking to lighting on the basis of the total value of the number of game balls that have passed through the discharge passage (number of game balls fired on the game board 30). .

<Aspect 35>
In step S10807 of the game history process (FIG. 29) in the above-described aspect 23, the plurality of processing target candidates for the prize ball counting process are fixed in advance as eight bits in the buffer area. Divide eight bits into two groups of four, select one of the two groups as a candidate for a plurality of processing targets for prize ball counting processing, and select four bits belonging to the selected group It is good also as a structure which sets two bits from among these as a processing target of a prize ball totaling process. However, as in the above-described aspect 23, one of the two groups is selected when the plurality of processing target candidates for the prize ball counting process are fixed in advance as eight bits of the buffer area. It is not necessary to execute the processing to be performed, and the processing can be simplified. As a result, the processing speed can be improved. 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 game history process (FIG. 29) of the above aspect 23, the tasks (various processes) to be executed in the game history process in the current timer interrupt process based on the remaining time until the next timer interrupt process is started. The number and type may be determined. According to such a configuration, the task can be executed by effectively utilizing the remaining time until the next timer interrupt process is started.

<Aspect 37>
FIG. 31 is a block diagram illustrating an electrical configuration of the pachinko machine 10 according to the 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 (game history process) for calculating and displaying the game history information described above. The main RAM 64 is divided into two areas (a first area and a second area) as in the above-described aspect 23 (FIG. 26), and the first area of the main RAM 64 relates to the progress of the game. It is used as an area for storing programs for executing processing, various flags (high probability mode flag, high frequency support mode flag, etc.), etc., and the second area of the main RAM 64 is for calculating and displaying game history information. Is used as an area for storing a program for executing the above process (game history process) and various numerical information (game history information such as the above-mentioned prize ball total value, number of balls entered, bonus rate ratio, etc.) . Then, as in the above-described aspect 23 (FIG. 26), the main CPU 62x writes information to the first area of the main RAM 64 when executing a process related to game progress (a process other than the game history process). Information is written only to the second area of the main RAM 64 when the game history process is executed.

  Further, the main MPU 62 of the pachinko machine 10 according to the present embodiment includes a flash that is a non-volatile memory that is rewritable and can retain memory even when power is cut off, as shown in FIG. A memory 64x is provided. In this embodiment, a NAND flash memory is used as the flash memory 64x, but a NOR flash memory may be used. In the game history process, the main CPU 62x of this aspect 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, every time the total number of winning balls in the winning ball total value reaches 500, the main CPU 62x executes a process of writing various winning ball total values and the like in the flash memory 64x. That is, the flash memory 64x stores various pieces of numerical information (game history information such as award ball total value, number of balls entered, and bonus rate) acquired based on game execution.

  As described above, according to the configuration of the present aspect, various numerical information (game history information such as award ball total value, number of balls entered information, and ratio of bonuses) acquired based on the execution of the game is stored in the flash memory 64x. Since it 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 held. For example, even when power is not supplied to the pachinko machine 10 over a long period of time in the distribution process, a normal game is being executed in the pachinko machine 10 based on various numerical information stored in the flash memory 64x. It is possible to inspect whether or not.

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

  Specifically, for example, an erasing IC chip capable of executing an erasing process for erasing information stored in the flash memory 64x is provided, and the erasing process is performed while the flash memory clear button is pressed. A high level signal is input to the input terminal of the IC chip. Then, the erasure processing IC chip is configured to execute an erasure process for erasing information stored in the flash memory 64x based on the fact that the Hi level signal input to the input terminal continues for 10 seconds. . According to such a configuration, compared to a configuration in which the information stored in the flash memory 64x is erased by the processing of the main CPU 62x, the influence on the processing related to the game execution of the main CPU 62x and the operation of the main RAM 64. The information stored in the flash memory 64x can be erased while suppressing the above.

  Further, the flash memory clear button may be configured to be stored in a space where an open trace remains. Specifically, for example, the flash memory clear button is stored inside a substrate box with a seal sticker that leaves an opening trace, and can be pressed unless the seal sticker is peeled off to open the substrate box. It is good also as a structure which cannot.

  According to the configuration of this aspect, in order to erase the information stored in the flash memory 64x of the pachinko machine 10, it is necessary to open the board box of the pachinko machine 10 and operate the flash memory clear button. The trace of opening will remain in the substrate box of the pachinko machine 10. That is, there is a possibility that the information stored in the flash memory 64x is erased by opening the board box of the pachinko machine 10 based on whether or not the trace of opening remains in the board box of the pachinko machine 10. It becomes possible to grasp whether or not.

  Here, if the pachinko machine 10 is illegally modified (for example, an illegal modification of a nail), the executed game is affected by the unauthorized modification, and further, the pachinko machine 10 In some cases, the information stored in the flash memory 64x (for example, the ratio of the items) may be affected by the unauthorized modification. A person who inspects whether or not a normal game is being executed by the pachinko machine 10 (hereinafter, also referred to as “inspector”) confirms the information stored in the flash memory 64x, thereby checking the pachinko machine 10 with the information. Unauthorized alterations can be found. For this reason, a person who desires to prevent an inspector from discovering that the pachinko machine 10 has been illegally modified by deleting the information (hereinafter, also referred to as “illegal person”). May exist.

  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. Then, since traces of opening remain in the board box of the pachinko machine 10, even if an unauthorized person erases the information stored in the flash memory 64x, the information is erased for illegal concealment. There will be a trace of the possibility. Therefore, it is possible to make it difficult to conceal unauthorized modification performed on the pachinko machine 10, and as a result, it is possible to suppress the generation of motivation to perform unauthorized modification on the pachinko machine 10, and the soundness of the game Can be improved.

  In addition, the pachinko machine 10 may be circulated by transaction, and a person who wants to newly distribute the pachinko machine 10 (so-called used pachinko machine) for which a game has already been executed can be used as a flash memory of the pachinko machine 10. There is a case where there is a legitimate request that the information stored in 64x is deleted and then distributed. Therefore, only a person who desires to delete the information stored in the flash memory 64x of the pachinko machine 10 for a valid reason (hereinafter also referred to as a “legitimate person”) can erase the trace of opening the board box. If the distribution system which can perform is constructed | assembled, it will become possible to promote the smooth distribution | circulation of the pachinko machine 10, ensuring the soundness of a game. Specifically, for example, by establishing a distribution system in which only the manufacturer of the pachinko machine 10 as a legitimate person can put a new seal seal, while ensuring the soundness of the game, the pachinko machine 10 smooth distribution can be promoted.

  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 can be employed. For example, 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), the information stored in the flash memory 64x may be deleted. For example, the 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 for a predetermined time (for example, 10 seconds). When pressed, the information may be erased by executing an erasing program for erasing information stored in the flash memory 64x.

  In addition, the flash memory clear button is not limited to the configuration stored inside the substrate box with the seal sticker attached, but is stored inside the space where the trace of opening (also called the trace of opening or the trace of opening / closing) remains. Other configurations may be used as long as they are configured. For example, the flash memory clear button is housed in the space covered by the lid member, and if the space is not opened by destroying at least a part of the lid member, the flash memory clear button is operated. It is good also as a structure which cannot do. 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 that when the flash memory clear button is pressed, the flash memory is stored. The broken lid member remains as a trace of the open space. In addition, for example, a flash memory clear button is connected to a plurality of case bodies (for example, a box-shaped case body and a lid-shaped case body capable of sealing an open portion of the box-shaped case body). As a configuration that is housed inside a board box that is configured by being joined together, and when a plurality of case bodies that constitute the board box are separated, a predetermined portion of the joint portion (caulking portion) needs to be destroyed. Also good. According to such a configuration, in order to operate the flash memory clear button, it is necessary to break a predetermined portion of the coupling portion (crimping portion) and separate a plurality of case bodies to open the board box. When the flash memory clear button is pressed, a joint portion (caulking portion) in which a predetermined portion is destroyed remains as a trace that the base box is opened. Furthermore, the flash memory clear button was configured to be housed inside the substrate box coupled by the coupling portion (caulking portion) described above, and was peeled off by leaving the adhesive layer on the adhesion target when peeled off. It is good also as a structure which affixes the seal seal | sticker which leaves the trace of this so that the boundary between several case bodies may be straddled. According to such a configuration, when the flash memory clear button is pressed, the sealing seal is peeled off in addition to the trace of opening of the substrate box called the coupling portion (caulking portion) in which the predetermined portion is broken or A trace of the opening of the substrate box remains, such as the seal 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 or not various game history information is within a normal range is connected to the inspection terminal 65 provided on the main MPU 62. When a predetermined signal (for example, an erasure command) is received from the inspection machine 320, information stored in the flash memory 64x (game history information such as award ball total value, number of balls entered, bonus rate, etc.) ) May be deleted.

  Specifically, for example, as in the above-described aspect 38, an erasing IC chip capable of executing an erasing process for erasing information stored in the flash memory 64x is provided and connected to the inspection terminal 65. When an erasing command is transmitted from the inspection machine 320, the erasing command is input to the input terminal of the erasing IC chip. Then, the erasure processing IC chip executes erasure processing for erasing information stored in the flash memory 64x based on the reception of the erasure command from the input terminal.

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

  Here, if the pachinko machine 10 is illegally modified (for example, an illegal modification of a nail), the executed game is affected by the unauthorized modification, and further, the pachinko machine 10 In some cases, the information stored in the flash memory 64x (for example, the ratio of the items) may be affected by the unauthorized modification. A person (inspector) who inspects whether or not a normal game is being executed by the pachinko machine 10, for example, connects the inspection machine 320 to the inspection terminal 65, and uses the information stored in the flash memory 64x as an inspection machine. By confirming with 320, an unauthorized modification applied to the pachinko machine 10 can be found. For this reason, there is a possibility that there is a person (unauthorized person) who has a desire to prevent the inspector from discovering that the pachinko machine 10 has been illegally modified by deleting 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. If the persons who can have the inspection machine 320 are restricted, it is possible to prevent the information stored in the flash memory 64x from being erased by an unauthorized person. It is possible to suppress the occurrence of motivation to make various modifications and improve the soundness of the game.

  The pachinko machine 10 may be circulated by transaction, and a person who wants to newly circulate a pachinko machine 10 that has already been played (so-called used pachinko machine 10) may flash the pachinko machine 10 There is a case where there is a legitimate request that the information stored in the memory 64x is erased and then distributed. Therefore, only those who have a desire to erase the information stored in the flash memory 64x of the pachinko machine 10 for a valid reason (for example, the manufacturer of the pachinko machine 10) and the inspector described above have the inspection machine 320. If a distribution system that can be used is constructed, smooth distribution of the pachinko machine 10 can be promoted while ensuring the soundness of the game.

  Further, 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 deletion. It is good also as a structure to be.

  Specifically, for example, the erasure processing IC chip described above starts transmission of information stored in the flash memory 64x based on reception of an erasure command from the input terminal. The command is transmitted to the inspection machine 320. Upon receiving the transmission start command, the inspection device 320 shifts to a receivable mode in which information can be received, and transmits a receivable command indicating the receivable mode to the erasure processing IC chip. The IC chip for erasure processing that has received the receivable command starts transmission of 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. The inspection device 320 that has received the transmission completion command checks whether there is an error such as data loss in the received information, and if there is no error, transmits the reception completion command to the IC chip for erasure processing. The erasure processing IC chip executes an erasure process for erasing information stored in the flash memory 64x based on the reception completion command received.

  According to such a configuration, even if the information stored in the flash memory 64x is erased from the flash memory 64x even if it is erased by an erroneous operation contrary to the intention of the person having the inspection device 320, Since the information that has been done remains in the inspection machine 320, the information can be confirmed by the inspection machine 320.

  Note that the configuration in which the information stored in the flash memory 64x is erased based on the reception of a predetermined signal from the inspection machine 320 is not limited to the above configuration, and various other configurations may be adopted. it can. For example, in the case where the IC chip for erasure processing is not provided, the main CPU 62x monitors whether or not the erasure command is received from the inspection machine 320 connected to the inspection terminal 65, and the erasure command is received. In addition, the information may be erased by executing an erase program for erasing information stored in the flash memory 64x. When the main CPU 62x receives an erasure command from the inspection device 320, the main CPU 62x transmits information stored in the flash memory 64x to the inspection device 320 and then executes an erasure program for erasing the information. Thus, the information stored in the flash memory 64x may be erased.

  In this aspect, the configuration is such that the information stored in the flash memory 64x is erased using the inspection machine 320 for inspecting whether or not various game history information is within the normal range. The configuration is not limited to the configuration using the machine 320, and the information may be erased using a dedicated terminal for erasing the information stored in the flash memory 64x.

<Aspect 40>
In the above aspect 37, the flash memory clear button stored in the space in which the trace of the opening remains is continuously pressed for a predetermined time (for example, 10 seconds), and predetermined from the inspection machine 320 connected to the inspection terminal 65. When a signal (for example, an erase command) is received, information stored in the flash memory 64x (award ball total value, number of entered balls, game history information such as a bonus rate) is erased. Also good.

  Specifically, for example, as in the above-described aspect 38, an erasure processing IC chip capable of executing erasure processing for erasing information stored in the flash memory 64x is provided, and the flash memory clear button is pressed. The Hi level signal is input to the input terminal of the erasing IC chip during the period. Then, the erasing IC chip can perform an erasing process for erasing information stored in the flash memory 64x based on the fact that the Hi level signal input to the input terminal continues for 10 seconds. Transition to execution standby mode. When the erase processing IC chip receives an erase command command from the inspection device 320 in the erase processing execution standby mode, the erase processing IC chip executes an erase process for erasing information stored in the flash memory 64x.

  According to the configuration of this aspect, since the flash memory clear button is stored inside the substrate box where the trace of opening remains, in order to erase the information stored in the flash memory 64x of the pachinko machine 10, The substrate box of the pachinko machine 10 is opened and the flash memory clear button is operated, and the trace of opening remains in the board box of the pachinko machine 10. Further, since the IC chip for erasing process erases the information stored in the flash memory 64x based on the reception of a predetermined signal from the inspection machine 320 connected to the inspection terminal 65, it has the inspection machine 320. A person can erase the information stored in the flash memory 64x. Therefore, there is a possibility that the information stored in the flash memory 64x is erased by opening the board box of the pachinko machine 10 based on whether or not the trace of opening remains in the board box of the pachinko machine 10. Whether or not the information is deleted by a person who does not have the inspection machine 320 can be restricted.

  Here, if the pachinko machine 10 is illegally modified (for example, an illegal modification of a nail), the executed game is affected by the unauthorized modification, and further, the pachinko machine 10 In some cases, the information stored in the flash memory 64x (for example, the ratio of the items) may be affected by the unauthorized modification. A person (inspector) who inspects whether or not a normal game is being executed by the pachinko machine 10, for example, connects the inspection machine 320 to the inspection terminal 65, and uses the information stored in the flash memory 64x as an inspection machine. By confirming with 320, an unauthorized modification applied to the pachinko machine 10 can be found. For this reason, there is a possibility that there is a person (unauthorized person) who has a desire to prevent the inspector from discovering that the pachinko machine 10 has been illegally modified by deleting 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. If the persons who can have the inspection machine 320 are restricted, 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 has the inspection machine 320, in order to erase the information stored in the flash memory 64x, the board box of the pachinko machine 10 is opened and the flash memory It is necessary to operate the clear button. Then, since the trace of opening remains in the board box of the pachinko machine 10, even if the information stored in the flash memory 64x is erased, there is a possibility that the information is erased for illegal concealment. Such a trace will remain. Therefore, it is possible to prevent the information stored in the flash memory 64x from being erased by an unauthorized person and to make it difficult to conceal unauthorized modification performed on the pachinko machine 10. As a result, it is possible to further suppress the generation of motivation to improperly modify the pachinko machine 10 and improve the soundness of the game.

  The pachinko machine 10 may be circulated by transaction, and a person who wants to newly circulate a pachinko machine 10 that has already been played (so-called used pachinko machine 10) may flash the pachinko machine 10 There is a case where there is a legitimate request that the information stored in the memory 64x is erased and then distributed. Therefore, only a person who desires to delete information stored in the flash memory 64x of the pachinko machine 10 for a valid reason (for example, a manufacturer of the pachinko machine 10) and the inspector described above have the inspection machine 320. In addition, if a distribution system in which only a legitimate person can erase the trace of the opening of the substrate box is constructed, it is possible to promote smooth distribution of the pachinko machine 10 while ensuring the soundness of the game. It becomes possible.

  Note that the above configuration is used as the configuration in which the flash memory clear button receives a predetermined operation and the information stored in the flash memory 64x is erased based on the reception of the predetermined signal from the inspection device 320. Not limited to this, various other configurations can be employed. For example, the configuration may be such that 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), the erasure processing IC chip shifts to the above-described erasure processing execution standby mode. For example, when an erase command is received from the inspection device 320, the erase IC chip shifts to the above-described erase process execution standby mode, and the flash memory clear button is set for a predetermined time (for example, the erase process execution standby mode). (10 seconds) When the button is continuously pressed, an erasing process for erasing information stored in the flash memory 64x may be executed. Further, for example, a configuration may be adopted in which the IC chip for erasure processing is not provided, and the main CPU 62x executes a function equivalent to that of the IC chip for erasure processing to erase information stored in the flash memory 64x.

  Similarly to the above-described 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 erase. It is good also as a structure transmitted to the inspecting machine 320 made. According to such a configuration, even if the information stored in the flash memory 64x is erased from the flash memory 64x even if it is erased by an erroneous operation contrary to the intention of the person having the inspection device 320, Since the information that has been done remains in the inspection machine 320, the information can be confirmed by the inspection machine 320.

<Aspect 41>
In the aspect 37, an operation panel that receives an 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 Information stored in the flash memory 64x when the authentication information individually set in the pachinko machine 10 is matched (game history information such as award ball total value, number of balls entered, and ratio of winnings) It is good also as a structure by which is deleted.

  Specifically, for example, as in the above-described aspect 38, there is provided an erasure processing IC chip capable of executing erasure processing for erasing information stored in the flash memory 64x, and input via an operation panel. It is assumed that the authentication information is input to the input terminal of the erasing IC chip. Then, the erasure processing IC chip determines whether or not the authentication information input from the operation panel matches the authentication information stored in the ROM of the erasure processing IC chip. When the determination is made, an erasing process for erasing information stored in the flash memory 64x is executed.

  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 receiving unit matches the authentication information set in the pachinko machine 10. Since the information is deleted, a person who has the authentication information set in the pachinko machine 10 (for example, a person who knows the password set in the pachinko machine 10) is stored in the flash memory 64x. Information can be erased. That is, it becomes possible to restrict the 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 is illegally modified (for example, an illegal modification of a nail), the executed game is affected by the unauthorized modification, and further, the pachinko machine 10 In some cases, the information stored in the flash memory 64x (for example, the ratio of the items) may be affected by the unauthorized modification. A person (inspector) who inspects whether or not a normal game is being executed by the pachinko machine 10 confirms the information stored in the flash memory 64x, so that unauthorized modification made to the pachinko machine 10 is performed. Can be found. For this reason, there is a possibility that there is a person (unauthorized person) who has a desire to prevent the inspector from discovering that the pachinko machine 10 has been illegally modified by deleting the information. .

  However, according to the configuration of this aspect, it is necessary to have the authentication information set in the pachinko machine 10 in order to erase the information stored in the flash memory 64x. And if the person who can have the authentication information set in the pachinko machine 10 is restricted, the information stored in the flash memory 64x can be prevented from being erased by an unauthorized person, As a result, it is possible to suppress the occurrence of motivation to improperly modify the pachinko machine 10, and to improve the soundness of the game.

  The pachinko machine 10 may be circulated by transaction, and a person who wants to newly circulate a pachinko machine 10 that has already been played (so-called used pachinko machine 10) may flash the pachinko machine 10 There is a case where there is a legitimate request that the information stored in the memory 64x is erased and then distributed. Therefore, only those who desire to delete the information stored in the flash memory 64x of the pachinko machine 10 for a valid reason (for example, the manufacturer of the pachinko machine 10) are set in the pachinko machine 10. If a distribution system capable of having authentication information is constructed, smooth distribution of the pachinko machine 10 can be promoted while ensuring the soundness of the game.

  Note that the authentication information input to delete the information stored in the flash memory 64x is not limited to the password, and various authentication information can be employed. For example, as authentication information, an authentication character (password, passphrase) that is a combination of a plurality of character strings, a barcode of a specific pattern, a password generated according to a predetermined rule (for example, a one-time password), a specific person Biometric authentication information (fingerprint, iris, vein pattern, etc.) can be used.

<Aspect 42>
In the aspect 37, when an 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, information stored in the main side RAM 64 Of these, information stored in the first area of the main RAM 64 (information used for controlling the execution of the game including the high probability mode flag and the high frequency support mode flag) is erased and stored in the second area. The information (information acquired based on the executed game such as the prize ball total value, the number information of entered balls, the game history information such as the ratio of the prizes, etc.) may not 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, and the RAM clear button is pressed. If it is determined that the information is 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. The configuration.

  According to such a configuration, information stored in the second area of the main RAM 64 (information acquired based on the executed game) is stored in the first area of the main RAM 64. Information (information used for controlling the execution of the game) can be erased. Specifically, for example, when a malfunction occurs in the game execution control, or when the game hall starts or ends, information used for game execution control is deleted to control the gaming machine. There is a desire to execute initialization but not to delete information acquired based on the executed game. According to the configuration of this aspect, by operating the RAM clear button, the information used for controlling the execution of the game is deleted while leaving the information acquired based on the executed game, and the pachinko machine 10 It is possible to execute control initialization.

  Further, 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 RAM 64 is provided on the back side of the pachinko machine 10, and the pachinko machine 10 is turned on. When an operation of pressing the second RAM clear button for a predetermined time (for example, 10 seconds) is executed during the 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 the state where the second RAM clear button is pressed continues for a predetermined time (for example, 10 seconds). If it is determined that the information is stored in the main RAM 64, the information stored in the second area of the main RAM 64 is deleted.

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

  Furthermore, the second RAM clear button may be configured to be stored inside a space where an open trace remains. Specifically, for example, the second RAM clear button is stored in the inside of the substrate box to which a seal seal that leaves an opening trace is attached, and can be pressed if the seal box is not peeled off to open the substrate box. It is good also as a structure which cannot be performed.

  According to the configuration of this aspect, in order to erase the information stored in the second area of the main 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. There will be traces of opening in the substrate box of the pachinko machine 10. That is, the information stored in the second area of the main RAM 64 is erased by opening the board box of the pachinko machine 10 based on whether or not the trace of opening remains in the board box of the pachinko machine 10. It becomes possible to grasp whether or not there is a possibility.

  Here, if the pachinko machine 10 is illegally modified (for example, an illegal modification of a nail), an influence of the illegal modification appears on the executed game, and further, the pachinko machine 10 In some cases, the information (for example, the ratio of the items) stored in the second area of the main RAM 64 may be affected by the unauthorized modification. A person (inspector) inspecting whether or not a normal game is being executed by the pachinko machine 10 confirms information stored in the flash memory 64x and information stored in the second area of the main RAM 64. As a result, it is possible to find an unauthorized modification applied to the pachinko machine 10. For this reason, there is a possibility that there is a person (unauthorized person) who has a desire to prevent the inspector from discovering that the pachinko machine 10 has been illegally modified by deleting the information. .

  However, according to the configuration of this aspect, in order to erase the information stored in the second area of the main RAM 64, it is necessary to open the board box of the pachinko machine 10 and operate the second RAM clear button. . Then, since a trace of opening remains in the board box of the pachinko machine 10, even if an unauthorized person erases the information stored in the second area of the main RAM 64, the information is illegally concealed. Therefore, there remains a trace that it may have been deleted. Therefore, it is possible to make it difficult to conceal unauthorized modification performed on the pachinko machine 10, and as a result, it is possible to suppress the generation of motivation to perform unauthorized modification on the pachinko machine 10, and the soundness of the game Can be improved.

  In addition, the pachinko machine 10 may be circulated by transaction, and a person who wants to newly distribute a pachinko machine 10 (so-called used pachinko machine) for which a game has already been executed is the main side of the pachinko machine 10 There is a case where there is a legitimate request that the information stored in the second area of the RAM 64 is erased and then distributed. Therefore, only a person who has a desire to delete the information stored in the second area of the main RAM 64 of the pachinko machine 10 for a valid reason (a legitimate person) can erase the trace of opening the board box. If a distribution system is established, it is possible to promote smooth distribution of the pachinko machine 10 while ensuring the soundness of the game. Specifically, for example, by establishing a distribution system in which only the manufacturer of the pachinko machine 10 as a legitimate person can put a new seal seal, while ensuring the soundness of the game, the pachinko machine 10 smooth distribution can be promoted.

  In addition, as a structure of the space in which the trace of opening (also referred to as the trace of opening or the trace of opening / closing) remains, various configurations described in the aspect 38 can be employed.

<Aspect 43>
In the aspect 37, an 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 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 deleted, and the information stored in the second area of the main RAM 64 is not deleted. On the other hand, when the operation of turning on the power of the pachinko machine 10 is performed while pressing the RAM clear button, and the state in which the RAM clear button is pressed continues for a predetermined time (for example, 10 seconds). The information stored in the first area of the main RAM 64 is not erased, and the information stored in the second area of the main RAM 64 is erased. It may be configured to be.

  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, and the RAM clear button is pressed. If it is determined that the RAM clear button is pressed, it is monitored whether or not the state in which the RAM clear button is pressed continues for a predetermined time (for example, 10 seconds). If the main CPU 62x determines that the RAM clear button has not been pressed within a predetermined 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 erased. On the other hand, when it is determined that the RAM clear button is pressed for a predetermined time (for example, 10 seconds), the main CPU 62x deletes 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, it is possible to select information to be deleted from information stored in the main RAM 64 by executing different operations on the RAM clear button. That is, since the target information to be deleted can be selected without providing another operation unit (for example, a button or the like) for selecting the target information to be deleted, the structure of the pachinko machine 10 can be simplified. Can be achieved.

  Specifically, for example, when trouble occurs in the game execution control or when the game hall starts or ends, information used for game execution control (stored in the first area of the main RAM 64). When the initialization of the control of the gaming machine is executed, the operation of turning on the power of the pachinko machine 10 while pressing the RAM clear button is executed and for a predetermined time (for example, 10 Seconds), the RAM clear button has not been pressed, while the information acquired based on the executed game (information stored in the second area of the main RAM 64) is deleted and the game is deleted. When a new machine is to be distributed, an operation of turning on the power of the pachinko machine 10 while pressing the RAM clear button and executing the RAM clear button There depressed state may be directly to continue a predetermined time (e.g. 10 seconds). As described above, by performing different operations on the RAM clear button, it is possible to select information to be deleted from the information stored in the main RAM 64.

  During the execution of the process of deleting information stored in the second area of the main RAM 64, the above-described game history process cannot be executed. There is a possibility that an error may occur in the prize ball total value. Therefore, if the configuration is such that the game execution is not started until the end of the erasure process (for example, a configuration that suppresses the launch of the game ball), the occurrence of the error can be suppressed.

  Further, in this aspect, 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 time (for example, 10 seconds). If this happens, the information stored in the first area of the main RAM 64 is erased, and further, 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 not erased, the information may be erased if it is determined that the information is not valid. 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 RAM 64 is not valid. Note that the case where the information stored in the second area of the main RAM 64 is not valid is, for example, the case where the number of winning prize balls exceeds the total number of winning balls, or the total number of consecutive winning prize balls For example, when the number of winning balls is exceeded, the number of consecutive prize winning balls exceeds the number of winning prize balls, or the like.

<Aspect 44>
In the aspect 37, an 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 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 deleted, and the information stored in the second area of the main RAM 64 is not deleted. On the other hand, when the operation of turning on the power of the pachinko machine 10 is performed while pressing the RAM clear button, and the state in which the RAM clear button is pressed continues for a predetermined time (for example, 10 seconds). The information stored in the first area of the main RAM 64 is not only erased, but is stored in the second area of the main RAM 64. Information may be configured to 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, and the RAM clear button is pressed. Is determined, the information stored in the first area of the main RAM 64 is erased. Further, the main CPU 62x monitors whether or not the state in which the RAM clear button is pressed continues for a predetermined time (for example, 10 seconds), and the RAM clear button has been pressed within the predetermined time (for example, 10 seconds). If it is determined that there is no such state, the information stored in the second area of the main RAM 64 is not erased. On the other hand, when it is determined that the state in which the RAM clear button is pressed continues for a predetermined time (for example, 10 seconds), the main CPU 62x also deletes information stored in the second area of the main RAM 64. .

  According to such a configuration, as in the above-described aspect 43, by performing different operations on the RAM clear button, the information to be erased is selected from the information stored in the main RAM 64. It becomes possible to do. Further, by executing an operation of turning on the power of the pachinko machine 10 while pressing the RAM clear button and continuing the state in which the RAM clear button is pressed for a predetermined time (for example, 10 seconds), the main RAM 64 Both the information stored in the first area and the information stored in the second area can be erased.

  During the execution of the process of deleting information stored in the second area of the main RAM 64, the above-described game history process cannot be executed. There is a possibility that an error may occur in the prize ball total value. Therefore, if the configuration is such that the game execution is not started until the end of the erasure process (for example, a configuration that suppresses the launch of the game ball), the occurrence of the error can be suppressed.

<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 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 the state where the RAM clear button is pressed continues for a predetermined time (for example, 10 seconds). When the determination is made, the information stored in the second area of the main RAM 64 is erased from the information stored in the main RAM 64.

  According to such a configuration, it is stored in the second area of the main RAM 64 without separately providing an operation unit (such as a button) for deleting information stored in the second area of the main RAM 64. It becomes possible to erase the information. Note that during the execution of the process of deleting the information stored in the second area of the main RAM 64, the above-described game history process cannot be temporarily executed. There is a possibility that errors may occur in the number of balls entered and the total number of winning balls. Therefore, if the configuration is such that the execution of the game is temporarily stopped during the period from the start to the end of the execution of the erasure process (for example, the configuration that temporarily suppresses the launch of the game ball), the occurrence of the error is suppressed. can do.

<Aspect 46>
In each of the above aspects, the information stored in the second area of the main RAM 64 (obtained based on the executed game such as the total value of prize balls, game history information such as information on the number of balls entered, and the ratio of bonuses) When information is deleted, the information stored in the first area of the main RAM 64 (information used for controlling the execution of games such as the high probability mode flag and the high frequency support mode flag) is always deleted. It is good also as a structure. That is, when a predetermined operation for erasing information stored in the second area of the main RAM 64 is executed, or when a predetermined operation for deleting information stored in the second area of the main 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 RAM 64 is erased but also stored in the first area of the main RAM 64. It may be configured to always erase information.

  According to such a configuration, the information acquired based on the executed game (information stored in the second area of the main RAM 64) is erased, but used to control the execution of the game. Generation of information (information stored in the first area of the main RAM 64) is maintained without being erased. Specifically, for example, the information acquired based on the executed game is information serving as collateral for determining the fairness of the game executed in the pachinko machine 10, and thus information serving as the collateral Is deleted, information used for controlling the execution of the game in the pachinko machine 10 (for example, information on the high probability mode flag and the high frequency support mode flag indicating the gaming state) is deleted, and the pachinko machine 10 It is preferable to initialize the gaming state. According to the configuration of this aspect, when erasing information acquired based on the executed game (information stored in the second area of the main RAM 64), information used for controlling the execution of the game ( (Information stored in the first area of the main RAM 64) is deleted, so that information used to control the execution of the game is deleted despite the deletion of information used as collateral for determining the fairness of the game. Occurrence of a situation in which the gaming state of the pachinko machine 10 is maintained as it is because the (information stored in the first area of the main RAM 64) is not erased can be suppressed.

  Also, for example, information that is used to control the execution of a game even though information acquired based on the executed game (information stored in the second area of the main RAM 64) is erased. In the case where (information stored in the first area of the main RAM 64) is maintained without being erased, the information acquired based on the executed game (the second area of the main RAM 64). In some cases, the high probability mode and the high frequency support mode are maintained as they are in the pachinko machine 10 even though the information stored in (2) is deleted. In this case, when a game is executed in the pachinko machine 10, the game is started in the high probability mode or the high frequency support mode in a state where information acquired based on the executed game is not a sufficient amount as statistical data. Therefore, there is a high possibility that the game history information such as the proportion of an accessory is calculated as a biased value. Therefore, as in this aspect, based on the information stored in the second area of the main side RAM 64 (game history information such as the total value of winning balls, information on the number of balls entered, and the ratio of bonuses) When the acquired information) is erased, the information stored in the first area of the main RAM 64 (information used for controlling the execution of the game such as the high probability mode flag and the high frequency support mode flag) is always used. By adopting a configuration in which the game history information is erased, it is possible to prevent the game history information such as the accessory ratio from being calculated as a biased value.

  Note that various operation modes can be adopted as an operation for erasing information stored in the second area of the main RAM 64. For example, while pressing 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 is continued for a predetermined time (for example, 10 seconds). An operation, an operation to turn on the power of the pachinko machine 10 while pressing a second RAM clear button provided separately on the back side of the pachinko machine 10, a pachinko machine while pressing both the RAM clear button and the second RAM clear button An operation or the like for turning on the power of the machine 10 can be employed.

  Further, for example, 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 time (for example, 10 seconds). In some cases, the information stored in the first area of the main RAM 64 out of the information stored in the main RAM 64 (used to control the execution of a game including a high probability mode flag, a high frequency support mode flag, etc. Information is deleted and information stored in the second area (information acquired based on the executed game such as the total value of prize balls, information on the number of balls entered, game history information such as the ratio of bonuses) May not be erased.

  According to such a configuration, information stored in the second area of the main RAM 64 (information acquired based on the executed game) is stored in the first area of the main RAM 64. Information (information used for controlling the execution of the game) can be erased. Specifically, for example, when a malfunction occurs in the game execution control, or when the game hall starts or ends, information used for game execution control is deleted to control the gaming machine. There is a desire to execute initialization but not to delete information acquired based on the executed game. According to the configuration of this aspect, by operating the RAM clear button, the information used for controlling the execution of the game is deleted while leaving the information acquired based on the executed game, and the pachinko machine 10 It is possible to execute control initialization.

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

  In step S10901, it is determined whether the RAM clear button is being pressed. If it is determined in step S10901 that the RAM clear button has not been pressed (step S10901: NO), the process proceeds to step S10902 to be described later. On the other hand, if it is determined in step S10901 that the RAM clear button is being pressed (step S10901: YES), the process proceeds to step S10903, and whether or not the state where the RAM clear button is pressed continues. Determine.

  If it is determined in step S10903 that the state where the RAM clear button is pressed is not continued, that is, if it is determined that the RAM clear button is not pressed (step S10903: NO), step S10904 is performed. Then, the information stored in the first area of the main RAM 64 is erased, and the initial setting process for the first area is executed. Then, it progresses to step S10908 mentioned later. On the other hand, if it is determined in step S10903 that the state in which the RAM clear button is pressed continues (step S10903: YES), the process proceeds to step S10905, where the RAM clear button is pressed for a predetermined time (for example, 10 seconds). ) Determine whether it is continuing.

  If it is determined in step S10905 that the pressed state of the RAM clear button has not continued for a predetermined time (for example, 10 seconds) (step S10905: NO), the process returns to step S10903, and the state in which the RAM clear button is pressed continues. It is determined 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 time (eg, 10 seconds) (step S10905: YES), the process proceeds to step S10906. That is, if the pressed state of the RAM clear button does not continue for a predetermined time (for example, 10 seconds), the process proceeds to step S10904 described above, and if the pressed state of the RAM clear button continues for a predetermined time (for example, 10 seconds). The process proceeds to step S10906.

  In step S10906, the information stored in the first area of the main RAM 64 is deleted, and the initial setting process for the first area is executed. Thereafter, the process proceeds to step S10907, where the information stored in the second area of the main RAM 64 is deleted, and the initial setting process for the second area is executed. Then, it progresses to step S10908 mentioned later.

  On the other hand, if it is determined in step S10901 that the RAM clear button is not being pressed (step S10901: NO), the process proceeds to step S10902, and the information stored in the second area of the main RAM 64 is valid. It is determined whether or not. Specifically, for example, is the prize ball total value (number of winning prizes, consecutive winning prizes, total prizes) that is information stored in the second area of the main RAM 64 valid? Determine whether or not. Here, the case where the total number of prize balls is not valid means that if the number of winning prize balls exceeds the total number of winning balls, or if the number of consecutive winning prize balls exceeds the total number of winning balls, This is the case where there is a contradiction in the total value of prize balls, such as when the number of prize prize balls exceeds the number of prize prize balls. If it is determined in step S10902 that the information stored in the second area of the main RAM 64 is not valid (step S10902: NO), the process proceeds to the above-described steps S10906 and S10907, and the first RAM 64 in the main RAM 64 is first processed. The information stored in the area and the information stored in the second area are erased. Thereafter, the process proceeds 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 RAM 64 is valid (step S10902: YES), the process directly proceeds to step S10908.

  In step S10908, an interrupt permission is set to permit the generation of the timer interrupt process. After executing step S10908, the process proceeds to the remaining process of steps S10909 to S10912. The remaining processes in steps S10909 to S10912 are the same as the remaining processes in steps S10104 to S10107 in FIG.

  According to the processing flow described above, information stored in the second area of the main RAM 64 (based on executed games such as award ball total value, game history information such as the number of balls entered, and the ratio of bonuses) Information (acquired in step S10906), the information (high probability mode flag, high frequency support mode flag, etc.) always stored in the first area of the main RAM 64 is always executed. A process of erasing (information used for controlling 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 value of winning balls, information on the number of balls entered, game history information such as the ratio of bonuses) is deleted. In this case, the information stored in the first area of the main RAM 64 (information used for controlling the execution of games such as the high probability mode flag and the high frequency support mode flag) may be deleted. . That is, when an operation for erasing information stored in the flash memory 64x is executed, or a predetermined signal for erasing information stored in the flash memory 64x is sent to another device (for example, the inspection machine 320). ), Not only the information stored in the flash memory 64x but also the information stored in the first area of the main RAM 64 may be deleted.

  According to such a configuration, the information (mainly used for controlling the execution of the game) although the information acquired based on the executed game (information stored in the flash memory 64x) is deleted. The occurrence of a situation in which the information stored in the first area of the side RAM 64 is maintained without being erased can be suppressed. Specifically, for example, the information acquired based on the executed game is information serving as collateral for determining the fairness of the game executed in the pachinko machine 10, and thus information serving as the collateral Is deleted, information used for controlling the execution of the game in the pachinko machine 10 (for example, information on the high probability mode flag and the high frequency support mode flag indicating the gaming state) is deleted, and the pachinko machine 10 It is preferable to initialize the gaming state. According to this configuration, when erasing information acquired based on the executed game (information stored in the flash memory 64x), information used to control the execution of the game (the first RAM 64 in the main RAM 64). (Information stored in the area) is deleted, so that information used for controlling the execution of the game (the number of main RAM 64 is the first) in spite of the deletion of the information that serves as collateral for judging the fairness of the game. The occurrence of a situation in which the gaming state of the pachinko machine 10 is maintained as it is because the information stored in one area) is not erased can be suppressed.

  Further, when information stored in the flash memory 64x (information acquired based on the executed game) is deleted, information stored in the first area of the main RAM 64 (high probability mode) is always used. Information stored in the second area of the main RAM 64 (information acquired based on the executed game), in addition to information used to control the execution of the game such as a flag and a high frequency support mode flag) It is good also as a structure erase | eliminated.

<Aspect 48>
In some of the aspects described above, the main RAM 64 is divided into two areas (a first area and a second area), and the first area of the main RAM 64 is for executing a process related to the progress of the game. Used as an area for storing programs, various flags (high probability mode flag, high frequency support mode flag, etc.), etc. The second area of the main RAM 64 is a process for calculating and displaying game history information (for game history) Processing) and various numerical information (the above-mentioned prize ball total value, the number of balls entered, game history information such as the ratio of bonuses), etc. Instead of the configuration, a RAM (RAM used for the game progress process) responsible for the first area of the main RAM 64 and a RAM (game history function) responsible for the second area of the main RAM 64 Used sense RAM) and may also be configured to include separately.

<Aspect 49>
Of the above-described aspects, in the aspect including the flash memory 64x, the flash memory 64x may be stored in a space where an open trace remains (for example, a substrate box with a seal sticker). . According to such a configuration, in order to make an unauthorized modification to the information stored in the flash memory 64x, the base box of the pachinko machine 10 is opened, and the board of the pachinko machine 10 is opened. There will be traces of opening in the box. That is, based on whether or not a trace of opening remains 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 flash memory 64x is illegally modified. It becomes possible to grasp whether or not there is a possibility. Therefore, it is possible to make it difficult to conceal unauthorized alterations made to the information stored in the flash memory 64x. As a result, there is a motivation to make unauthorized alterations to the information stored in the flash memory 64x. Can be suppressed, and the soundness of the game can be improved.

  In addition, as a structure of the space in which the trace of opening (also referred to as the trace of opening or the trace of opening / closing) remains, various configurations described in the aspect 38 can be employed.

<Aspect 50>
FIG. 33 is an explanatory diagram schematically illustrating a part of the electrical configuration of the pachinko machine 10 according to the aspect 50. The main side MPU 62 of this aspect is provided with a ball entry detection IC 62c between the input / output port 62a and the main side CPU 62x.

  The entrance detection IC 62c is electrically connected to the entrance detection sensors 44a to 44h via the input / output port 62a, and each entrance entrance is based on signals received from the entrance detection sensors 44a to 44h. It is determined whether or not a game ball has entered the game, and information indicating the result of the determination (entry information that is information on whether or not a game ball has entered the respective game entrances) is input to the main CPU 62x and the inspection terminal And output to the inspection machine 320 connected to 65. This will be specifically described below.

  Each of the entrance detection sensors 44a to 44h for detecting the entrance of a game ball to each entrance is electrically connected to the 0th bit D0 to the 7th bit D7 which are 8 input bits provided in 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 always input to each of the eight input bits R0 to R7 provided in the incoming ball detection IC 62c, and the incoming ball of the game ball enters the incoming ball port. When detected by the detection sensor, the signal input to the input bit corresponding to the entrance detection sensor among the eight input bits R0 to R7 is configured to rise from the Lo level to the Hi level.

  The entrance detection IC 62c determines whether or not a game ball has entered the entrance, based on signals output from the entrance detection sensors 44a to 44h. In this aspect, the incoming ball detection IC 62c monitors the eight input bits R0 to R7 respectively corresponding to the eight incoming ball detection sensors 44a to 44h, and Lo in the signal input to each input bit. When the rising edge from the level to the Hi level is detected, it is determined that the game ball has entered the entrance corresponding to the input bit. However, when the rising edge is detected but the Hi level state does not continue for a predetermined period, and when the rising edge is detected but the rising edge is a rising edge that occurs within a predetermined interval from the latest falling edge. Therefore, since the detected rising edge is likely to be noise, it is determined that no game ball has entered the 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 entrance. The method may be adopted.

  The entrance detection IC 62c determines whether or not a game ball has entered at each entrance for each predetermined period, and enters the entrance information, which is information indicating the result of the determination, through serial transmission communication. The data is output to the CPU 62 x and also output to the inspection machine 320 connected to the inspection terminal 65. In the present embodiment, since eight entrance detection sensors 44a to 44h are provided, the entrance detection IC 62c receives entrance information (8 indicating whether or not a game ball has entered at each of the 8 entrances. (Entrance information for bits) is output every predetermined period (every 4 ms). Specifically, the entry detection IC 62c always outputs a Lo level signal, and outputs a Hi level signal of 50 μs as a start bit every predetermined period (every 4 ms) in which the presence / absence of the entry is determined. After that, a 50 μs Hi level signal (with entry) or Lo level signal (without entry) corresponding to the presence / absence of entry of game balls at each of the eight entrances is output for 8 bits. A 50 μs Lo level signal is output as a stop bit.

  The main CPU 62x that has received the entrance information from the entrance detection IC 62c performs processing related to the progress of the game, such as the winning lottery and prize ball payout, based on the received entrance information of each entrance. Execute. Further, the main CPU 62x executes the above-described processing for game history (FIG. 29), and also executes processing related to calculation and display of game history information such as a pitching rate (total), a bonus rate, and a continuous bonus rate. To do. Then, the main CPU 62x stores the numerical information used in the calculation process of the game history information and the calculated game history information in the flash memory 64x.

  Next, an inspection using the inspection machine 320 capable of receiving the entrance information output from the entrance detection IC 62c will be described.

  In this aspect, the inspector of the pachinko machine 10 is playing a 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 game is being executed as usual by being fired on the board 30, it is checked whether or not a legitimate game is being executed in the pachinko machine 10 during this inspection by using the inspection machine 320. To do. This will be specifically described below.

  The inspecting machine 320 includes an entrance information reception mode in which the entrance information of the game balls at each entrance is received from the entrance detection IC 62c, and the type and prize of the entrance provided in the pachinko machine 10. Entrance information setting mode for setting entrance information, which is information relating to the number of balls, and game history information for calculating the above-described various game history information based on the received entrance information and the set entrance information The calculation mode can be executed.

  When inspecting whether or not a legitimate game is being executed in 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 inspection machine 320. The operation unit 327 is operated to shift the inspection machine 320 to the above-described entrance information reception mode. The player or the inspector operates the operation handle 25 of the pachinko machine 10 to be inspected to fire the game ball onto the game board 30 and continues the execution of the game as usual.

  When the inspection device 320 shifts to the entry information reception mode, the inspection device 320 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 inspection 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 a certain period, the above-described entrance information is output to the information transmission signal line 329a in the connection cable 329 via the inspection terminal 65 by serial transmission communication.

  In the entrance information reception mode, the inspection machine 320 receives entrance information corresponding to 8 entrances every predetermined period, and measures (counts) the number of entrances of game balls to each entrance. Remember. Then, the inspection machine 320 causes the display unit 328 to display information indicating the number of game balls that have been entered (counted) into each entrance. That is, every time a player or an inspector executes a game and a game ball enters each entrance, information indicating the number of entrances corresponding to each entrance displayed on the display unit 328 is 1. Is added. As a result, the display unit 328 of the inspection machine 320 displays the number of game balls that have entered the entrances after shifting to the entrance 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 entrance information reception mode, the inspection machine 320 displays the entrance information. Switch to setting mode.

  When the inspection machine 320 shifts to the entrance information setting mode, the display unit 328 displays an input screen for allowing the inspector to input the type of entrance and the number of prize balls for each entrance. In this aspect, since the inspection machine 320 has received 8 bits of entrance information for each predetermined period in the entrance information reception mode, the display unit 328 displays each of the 8 entrances. An input screen for inputting the type of entrance and the number of winning balls is displayed. The type of the entrance is a type of entrance where the entrance detection sensors 44a to 44h such as the first start port 33, the second start port 34, the big winning port 36a, and the discharge passage are provided. The number of prize balls is the number of game balls to be paid out as prize balls when one game ball enters the entrance.

  The inspector operates the operation unit 327 to input entrance information (entrance entrance type information and prize ball number information) to the inspector 320 for each entrance. Specifically, the inspector can obtain information (type information) indicating which number of bits in the entrance information output from the entrance detection IC 62c corresponds to which type of entrance, and which type Information on the number of prize balls to be set at the entrance (prize ball number information) is ascertained based on the specifications and manuals of the pachinko machine 10, and the obtained information is sent to the inspection machine 320. input. When the inspector completes the input of the 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 number of game balls entered for each entrance measured in the entrance information reception mode and the type set in the entrance information setting mode Based on the information and the prize ball number information, the various game history information described above is calculated. For example, the inspecting machine 320 calculates the above-mentioned ball-out rate (total), the bonus rate, and the continuous bonus rate. 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.

  The inspector can confirm whether or not a legitimate game has been executed during the inspection period by checking various game history information displayed on the display unit 328 of the inspection machine 320.

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

  For example, in the case of adopting a configuration in which entry information is output via the main CPU 62x to the inspection machine 320 connected to the inspection terminal 65 without adopting the configuration of this aspect, the main side If the CPU 62x has a problem or is illegally modified, the entrance information output to the inspection machine 320 may be affected by the problem or the unauthorized modification. In addition, the game history information calculated and displayed by the main CPU 62x may be unreliable due to the malfunction of the main CPU 62x or the influence of unauthorized modification.

  On the other hand, according to the present embodiment, the incoming ball detection IC 62c outputs the incoming ball information to the inspection machine 320 connected to the inspection terminal 65 without going through the main CPU 62x. Even if a defect occurs in the game or an unauthorized modification is made, the entry information output to the inspection machine 320 is not affected by the defect or the unauthorized modification. As a result, the inspection machine 320 connected to the inspection terminal 65 can execute a process based on the entry information that is not affected by the malfunction or unauthorized modification. Specifically, the inspection machine 320 can calculate the game history information based on the entry information that is not affected 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 improper modification, and the game history calculated and displayed by the main CPU 62x. Even if the reliability of the information is low, the game history information that is not affected by the main CPU 62x can be confirmed by the inspection machine 320. As a result, game soundness can be ensured.

  Further, according to this aspect, the incoming ball detection IC 62c outputs the incoming ball information corresponding to each of the plural inlets to the inspection machine 320 connected to the inspection terminal 65 by the serial transmission method. Therefore, for example, the configuration of the inspection terminal 65 for passing the incoming information to the inspection machine 320 can be simplified as compared with the case where the configuration in which the incoming information is output by the parallel transmission method is adopted. The configuration of the inspection machine 320 that receives the entry information can be simplified.

  Specifically, if a configuration is adopted in which entry information corresponding to each of the plurality of entrances is output by the parallel transmission method, the inspection terminal 65 is set to the number of the entrances. It is necessary to provide a corresponding output unit (for example, an output bit). Similarly, the inspection machine 320 needs to include an input unit (for example, an input bit) corresponding to the number of the plurality of entrances. Further, since the number of entrances provided in the pachinko machine 10 is different for each type (model) of the pachinko machine 10, the inspection machine 320 provided with a different number of input units for each type (model) of the pachinko machine 10. Need to be prepared.

  On the other hand, according to this aspect, the incoming ball detection IC 62c transmits the incoming ball information corresponding to each of the plural inlets to the inspection machine 320 connected to the inspection terminal 65 in a serial transmission system. The inspection terminal 65 includes at least one output unit that can output the entrance information by the serial transmission method regardless of the number of entrances provided in the pachinko machine 10. And it is sufficient. Therefore, the configuration of the inspection terminal 65 can be simplified. Similarly, the inspection machine 320 is configured to include at least one input unit that can input the entrance information output by the serial transmission method regardless of the number of entrances provided in the pachinko machine 10. Since it is good, the structure of the inspection machine 320 can be simplified. Further, even when the inspection machine 320 is connected to the pachinko machine 10 having a different number of entrances, the inspection machine 320 inputs entrance information corresponding to each of the entrances by a serial transmission method. can do. That is, the inspection machine 320 can be used for other pachinko machines 10 having different numbers of entrances. As a result, the versatility of the inspection machine 320 can be improved.

  In addition, according to the present aspect, the entrance detection IC 62c provides the entrance information to the inspection machine 320 only when receiving a Hi level signal from the inspection machine 320 connected to the inspection terminal 65. Since it outputs, it can suppress that the entrance information of the said pachinko machine 10 will be output outside except the case where the signal of the said Hi level is received. Therefore, it can suppress that the entrance information of the said pachinko machine 10 is analyzed and abused by a malicious person.

<Aspect 51>
In the above aspect 50, in the entrance information setting mode of the inspection machine 320, the entrance information is manually input to the inspection machine 320 by operating the operation unit 327 by the inspector, but instead of this configuration, The entrance information may be received by the inspection machine 320 from the pachinko machine 10 and set.

  Specifically, for example, when the inspection machine 320 shifts to the entrance information setting mode, a signal requesting transmission of entrance information (entrance entrance information transmission) via the connection cable 329 and the inspection terminal 65. Request command) is transmitted to the ball detection IC 62c. Upon receiving the signal (entrance entrance information transmission request command), the entrance detection IC 62c transmits the 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 entrance information received from the entrance detection IC 62c for each entrance and ends the entrance information setting mode.

  As described 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. In addition, it is possible to save the trouble of manually inputting the entrance information (the prize ball number information and the type information) to the inspection machine 320, and the wrong entry information (the prize ball number information and (Type information) can be prevented from being input. As a result, the inspection machine 320 can calculate the game history information based on the entrance information and accurate entrance information (award ball number information and type information).

  In this aspect, the entrance detection IC 62c transmits the entrance information of the pachinko machine 10 to the inspection device 320 based on the reception of a predetermined signal (entrance entrance information transmission request command). However, instead of this configuration, the ball detection IC 62c is triggered by the connection cable 329 of the inspection machine 320 being connected to the inspection terminal 65 (that is, the connection cable 329 of the inspection machine 320 is used for inspection). It is good also as a structure which transmits the entrance information of the said pachinko machine 10 to the test | inspection machine 320, when connecting to the terminal 65 is detected. According to this configuration, after the connection cable 329 is connected to the inspection terminal 65, the inspection machine 320 can quickly execute a process that requires the entrance information.

  In this aspect, the entrance detection IC 62 c transmits the entrance information to the inspection machine 320. However, instead of this configuration, the main CPU 62 x stores the entrance information stored in the main ROM 63. The information may be read and transmitted to the inspection machine 320.

<Aspect 52>
In the above aspect 50, the incoming ball detection IC 62c serializes the incoming ball information via the inspection terminal 65 only during a period when it is determined that the Hi level signal is input to the output permission determination bit 62d. Although it is configured to output by transmission-type communication, other configurations may be adopted instead of this configuration. For example, the ball entry detection IC 62c transmits the ball entry information via the inspection terminal 65 only during a period when it is determined that a signal having a predetermined pattern is input to the output permission determination bit 62d. It is good also as a structure output by this communication. In addition, for example, when the entrance detection IC 62c determines that a signal of a predetermined pattern is input to the output permission determination bit 62d, the entrance information is output via the inspection terminal 65 by serial transmission communication. It is good also as composition to do. Further, for example, when a predetermined switch is provided on the inspection terminal 65 and it is determined that a cable terminal having a predetermined shape is connected to the inspection terminal 65 and the predetermined switch is pressed, The incoming ball detection IC 62c may be configured to output the incoming ball information through serial transmission communication via the inspection terminal 65.

<Aspect 53>
In the above aspects 50 to 52, the inspection machine 320 may be configured to shift to the entrance information reception mode after the entrance information setting is completed in the entrance information setting mode. According to such a configuration, since the type of each entrance is set at the time of transition to the entrance information reception mode, each entrance is displayed on the display unit 328 of the inspection machine 320 during the entrance information reception mode. And the number of balls entered can be displayed.

  As a result, the inspector can know which type of entrance the game ball has entered in the entrance information reception mode. In addition, the inspector has a match between the information displayed on the display unit 328 (type of each entrance and the number of entrances) and the number of game balls actually entered in each entrance as confirmed visually. By confirming whether or not it has been made, it is possible to confirm whether or not the entry information output from the entry detection IC 62c is authentic.

<Aspect 54>
In the above aspect 50 to aspect 53, the inspection machine 320 has the game history information stored in the flash memory 64x of the pachinko machine 10 triggered by the connection cable 329 being connected to the inspection terminal 65 of the pachinko machine 10. It is good also as a structure which transfers to the game history information reception mode which is a mode which receives this, and then transfers to the entrance information setting mode, entrance information reception mode, and game history information calculation mode mentioned above.

  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, the inspection machine 320 shifts to the game history information reception mode. When the inspection machine 320 shifts to the game history information reception mode, the inspection machine 320 transmits a signal requesting transmission of game history information (game 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) receives the game history information stored in the flash memory 64x of the pachinko machine 10 via the inspection terminal 65 and the connection cable 329. Send to. When the game history information received from the main CPU 62x is stored in the RAM 326, the inspection machine 320 ends the game history information reception mode and shifts to the entrance information setting mode.

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

  When the inspection machine 320 shifts to the entrance information reception mode, it receives entrance information corresponding to 8 entrances every predetermined period, and counts (counts) the number of game balls entering each entrance. ) And remember. Then, the inspection machine 320 causes the display unit 328 to display information indicating the number of game balls that have been entered (counted) into each entrance. That is, every time a player or an inspector executes a game and a game ball enters each entrance, information indicating the number of entrances corresponding to each entrance displayed on the display unit 328 is 1. Is added. As a result, the display unit 328 of the inspection machine 320 displays the number of game balls that have entered the entrances after shifting to the entrance information reception mode.

  When the inspector operates the operation unit 327 of the inspection machine 320 to end the entry information reception mode after a sufficient inspection period (for example, about 10 hours), the inspection machine 320 calculates the game history information. Enter mode.

  When the inspection machine 320 shifts to the game history information calculation mode, the number of game balls entered for each entrance measured in the entrance information reception mode and the type set in the entrance information setting mode Based on the information and the prize ball number information, the various game history information described above is calculated. For example, the inspecting machine 320 calculates the above-mentioned ball-out rate (total), the bonus rate, and the continuous bonus rate. When the calculation of the various game history information is completed, the inspection machine 320 stores the various game history information calculated in the game history information calculation mode and the various game history information received in the game history information reception mode (stored in the flash memory 64x). The displayed game history information) is displayed on the display unit 328. In other words, the display unit 328 of the inspection machine 320 has a game history for an inspection period in which the connection cable 329 of the inspection machine 320 is connected to the pachinko machine 10 and the entry information is received in the entry information reception mode. Information and game history information for the past predetermined period calculated by the main CPU 62x of the pachinko machine 10 and stored in the flash memory 64x are displayed.

  As described 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. Can be displayed. Further, the inspection machine 320 can execute a process based on the incoming ball information received during the inspection period. Specifically, the inspection machine 320 calculates game history information based on the received ball information received during a predetermined inspection period connected to the inspection terminal 65 of the pachinko machine 10, and the game history information (hereinafter referred to as the game history information). , Also referred to as second game history information). Therefore, for example, the inspector who inspects the pachinko machine 10 is based on the first game history information stored in the flash memory 64x included in the pachinko machine 10 and the entrance information received by the inspector 320 during a predetermined inspection period. It is possible to compare the second game history information.

  Here, if there is a change in the game characteristics of the pachinko machine 10 due to a problem with the pachinko machine 10 or unauthorized modification (for example, modification of a nail, etc.) The first game history information (game history information calculated by the main CPU 62x based on the entry information in the past predetermined period) stored in the flash memory 64x provided in the pachinko machine 10, and the inspection machine 320 performs a predetermined inspection. There may be a difference between the second game history information calculated based on the entry information in the period. Accordingly, an inspector who inspects the pachinko machine 10 checks whether there is a problem or an illegal modification (for example, a modification of a nail) in the pachinko machine 10 by paying attention to the difference between the two game history information. can do.

  The inspection machine 320 may be configured to receive the game history information by shifting to the game history information reception mode after receiving and setting the entrance information in the above-described entrance information setting mode. Further, after calculating the game history information in the inspection period in the above-described game history information calculation mode, the inspection machine 320 shifts to the game history information reception mode and receives the game history information stored in the flash memory 64x. It is good also as a structure.

<Aspect 55>
In the above aspects 50 to 54, the number of entrances provided in the pachinko machine 10 is not limited to eight, but may be nine or more, or may be seven or less. Then, the entrance detection IC 62c may be configured to output entrance information corresponding to the number of entrances. For example, when the number of entrances provided in the pachinko machine 10 is 7 or less, the entrance detection IC 62c outputs entrance information using the first half of the 8 bits output by the serial transmission method. It is good also as composition to do. Further, for example, when the number of entrances provided in the pachinko machine 10 is 9 or more, the entrance detection IC 62c executes 9-bit or more input by executing 8-bit output by the serial transmission method a plurality of times. It is good also as a structure which outputs the entrance information corresponding to a ball opening. Further, the entrance detection IC 62c may be configured to output entrance information such as 16 bits or 32 bits at a time by a serial transmission method.

<Aspect 56>
In the above aspect 23, the main CPU 62x executes the game history process as one process included in the timer interrupt process (FIG. 23: step S10616). However, instead of this configuration, the CPU 62x performs the game history process. It is good also as a structure which does not perform in a timer interruption process but performs in the remaining time of the main process mentioned above. This will be specifically described below.

  FIG. 34 is a flowchart illustrating an example of a main process executed by the main CPU 62x in the aspect 56. In step S11001, an initial setting process is executed. Specifically, initial setting of each control device when power is turned on, determination of the validity of data stored and held in the RAM 64, and the like are executed. After executing step S11001, the process proceeds to step S11002, and interrupt permission is set in order to permit generation of timer interrupt processing (FIG. 13).

  After executing Step S11002, the process proceeds to the remaining process of Steps S11003 to S11007. That is, the main CPU 62x is configured to periodically execute the timer interrupt process as described above, but a remaining time is generated between one timer interrupt process and the next timer interrupt process. The remaining time varies depending on the processing completion time of each timer interrupt process. The irregular time (residual time) is used to repeatedly execute the processing of steps S11003 to S11007 (residual processing). .

  In step S11003, interrupt prohibition is set to prohibit the generation of timer interrupt processing. Thereafter, the process proceeds to step S11004 to execute a random number initial value update process for updating the random number initial value counter CINI, and the process proceeds to step S11005 to execute a change counter update process for updating the change type counter CS. In these update processes, the current numerical information is read from the corresponding counter of the main RAM 64, the process of adding 1 to the read numerical information is executed, and then the process of overwriting the reading source counter is executed. In this case, each counter value is cleared to “0” when it reaches the maximum value. Thereafter, the process proceeds 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 sequentially executed to complete calculation of game history information. Then, the main CPU 62x executes a part of a plurality of tasks in one execution of the game history process included in the remaining process. That is, the main CPU 62x completes the calculation of the game history information set as the calculation target by executing the game history processing a plurality of times. After executing step S11006, the process proceeds to step S11007, and an interrupt permission setting for switching from a state in which the generation of timer interrupt processing is prohibited to a state in which the timer interrupt processing is permitted is performed. After executing the process of step S11007, the process returns to step S11003, and the processes of step S11003 to step S11007 are repeated.

  As described above, according to this aspect, the remaining time including the game history process in 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) Since the process is repeatedly executed, it is possible to suppress the start of execution of the remaining process including the game history process even though the execution of one timer interrupt process has not ended. That is, it is possible to quickly calculate the game history information by repeatedly executing the remaining process including the game history process in a period when the timer interrupt process is not executed while giving priority to the execution of the timer interrupt process.

  In addition, if a configuration in which a game history process is included in a timer interrupt process and is executed without adopting the configuration of this aspect, from the start to the end of one execution of the timer interrupt process. For example, although a predetermined time (4 msec in this embodiment) has elapsed since the start of execution of one timer interrupt process, the timing of starting execution of the next timer interrupt process is reached. There is a possibility that the execution of the next timer interrupt process cannot be started until the execution of the one timer interrupt process is not completed yet. In this case, there is a possibility that a failure occurs in the progress of the game because the start of execution of the next timer interrupt process is delayed.

  On the other hand, according to this aspect, since the game history process is included in the remaining process and executed, the timer interrupt process is performed once compared with the configuration in which the game history process is included in the timer interrupt process and executed. The time required from the start to the end of execution can be shortened. As a result, for example, even though a predetermined time (4 msec in this embodiment) has elapsed since the start of execution of one timer interrupt process, the timer interrupt process is still started despite the timing of starting the next timer interrupt process. It is possible to suppress the occurrence of a situation in which the execution of a process has not ended, and 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 one timer interrupt process is completed. can do. As described above, according to this aspect, for the game history during the period when the timer interrupt process is not executed while suppressing the occurrence of a problem in the progress of the game due to the delay of the start of the next timer interrupt process. It is possible to calculate the game history information efficiently and promptly by repeatedly executing the remaining process including the process.

  Furthermore, according to this aspect, the game history process includes a plurality of tasks (task 1 and task 2 in step S10814 in FIG. 29) that are sequentially executed to complete calculation of the game history information. Since the CPU 62x executes a part of a plurality of tasks in one execution of the game history process, for example, the CPU 62x is configured to execute all of the plurality of tasks in one execution of the game history process. As compared with, the time required from the start to the end of one execution of the game history process can be shortened. Specifically, for example, even if the condition for starting execution of the timer interrupt process is satisfied during the execution of the game history process, the currently executed game history process is completed in a short time. It is possible to shorten the time until the execution of the timer interrupt process is started. As a result, it is possible to quickly calculate the game history information by repeatedly executing the remaining process while suppressing the occurrence of a problem due to the delay in starting the execution of the timer interrupt process.

  Furthermore, according to this aspect, the length of the remaining time changes according to the time length required from the start to the end of the timer interrupt process. Specifically, for example, if the length of one timer interrupt process is increased, the remaining time from the end of the one timer interrupt process to the start of the next timer interrupt process is shortened, while one timer interrupt process is As the processing length decreases, the remaining time from the end of the one timer interrupt processing to the start of the next timer interrupt processing increases. When the remaining time is short, the number of executions of the game history process can be reduced. On the other hand, when the remaining time is long, the number of executions of the game history process can be increased. That is, the number of executions of the game history process can be changed according to the length of the remaining time.

<Aspect 57>
In the first embodiment and each of the aspects described above, the main control device 60 of the pachinko machine 10 may have a plurality of settings with different probabilities of winning a jackpot in the winning lottery. Specifically, for example, even in the same low probability mode, a configuration having six stages of lottery settings (“lottery setting 1” to “lottery setting 6”) having different probabilities of winning a big win in the winning lottery may be adopted. . This will be specifically described below.

  The main control device 60 of the pachinko machine 10 according to this aspect includes six types of low-probability mode success / failure tables corresponding to each of six lottery settings from “lottery setting 1” to “lottery setting 6”. . Then, main controller 60 executes a winning lottery with reference to a success / failure table corresponding to the set lottery setting. For example, if the pachinko machine 10 is set to the lottery setting 1 and the lottery mode is the low probability mode, the main controller 60 refers to the low probability mode success / failure table of the lottery setting 1. Win a winning lottery.

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

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

  In this aspect, regardless of which of the six lottery settings is set, in the high probability mode, the winning lottery is executed with reference to the same success / failure table. That is, in the high probability mode, regardless of the lottery setting, the probability of winning a big hit in the winning lottery is the same. However, as another aspect, even in the high probability mode, the larger the number following “lottery setting”, the higher the probability of winning a big win in the winning lottery.

  In this aspect, the six-stage lottery setting change can be executed when the pachinko machine 10 is turned on. This will be specifically described below.

  In this aspect, the main control board 61 located on the back side of the pachinko machine 10 is provided with a setting change keyhole and a setting change button. When the administrator who manages the pachinko machine 10 changes the lottery setting of the pachinko machine 10, first, the setting change key is inserted into the keyhole with the power of the pachinko machine 10 turned off. Then, when the power of the pachinko machine 10 is turned on in a state where the inserted key is turned to the setting change side (for example, a state where the key is turned clockwise), the pachinko machine 10 is activated as a setting change mode.

  When the pachinko machine 10 is activated as the setting change mode, information indicating the current lottery setting (hereinafter also referred to as setting information) is displayed on the game history information display unit 45z described above. For example, when the current lottery setting of the pachinko machine 10 is “lottery setting 1”, “1” is displayed on the game history information display unit 45z. Each time the administrator presses the setting change button, the setting information displayed on the game history information display unit 45z is “1” → “2” → “3” → “4” → “5” → “6” ”→“ 1 ”→“ 2 ”...

  When the administrator turns the setting change key from the setting change side to the original position in a state where the setting information displayed on the game history information display unit 45z is a value desired by the administrator, the game history information display unit The lottery setting corresponding to the setting information displayed at 45z is changed. Specifically, for example, in a state where the administrator presses the setting change button and “6” is displayed in the game history information display section 45z, the setting change key is turned from the setting change side to the original position. Then, the lottery setting of the pachinko machine 10 is changed to “lottery setting 6”.

  Thus, according to this 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 same pachinko machine 10 is used, 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. The value of the bonus rate or the continuous bonus rate will converge to a value corresponding to the changed new lottery setting. That is, by changing the lottery setting in the pachinko machine 10, game history information such as the accessory ratio and the continuous accessory ratio of the pachinko machine 10 is changed. 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 each aspect described below, the information on the entrance to each entrance, the information on the number of entrances, the total number of prize balls, and the like, which are information that is the basis for calculating the above-described game history information, are “game history basic information”. Also called.

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

  The reason for this configuration will be described. If the lottery setting in the pachinko machine 10 (setting of the probability of winning a jackpot in the winning lottery) is changed, the probability that the variable winning device 36 as a special electric accessory will be operated is changed. As described above, the values of the above-mentioned bonuses ratio and the continuous bonuses ratio converge to values corresponding to the changed new lottery settings. That is, before and after the change of the lottery setting, the value that should be converged for the ratio of the bonuses and the ratio of the consecutive bonuses changes.

  Even if the lottery setting is changed, the game history basic information acquired after the lottery setting is changed is stored without deleting the game history basic information stored before the change of the lottery setting. If the configuration is adopted, when the game history information is calculated, the influence of the game history basic information stored before the change of the lottery setting is included, and the pachinko machine 10 original after the change of the lottery setting is included. It may take time until the characteristics of the game are reflected in the game history information.

  Therefore, in this aspect, when the lottery setting is changed, the game history basic information stored before the change of the lottery setting is deleted, and the game history basic information acquired and stored after the change of the lottery setting is stored. Based on the above, game history information is calculated and displayed.

  According to this aspect, the game history information such as the combination ratio and the continuous combination ratio quickly converges to the value corresponding to the changed lottery setting, and the inspector of the pachinko machine 10 It becomes possible to confirm the game history information corresponding to the lottery setting currently set at an early stage.

<Aspect 59>
In the above aspect 57 (configuration in which the lottery setting of the winning lottery can be changed), even after the lottery setting of the pachinko machine 10 is changed, the game history basic information stored in the various memories before the change of the lottery setting is changed. The game history basic information acquired after the lottery setting has been changed without being erased is added to and stored in various memories, and the game history basic information stored in the various memories is stored regardless of whether the lottery setting has been changed. Based on this, the game history information may be calculated and displayed.

  According to this aspect, it is possible to calculate and display game history information including the influence of the change in the lottery setting of the pachinko machine 10. Accordingly, the inspector of the pachinko machine 10 has the game history information as a total including the influence of the change of the lottery setting within the appropriate range as a result of the change of the lottery setting of the pachinko machine 10 being operated in the game hall. Can be confirmed.

<Aspect 60>
In the above aspect 57 (configuration in which the lottery setting of the winning lottery can be changed), when the lottery setting of the pachinko machine 10 is changed, the game history basic information stored before the change of the lottery setting is erased, The game history basic information acquired after the change of the current lottery setting may be stored, and the game history information may be calculated and displayed based on the stored game history basic information.

  In such a configuration, when 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 is changed is accumulated to a predetermined amount. May be configured to record information indicating that the lottery setting has 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 winning balls in the total number of winning balls as the game history basic information acquired and stored after the lottery setting of the pachinko machine 10 is changed reaches 1000, the pachinko machine again. When ten lottery settings are changed, short-term change information indicating that the lottery setting has been changed in a short time is recorded, and the short-term change information is displayed on the game history information display unit 45z. . Further, for example, an LED lamp for displaying short-term change information may be provided on the game history information display unit 45z, and when the short-term change information is recorded, the LED lamp may emit light.

  According to this aspect, the inspector of the pachinko machine 10 confirms whether or not the lottery setting has been changed in the short-term in the pachinko machine 10 by confirming whether or not the short-term change information is displayed. can do. As a result, it is possible to suppress a change in the lottery setting based on an unauthorized intention by the administrator of the pachinko machine 10.

  Specifically, for example, before the pachinko machine 10 is inspected by an inspector, the manager of the pachinko machine 10 is in a situation where games are not often executed in the gaming machine after the winning probability is changed. Regardless, there is a possibility that the lottery setting is changed again and the game history basic information and the game history information stored in the pachinko machine 10 are erased. However, according to this aspect, when the lottery setting is changed again in a short period in spite of the fact that the game is not often executed in the pachinko machine 10 after the lottery setting is changed, The short-term change information will be recorded and displayed. Therefore, by checking the short-term change information, the inspector recognizes that the lottery setting may have been changed in a short period of time due to an illegal intention such as deletion of the game history basic information and game history information. It becomes possible to do. As a result, it is possible to suppress a change in the lottery setting based on an unauthorized intention by the administrator of the pachinko machine 10.

  In addition, when the lottery setting of the pachinko machine 10 is changed again before the predetermined time has elapsed since the lottery setting of the pachinko machine 10 is changed, the information indicating that the lottery setting has been 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 a game is not performed in the pachinko machine 10 between the change of the lottery setting of the pachinko machine 10 and the change, the predetermined time is changed between the change of the lottery setting. If it has passed, short-term change information is not displayed. Therefore, although it is a relatively long time between the change of the lottery setting of the pachinko machine 10, the game is not performed in the pachinko machine 10 between the change and the change. Regardless, it is possible to suppress the misperception by the inspector that the lottery setting may have been changed in a short period of time due to unauthorized intentions.

<Aspect 61>
In the above aspect 57 (configuration in which the lottery setting of the winning lottery can be changed), the game history basic information and the game history information in a plurality of latest periods with the change in the past lottery setting as a boundary can be stored and displayed. Good. And when the lottery setting of the pachinko machine 10 is changed, the game history basic information and the game history information in the oldest period among the plurality of the most recently stored periods are erased, and the lottery setting of this time It is good also as a structure which memorize | stores the game history basic information acquired after the change.

  In such a configuration, when 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 is changed is accumulated to a predetermined amount. May be configured to record information indicating that the lottery setting has 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 winning balls in the total number of winning balls as the game history basic information acquired and stored after the lottery setting of the pachinko machine 10 is changed reaches 1000, the pachinko machine again. When ten lottery settings are changed, short-term change information indicating that the lottery setting has been changed in a short time is recorded, and the short-term change information is displayed on the game history information display unit 45z. . Further, for example, an LED lamp for displaying short-term change information may be provided on the game history information display unit 45z, and when the short-term change information is recorded, the LED lamp may emit light.

  According to this aspect described above, the inspector of the pachinko machine 10 can check the game history information for each of the most recent periods with the change of the past lottery setting in the pachinko machine 10 as a boundary. . That is, the inspector can check whether or not there is a situation in which the game history information does not fall within an appropriate range in the process in which the lottery setting has been changed in the past in the pachinko machine 10.

  Further, according to this aspect, the inspector of the pachinko machine 10 confirms whether or not the short-term change information is displayed, thereby determining whether or not the lottery setting has been changed in the short-term in the pachinko machine 10. Can be confirmed. As a result, it is possible to suppress a change in the lottery setting based on an unauthorized intention by the administrator of the pachinko machine 10.

  Specifically, for example, before the pachinko machine 10 is inspected by the inspector, the manager of the pachinko machine 10 repeatedly changes the lottery setting in a short period of time, so that a plurality of latest pachinko machine 10 There is a possibility that the game history basic information and the game history information in the period will be deleted. However, according to this aspect, when the lottery setting is repeatedly changed in a short period, the above-described short-term change information is recorded and displayed. Therefore, the inspector can recognize that there is a possibility that the lottery setting has been changed in a short time due to an unjust intention by checking the short-term change information. As a result, it is possible to suppress a change in the lottery setting based on an unauthorized intention by the administrator of the pachinko machine 10.

  In addition, when the lottery setting of the pachinko machine 10 is changed again before the predetermined time has elapsed since the lottery setting of the pachinko machine 10 is changed, the information indicating that the lottery setting has been 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 a game is not performed in the pachinko machine 10 between the change of the lottery setting of the pachinko machine 10 and the change, the predetermined time is changed between the change of the lottery setting. If it has passed, short-term change information is not displayed. Therefore, although it is a relatively long time between the change of the lottery setting of the pachinko machine 10, the game is not performed in the pachinko machine 10 between the change and the change. Regardless, it is possible to suppress the misperception by the inspector that the lottery setting may have been changed in a short period of time due to unauthorized intentions.

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

  Furthermore, until the game history basic information acquired and stored after the lottery setting is changed is accumulated as a sufficient amount of statistical data, the game history basic stored before the lottery setting is changed is stored. The game history information calculated based on the information is flashed and displayed on the game history information display unit 45z, and the game history basic information acquired and stored after the lottery setting is changed is accumulated as a sufficient amount of 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 lit and displayed on the game history information display unit 45z. Also good.

  Specifically, for example, before the lottery setting is changed until the total number of prize balls reaches 60000 in the total value of prize balls as the game history basic information acquired and stored after the lottery setting is changed. The game history basic information stored in is stored without being erased. Then, until the total number of winning balls reached 60000 in the total value of winning balls as game history basic information acquired and stored after the lottery setting was changed, it was stored before the lottery setting was changed. The game history information calculated based on the game history basic information is configured to blink on the game history information display unit 45z. The game stored before the lottery setting is changed after the total number of winning balls reaches 60000 in the total value of prize balls as the game history basic information acquired and stored after the lottery setting is changed. The history basic information is erased, 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 lit on the game history information display unit 45z. It is set as the structure made to do.

  According to this aspect, it is possible to prevent the game history basic information stored before the change of the lottery setting is intentionally erased by changing the lottery setting of the pachinko machine 10. For example, if the game history basic information acquired and stored before the change of the lottery setting is deleted immediately after the change of the lottery setting of the pachinko machine 10 is adopted, the pachinko machine 10 Before being inspected by the inspector, the administrator of the pachinko machine 10 changes the lottery setting, and erases the game history basic information and the game history information stored before the change of the lottery setting. There is a possibility. On the other hand, according to this aspect, the game history basic information stored before the change of the lottery setting is sufficient as the statistical data of the game history acquired and stored after the lottery setting is changed. Since it is not erased until a predetermined amount is accumulated, it is possible to suppress a change in the lottery setting due to an unauthorized intention by the administrator of the pachinko machine.

  Further, the inspector of the pachinko machine 10 is acquired after the lottery setting is changed by checking whether the game history information displayed on the game history information display unit 45z is blinking display or lighting display. Thus, it is possible to easily grasp whether or not the game history basic information stored in this way is accumulated up to a predetermined amount sufficient as statistical data.

  In addition to the total number of winning balls, various criteria may be adopted as conditions for erasing the game history basic information stored before the lottery setting is changed and switching from blinking display to lighting display. it can. For example, the total value of the number of game balls that have passed through the discharge passage (the number of game balls fired on the game board 30) may be used as a reference.

<Aspect 63>
In the above aspect 57 (configuration in which the lottery setting of the winning lottery can be changed), the game history basic information and the game history information in a plurality of latest periods with the change in the past lottery setting as a boundary can be stored and displayed. Good. And when the lottery setting of the pachinko machine 10 is changed, the game history basic information acquired and stored after the lottery setting of the pachinko machine 10 is changed is accumulated up to a sufficient predetermined amount as statistical data. Until, the game history basic information and the game history information in the oldest period among the plurality of the most recent periods that have already been stored are not deleted, and are acquired and stored after the lottery setting of the pachinko machine 10 is changed. After the game history basic information is accumulated up to a predetermined amount sufficient as statistical data, the game history basic information and the game history information in the oldest period among the most recent multiple periods that have already been stored may be deleted. Good.

  Specifically, for example, when the lottery setting of the pachinko machine 10 is changed, the total of the prize ball total values as the game history basic information acquired and stored after the lottery setting 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 in the oldest period among the most recently stored periods are not deleted, and the lottery setting of the pachinko machine 10 is changed. The game history in the oldest period among the most recent periods already stored after the total number of prize balls in the total value of prize balls as the game history basic information acquired and stored after reaching 60000 The basic information and the game history information may be deleted.

  According to this aspect, the inspector of the pachinko machine 10 can check the game history information for each of a plurality of latest periods with the change of the past lottery setting in the pachinko machine 10 as a boundary. That is, the inspector can check whether or not there is a situation in which the game history information does not fall within an appropriate range in the process in which the lottery setting has been 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 a plurality of most recent periods with the change of the past lottery setting as a boundary are intentionally obtained by repeatedly changing the lottery setting of the pachinko machine 10. Can be prevented from being erased.

  For example, if the game history basic information and the game history information in the oldest period among a plurality of the most recent periods with a change in the past lottery setting as a boundary immediately after the lottery setting of the pachinko machine 10 is changed, If the configuration to be erased is adopted, before the pachinko machine 10 is inspected by the inspector, the administrator of the pachinko machine 10 repeatedly changes the lottery setting so that the pachinko machine 10 is in a plurality of the most recent periods. There is a possibility that the game history basic information and the game history information will be deleted.

  On the other hand, according to this aspect, the game history basic information and the game history information in the oldest period among a plurality of the most recent periods with the change of the past lottery setting as a boundary are changed after the lottery setting is changed. Since the acquired game history basic information is not erased until a sufficient predetermined amount is accumulated as statistical data, it is possible to suppress a change in the lottery setting due to an unauthorized intention by the administrator of the pachinko machine 10. .

<Aspect 64>
In the above aspect 57 (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 be configured to calculate and display.

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

  Further, as another specific configuration, a storage area corresponding to each lottery setting is provided in various memories, and when the acquired game history basic information is stored, the memory area corresponding to the currently set lottery setting is stored. It is good also as a structure to memorize | store. For example, when the pachinko machine 10 is set to the lottery setting 1, the acquired game history basic information is stored in the storage area corresponding to the lottery setting 1, and the pachinko machine 10 is set to the lottery setting 2. Is stored in the storage area corresponding to the lottery setting 2. When calculating / displaying the game history information, the game history information for each lottery setting may be calculated / displayed based on the game history basic information stored in each storage area.

  According to such a configuration, for example, the inspector of the pachinko machine 10 can play game history information calculated based on the game history basic information acquired in a state where 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 the game history basic information acquired when the pachinko machine 10 is set to the lottery setting 2 Information can be confirmed. Then, the inspector confirms whether the game history information calculated for each lottery setting of the pachinko machine 10 is within an appropriate range, so that the game history information is appropriate in the pachinko machine 10. It is possible to confirm whether or not there is a lottery setting that does not fall within the range.

<Aspect 65>
In the aspect 57, the lottery setting of the pachinko machine 10 is displayed on the game history information display unit 45z, but a lottery setting display unit for displaying the lottery setting of the pachinko machine 10 is provided separately from the game history information display unit 45z. It is good also as a structure provided in the back side of the said pachinko machine 10.

<Aspect 66>
In each of the above embodiments, the calculated game history information itself is displayed on the game history information display unit 45z. However, the game history information itself is not displayed, and the game history information is within a predetermined range. It may be configured to display information indicating whether or not the game is stored on the game history information display unit 45z or other display unit. For example, it is good also as a structure which displays with the color of the LED lamp which light-emits whether the accessory ratio as game history information and the continuous accessory ratio are each settled in the predetermined range.

<Aspect 67>
In each of the above embodiments, the game history information display unit 45z provided on the back surface 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. The game history information display unit 45z not only displays the game history information but also displays setting information instead of the game history information during the setting change mode for changing the lottery setting. Part 45z ".

  FIG. 35 is an explanatory diagram showing a configuration of the information display unit 45z in the aspect 67. The information display unit 45z is configured by arranging four 7-segment indicators 45z1 to 45z4 adjacent to one horizontal line. Each of the 7-segment indicators 45z1 to 45z4 includes seven segment light emitting units A to G and a DP light emitting unit indicating a decimal point. Depending on the combination of the light emission of these light emitting units, “1” , “2”, “3”, “4”, “5”, “6”, “7”, “8”, “9”, “0”, “b”, “L.”, “6.” It is possible to display various numerical values, characters, symbols, and the like. In this aspect, seven segment light emission parts AG and DP light emission part are comprised by red LED (light emitting diode).

  In the following, the 7-segment display 45z1 disposed at the left end is also referred to as the left-end 7-segment display 45z1, and the 7-segment display 45z2 disposed adjacent to the right side of the left-end 7-segment display 45z1 Also referred to as a display 45z2, the 7-segment display 45z3 disposed adjacent to the right side of the left middle 7-segment display 45z2 is also referred to as the right middle 7-segment display 45z3, and is adjacent to the right side of the right middle 7-segment display 45z3. The 7-segment display 45z4 arranged at the right end is also referred to as a right-end 7-segment display 45z4.

  As shown in FIG. 35, the left end 7-segment display 45z1 and the left middle 7-segment display 45z2 display information for identifying the type of game history information to be displayed when displaying the game history information. Is used as an area for displaying (type information display area). The middle 7 segment display 45z3 and the right end 7 segment display 45z4 are used as an area (numerical information display area) for displaying the numerical information of the game history information corresponding to the type displayed in the type information display area. The Hereinafter, a specific example in which game history information is displayed on the information display unit 45z will be described.

  FIG. 36 is an explanatory diagram showing a state in which game history information is displayed on the information display unit 45z. In FIG. 36, the segment light emitting units and DP light emitting units that are lit are shown in black, and the segment light emitting units and DP light emitting units that are not lit are not painted in black and are white. It is written in the unplugged state. The same applies to the drawings after FIG.

In the pachinko machine 10 of this aspect, the main controller 60 always displays the game history information on the information display unit 45z in a state other than during the setting change mode in which the lottery setting described above is changed. In the pachinko machine 10 according to the present aspect, the main control device 60 calculates the above-mentioned payout rate (during the normal mode) as the game history information, and the calculated exit rate (during the normal mode) is displayed on the information display unit 45z. To display. The definition of the launch rate (in normal mode) is as follows.
・ Ride rate (in normal mode)
= Total number of game balls paid out as prize balls in the normal mode / Number of game balls launched on the game board 30 in the normal mode (= Number of game balls passed through the discharge passage in the normal mode (normal Number of outs in mode))
Note that the normal mode means a mode that is not in the high probability mode, in the high frequency support mode, or in the opening / closing execution mode based on the big win, as described above. In the following description, the pitching rate (in normal mode) is also referred to as “base (in normal mode)”.

In the pachinko machine 10 according to this aspect, the main control device 60 divides a section every time the measured discharge passage passage number N _OUT reaches 60000, and calculates a base (in normal mode) for each section. And the information display part 45z displays alternately two types of bases (in normal mode) from which the area used as calculation object differs. Specifically, the information display unit 45z of this aspect displays the following two types of bases (in the normal mode).

"BL": Base under measurement (in normal mode)
The exit rate calculated in the current section until the number N _OUT of discharge passages currently measured reaches 60,000 (in normal mode)
"B6": Measured base (in normal mode)
The exit rate calculated in the section immediately before the section where the measured discharge passage passage number N _OUT has reached 60000 and is currently being measured (in normal mode)

  In the pachinko machine 10 according to this aspect, the information display unit 45z alternately switches between “measured base (in normal mode)” and “measured base (in normal mode)” every 5 seconds.

  When the information display unit 45z displays “base under measurement (in normal mode)”, “bL.” Is displayed in the type information display area, and “base under measurement (in normal mode) is displayed in the numerical information display area. ) ”Is displayed in two digits. Specifically, when “bL.” Is displayed in the type information display area, the segment light-emitting portions C, D, E, F, and G of the leftmost 7-segment display 45z1 are in a light-emitting state, and the left middle 7-segment The segment light emitting portions D, E, F and DP light emitting portions of the display 45z2 are in a state of emitting light. The right middle 7-segment display 45z3 and the right end 7-segment display 45z4 constituting the numerical information display area display numerical information of “base under measurement (in normal mode)”. In this mode, the integer part of the numerical value obtained by rounding off the calculated third base value of the “base under measurement (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 unit 45z displays information such as “bL.35”, and the value of “base under measurement (in normal mode)” obtained by rounding off the third decimal place value is It means “0.35”. In addition, when the value of “base under measurement (in normal mode)” obtained by rounding off the third decimal place value is “1.00” or more, the value multiplied by 100 becomes 100 or more. The information display unit 45z displays information such as “bL.99.”.

  When the information display unit 45z displays “measured base (in normal mode)”, “b6.” Is displayed in the type information display area, and “measured base (in normal mode) is displayed in the numerical information display area. ) ”Is displayed in two digits. Specifically, when “b6.” Is displayed in the type information display area, the segment light-emitting portions C, D, E, F, and G of the leftmost 7-segment display 45z1 are in a light-emitting state, and the left middle 7-segment The segment light emitting portions A, C, D, E, F, G, and DP light emitting portions of the display unit 45z2 are in a state of emitting light. Then, numerical information of “measured base (in normal mode)” is displayed on the right middle 7-segment display 45z3 and the right end 7-segment display 45z4 constituting the numerical information display area. In this aspect, the integer part of the numerical value obtained by rounding off the calculated third base value of the “measured base (in normal mode)” to 100 times is displayed in the numerical information display area. In the example shown in FIG. 36, the information display unit 45z displays information such as “b6.35”, and the value of “measured base (in normal mode)” obtained by rounding off the third decimal place value is It means “0.35”. In addition, when the value of “measured base (in normal mode)” rounded off to the third decimal place is “1.00” or more, the value multiplied by 100 becomes 100 or more. The information display unit 45z displays information such as “b6.99.”.

  In the pachinko machine 10 of this aspect, when the information display unit 45z displays the game history information, even if the numerical value to be displayed in the numerical information display area is a single digit value, the middle 7 “0” is displayed on the segment display 45z3 and a numerical value is displayed in two digits. For example, when the value of “base under measurement (in normal mode)” obtained by rounding off the third decimal place value is “0.07”, the value multiplied by 100 is 7, so in this case The information display unit 45z displays information such as “bL.07”.

Here, in the pachinko machine 10 of this aspect, when displaying the game history information, “bL.” And “b6.” Are alternately displayed in the type information display area of the information display unit 45z. No information other than the two types of information is displayed. Therefore, in the pachinko machine 10 of this aspect, when displaying the game history information, the following light emitting units are used in the left end 7-segment display 45z1 and the left middle 7-segment display 45z2 constituting the type information display area. Not fired (does not emit light).
[Light emission part of type information display area not used when displaying game history information]
-Segment light emission part A, B and DP light emission part of left end 7 segment display 45z1-Segment light emission part B of left middle 7 segment display 45z2

In other words, when displaying the game history information, only the following light emitting units are used among the left end 7 segment display 45z1 and the left middle 7 segment display 45z2 constituting the type information display area (light emission). ).
[Light emitting part of type information display area used when displaying game history information]
・ Segment light emission part C, D, E, F, G of left end 7 segment display 45z1
-Segment light emission part A, C, D, E, F, G, and DP light emission part of the left middle 7 segment display 45z2 For reference, FIG. 36 shows the type information display area used when displaying the game history information. The light emitting part is shown in a cross-hatched manner.

  Next, a display mode of the information display unit 45z in the setting change mode for changing the lottery setting described above will be described. In this mode, during the setting change mode, the information display unit 45z displays setting information that is information indicating the current lottery setting or information indicating the lottery setting after the change. This will be specifically described below.

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

  As described above, when the pachinko machine 10 is activated as the setting change mode, the information display unit 45z displays numerical information indicating the current lottery setting in the numerical information display area. When the administrator presses the setting change button, the information display unit 45z displays numerical information indicating the lottery setting after the change 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 unit 45z displays the game history information again in the numerical information display area.

  In this mode, during the setting change mode, “-(2 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. Either setting information is displayed. A display pattern such as “-(two hyphens)” displayed in the type information display area in the setting change mode is a display pattern that is not displayed when information related to the type of game history information is displayed.

  Specifically, during the setting change mode, the segment light emission part G of the leftmost 7-segment display 45z1 constituting the type information display area of the information display part 45z emits light, and the segment light emission part of the left middle 7-segment display 45z2 G emits light. That is, in the pachinko machine 10 according to this aspect, only the light emitting unit used when displaying the game history information is used during the setting change mode. In other words, the light emitting units that are not used when the game history information is displayed are not used even during the setting change mode.

  Further, in this aspect, of the right middle 7 segment display 45z3 and the right end 7 segment display 45z4 constituting the numerical information display area of the information display section 45z, the right middle 7 segment display 45z3 is not used, and the right end 7 segment Numerical information indicating the lottery setting is displayed using only the display 45z4. That is, the numerical information display area of the information display unit 45z can display numerical information of two digits, but “0” is displayed on the right middle 7-segment display 45z3 in the first digit in the setting change mode. The numerical information of any one of “1” to “6” indicating the lottery setting is displayed only on the rightmost 7-segment indicator 45z4 in the second digit.

  As described above, according to this aspect, the numerical information of the game history information is displayed in the numerical information display area of the information display unit 45z and the numerical information regarding the lottery setting is displayed. The display mode of the type information display area is clearly different. Therefore, for example, the administrator of the pachinko machine 10 clearly distinguishes whether the numerical information of the game history information is displayed in the numerical information display area of the information display unit 45z or whether the numerical information regarding the lottery setting is displayed. It can be recognized separately. As a result, the administrator of the pachinko machine 10 is prevented from misidentifying the numerical information displayed in the numerical information display area between the numerical information of the game history information and the numerical information related to the lottery setting. it can.

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

  In addition, for example, since a light emitting element (LED) serving as a non-use light emitting portion does not need to emit light, components necessary for causing the light emitting element to emit light can be omitted. Therefore, the cost of the information display part 45z can be reduced.

  Furthermore, according to this aspect, the number of digits of the displayed numerical value is displayed when the numerical information regarding the game history information is displayed in the numerical information display area and when the numerical information regarding the lottery setting is displayed. Since there is a difference, even if there is a problem in the display of the type information display area, whether the numerical information displayed in the numerical information display area is game history information or not to the administrator Can be clearly distinguished and recognized. That is, when a two-digit numerical value is displayed in the numerical information display area of the information display unit 45z, the administrator determines that the numerical value displayed in the numerical information display area is game history information, and the numerical value is displayed. When 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 the setting information.

<Aspect 68>
In the aspect 67, the information display unit 45z is configured to light and display “-(2 hyphens)” in the type information display area during the setting change mode. In the mode, “-(2 hyphens)” may be blinked in the type information display area.

  According to such a configuration, the type information display area is displayed when the numerical information of the game history information is displayed in the numerical information display area of the information display unit 45z and when the numerical information regarding the lottery setting is displayed. The display mode is more clearly different. Therefore, for example, the administrator of the pachinko machine 10 further clarifies whether the numerical information of the game history information is displayed in the numerical information display area of the information display unit 45z or whether the numerical information regarding the lottery setting is displayed. It can be recognized and distinguished. As a result, the administrator of the pachinko machine 10 is prevented from misidentifying the numerical information displayed in the numerical information display area between the numerical information of the game history information and the numerical information related to the lottery setting. it can.

  Furthermore, according to this aspect, in the setting change mode in which numerical information relating to the lottery setting is displayed in the numerical information display area, “-(two hyphens)” in the type information display area flashes. It is possible to alert the manager of the machine 10 that it is an important state to carefully change the lottery setting.

<Aspect 69>
In the aspect 67, the information display unit 45z is configured to light and display “-(2 hyphens)” in the type information display area during the setting change mode. During the mode, nothing may be displayed in the type information display area. This will be specifically described below.

  FIG. 39 and FIG. 40 are explanatory diagrams showing how the setting information is displayed on the information display unit 45z during the setting change mode. 39 and 40 show a state in which “1” to “6” are displayed as numerical information indicating the lottery setting in the numerical information display area of the information display unit 45z. As shown in FIG. 39, in this mode, in the setting change mode, all of the left end 7-segment display 45z1 and the left middle 7-segment display 45z2 constituting the type information display area of the information display section 45z are displayed. The segment light emitting unit and the DP light emitting unit are turned off. That is, as described above, during the setting change mode, the type information display area of the information display unit 45z is in a state where nothing is displayed.

  Thus, according to this aspect, the type information is displayed when the numerical information of the game history information is displayed in the numerical information display area of the information display unit 45z and when the numerical information regarding the lottery setting is displayed. The display mode of the display area is clearly different. Therefore, for example, the administrator of the pachinko machine 10 clearly distinguishes whether the numerical information of the game history information is displayed in the numerical information display area of the information display unit 45z or whether the numerical information regarding the lottery setting is displayed. It can be recognized separately. As a result, the administrator of the pachinko machine 10 is prevented from misidentifying the numerical information displayed in the numerical information display area between the numerical information of the game history information and the numerical information related to the lottery setting. it can.

  Furthermore, according to this aspect, even if a problem has occurred in which some of the light emitting units (segment light emitting units A to G, etc.) constituting the type information display area do not emit light, all the light emitting units do not emit light. As long as such a serious problem does not occur, the display mode of the type information display area differs between when the game history information is displayed and when the lottery setting setting information is displayed. Therefore, according to this aspect, even if there is a problem that some light emitting units (LEDs) constituting the type information display area do not emit light to the administrator, all the light emitting units do not emit light. As long as no serious trouble has occurred, it is possible to recognize whether the numerical information displayed in the numerical information display area is game history information or lottery setting information. That is, the administrator determines that the numerical value displayed in the numerical information display area is game history information when at least some of the light emitting units emit light in the type information display area, and sets the type information display area. It can be determined that the numerical value displayed in the numerical value information display area is the setting information for the lottery setting only when all the light emitting units that are configured are turned off.

<Aspect 70>
In the aspect 67, the information display unit 45z is configured to light and display “-(2 hyphens)” 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 a short period (for example, every 0.5 seconds) in the type information display area. This will be specifically described below.

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

-Display pattern A in the type information display area:
The display pattern B of the display pattern / type information display area in which the segment light-emitting portions C, D, E, and G of the leftmost 7-segment display 45z1 are turned on (light-emitting) and all the light-emitting portions of the left middle 7-segment display 45z2 are turned off. :
Display pattern in which all the light emitting sections of the leftmost 7-segment display 45z1 are turned off and the segment light emitting sections C, D, E, and G of the left middle 7-segment display 45z2 are turned on (light emission)

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

  Thus, according to this aspect, the type information is displayed when the numerical information of the game history information is displayed in the numerical information display area of the information display unit 45z and when the numerical information regarding the lottery setting is displayed. The display mode of the display area is clearly different. Therefore, for example, the administrator of the pachinko machine 10 clearly distinguishes whether the numerical information of the game history information is displayed in the numerical information display area of the information display unit 45z or whether the numerical information regarding the lottery setting is displayed. It can be recognized separately. As a result, the administrator of the pachinko machine 10 is prevented from misidentifying the numerical information displayed in the numerical information display area between the numerical information of the game history information and the numerical information related to the lottery setting. it can.

  Furthermore, according to this aspect, the display pattern in the type information display area dynamically changes during the setting change mode in which numerical information relating to the lottery setting is displayed in the numerical information display area. The administrator can be alerted that the lottery setting must be carefully changed.

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

  Moreover, since the light emitting element (LED) used as a non-use light emission part does not need to light-emit, the component required in order to light-emit the said light emitting element can be abbreviate | omitted. Therefore, the cost of the information display part 45z can be reduced.

  In this aspect, in the setting change mode, two types of display patterns are alternately displayed in the type information display area of the information display unit 45z, but three or more types of display patterns are sequentially switched. The display may be repeatedly displayed.

<Aspect 71>
In each of the above aspects, when the “number of game balls that have passed through the discharge passage during the normal mode (out number during the normal mode)” being measured is less than 6000, for example, “bL.” In the type information display area May be displayed in a blinking manner, and in the case of 6000 or more, it may be lit up. According to such a configuration, the person who confirms the blinking display of “bL.” In the type information display area indicates that “the number of game balls that have passed through the discharge passage during the normal mode (the number of outs in the normal mode). ) ”Is less than 6000, and 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 is not accumulated. Can be recognized.

  In addition, “bL.” In the type information display area is turned on, and “the number of game balls that have passed through the discharge passage during the normal mode (the number of outs in the normal mode)” during measurement is less than 6000, for example. In this case, a numerical value in the numerical information display area may be displayed in a blinking manner. According to such a configuration, the person who confirmed the blinking display of the numerical value in the numerical information display area has the “number of game balls that passed through the discharge passage during the normal mode (the number of outs in the normal mode)” being measured. Recognize that the numerical value displayed in the numerical information display area is less than 6000 and is a “base under measurement (in normal mode)” calculated in a state where a sufficient amount of statistical data is not accumulated. be able to.

  Further, when the “number of game balls passing through the discharge passage during the normal mode (the number of outs during the normal mode)” being measured is less than 6000, for example, “bL.” In the type information display area and numerical information A numerical value in the display area may be displayed blinking, and in the case of 6000 or more, it may be lit up. According to such a configuration, the person who confirms the blinking display of “bL.” In the type information display area and the numerical value in the numerical information display area indicates that “the number of game balls that have passed through the discharge passage during the normal mode” (The number of outs in the normal mode) is less than 6000, and the numerical value displayed in the numerical information display area is the “base under measurement (in a state where a sufficient amount of statistical data is not accumulated” In the normal mode).

  Note that various game history basic information can be adopted as a reference for determining whether the display is blinking or lighting. For example, the “number of game balls that have passed through the discharge passage (total number of outs)” being measured may be employed.

<Aspect 72>
In each of the above aspects, when the numerical information indicating the lottery setting is displayed in the numerical information display area in the setting change mode, all the light emitting units constituting the right middle 7-segment display 45z3 are turned off and used. Instead, the numerical information indicating the lottery setting is displayed in one digit using only the rightmost 7-segment display 45z4. Instead of this configuration, the right middle 7-segment display 45z3 is also used to display two digits. It is good also as a structure which displays the numerical information which shows lottery setting. For example, when the numerical information indicating the lottery setting has only one digit, “0” may be displayed on the middle 7 segment display 45z3.

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

<Aspect 74>
FIG. 42 is a block diagram illustrating an electrical configuration of the pachinko machine 10 according to the aspect 74 of the first embodiment. In this aspect 74, the game history management chip 300 is not provided, and the main CPU 62x calculates the above-described game history information. Below, the detail of the various structures with which the main-control apparatus 60 is provided is demonstrated, about another structure, the code | symbol same as 1st Embodiment and each aspect mentioned above is attached | subjected, and the detailed description is abbreviate | omitted.

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

  The main CPU 62x is configured to include a register set 62x1, and executes various processes by combining and executing a plurality of types of programs stored in the program storage means 63a of the main ROM 63. Each program is configured by combining a plurality of previously reserved instructions such as an operation instruction, a transfer instruction, a rotate instruction, a shift instruction, a jump instruction, a call instruction, and a return instruction. Multiple instructions are executed 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). The A register and the general-purpose register are formed with a size of 1 byte (8 bits), and the stack pointer (SP) is formed with a size of 2 bytes (16 bits). The register set 62x1 may include other registers, and may further include, for example, registers such as an index register, an interrupt register, a refresh register, and a program counter.

  The A register stores data (value) that is an operation target of an operation instruction and an operation result.

  The state of the F register automatically changes according to the operation result of the operation instruction and 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, data (values) are temporarily stored, counters are configured, and memory addresses are specified. Used to do.

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

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

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

  The first program 63p1 includes a game progress program, a storage program, and a change program. Then, the main CPU 62x executes a game progress process for controlling the progress of the game by executing the game progress program, executes the storage process by executing the storage program, and executes the change program by executing the change program. To implement. Details of the game progress process, the storage process, and the change process will be described later.

  The second program 63p2 includes a game history information calculation display program, a save program, and a return program. Then, the main CPU 62x performs the game history information calculation display process for calculating and displaying the game history information described above by executing the game history information calculation display program, and executes the save process by executing the save program. The restoration process is executed by executing the restoration program. Details of the game history information calculation 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 the first program data area 63b1 for storing various data necessary for executing the first program 63p1, and the second program 63p2 And a second program data area 63b2 for storing various data necessary for executing. The first program data area 63b1 stores, for example, data such as a success / failure table and a distribution table used in the above-described winning lottery process, and the second program data area 63b2 includes, for example, a game history information calculation display process. Stores various fixed value data to be used.

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

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

  The data storage means 64a corresponds to the first data storage area 64a1 corresponding to the first program 63p1 capable of updating data and the second program 63p2 which is an area different from the first data storage area 64a1 and capable of updating data. The 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) updated in the game progress process, and the second data storage area 64a2 stores, for example, a game history Various data updated in the information calculation display process is stored.

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

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

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

  FIG. 46 is a flowchart illustrating timer interrupt processing executed by the main CPU 62x according to the aspect 74 of the first embodiment. Also in this aspect, the timer interrupt process is executed at a cycle of 4 msec, as in the first embodiment.

  Each process described on the left side of the page of FIG. 46 is a process executed by the main CPU 62x executing the first program 63p1 stored in the first program control area 63a1. Each process described on the right side of the page is a process that is executed by executing the second program 63p2 stored in the second program control area 63a2 by the main CPU 62x.

  In step S11101, the main CPU 62x executes the game progress program included in the first program 63p1, thereby executing a game progress process that is a process for progressing the game. Specifically, in the game progress process, the process group shown in steps S10601 to S10615 of FIG. After performing the process of step S11101, the process proceeds to step S11102.

  In step S11102, the main CPU 62x executes the storage process by executing the storage program included in the first program 63p1. In the storage process, the first stack in which the values of the A register and the F register among the plurality of registers can be accessed by the first stack area reference address SP1 stored in the stack pointer (SP) by a push instruction (PUSH). Store in area 64b1. At this time, the values of the A register and the F register are stored in the first stack area 64b1 by one push instruction (PUSH AF) using the special code AF that designates the A register and the F register as a transfer target.

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

  In the save process 1 shown in step S11103, the first stack area reference address SP1 stored in the stack pointer (SP) is changed to the address W21 of the second data storage area 64a2 by the load instruction (LD (W21), SP). Store in the area specified by. At this time, the value of the F flag may change due to the change of the state of the TZ flag of the F register by the load instruction. After performing the save process 1 in step S11103, the process proceeds 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). At this time, the second stack area reference address SP2 stored in the stack pointer (SP) is a fixed value stored in advance in the second program data area 63b2 of the main 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. Is an address value indicating. After performing the save process 2 in step S11104, the process proceeds to step S11105.

  In the save process 3 shown in step S11105, the values of the A register, the F register, and the general-purpose register are designated by the address W22 of the second data storage area 64a2 by a plurality of load instructions (LD (W22), registers). To remember. A configuration in which the values of the A register, F register, and general register are stored in the second data storage area 64a2 by a single load instruction using a special code that designates the A register, F register, and general register as transfer targets. It is good. After performing the process of step S11105, the process proceeds to step S11106.

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

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

  In the return process 1 shown in step S11107, the values of the A register, the F register, and the general-purpose register are stored in the second data storage area by the save process 3 (step S11105) by a plurality of load instructions (LD register, (W22)). The value stored in the area specified by the address W22 of 64a2 is set. It should be noted that a configuration in which the values of the A register, the F register, and the general-purpose register are set to the values stored in the second data storage area 64a2 by the save process 3 (step S11105) by one load instruction using a special code. Good. In the return process 1, when the value of the F register is changed in the save process 1 (step S11103), a value different from that immediately after the game progress process is finished is stored in the F register. After performing the process of step S11107, the process proceeds to step S11108.

  In the return process 2 shown in step S11108, the first stack area stored in the area specified by the address W21 of the second data storage area 64a2 by the save process 1 (step S11103) by the load instruction (LDSP, (W21)). 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 of step S11108, the process proceeds to step S11109.

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

  As described above, according to this aspect, the evacuation process 3 (step S11105 in FIG. 46) and the return process 1 (step S11107 in FIG. 46) are performed, so that the second program 63p2 returns to the first program 63p1. At this time, it is possible to avoid the occurrence of a problem due to the change in the value of the register 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 performed (for example, when a load instruction is executed in the save process 1 (step S11103 in FIG. 46)). Before executing the save process 1, after storing the values of the A register and the F register in the storage process (step S11102 in FIG. 46) by the storage program included in the first program 63p1, and after completing the process by the second program 63p2 In the change process (step S11109 in FIG. 46) by the change program included in the first program 63p1, the values of the A register and the F register are changed to the values stored in the storage process. Therefore, for example, even if the state of the F register changes in the save process 1, the state of the F register returns to the same state as that immediately after the end of the game progress process by the first program 63p1 (step S11101 in FIG. 46). 2 There is no possibility of affecting the processing to be performed after returning from the processing by the program 63p2. As a result, a plurality of programs can be configured independently.

  In addition, according to this aspect, a game for controlling the progress of a game can be achieved simply by adding a game history information calculation / display program for executing the game history information calculation / display process (step S11106 in FIG. 46) to the second program 63p2. The game history information calculation display process can be added without affecting the progress process (step S11101 in FIG. 46). Therefore, a game history information calculation display program can be easily created independently of the game progress program for executing the game progress process.

  Further, according to this aspect, as shown in FIG. 45, the memory space used by the processing by the first program 63p1 and the memory space used by the processing by the second program 63p2 are arranged independently of each other. Both memory spaces can be prevented from physically interfering with each other, and for example, illegal activities performed on one process (memory space) can be prevented from affecting other processes (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). In addition, since the value of each register is stored in the second data storage area 64a2 by the load instruction, it is possible to store only the used register in the second data storage area 64a2. Therefore, it is possible to reduce the storage capacity necessary for storing the value of each register in the saving process 3. In addition, 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. It is possible to expand the storage capacity of the second data storage area 64a2 by reducing the storage capacity of the second stack area 64b2.

  Further, for example, when the capacity 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 the data stored in the stack area is stored. If the configuration is such that a reset process for erasing data is performed, assuming that the value of each register is stored in the second stack area 64b2 by a push command (PUSH) in the save process 3, the reset process is performed. There is a risk of being. Furthermore, if the save process 3 is configured to store all register values in the second stack area 64b2 by a single push instruction (PUSH ALL), the possibility that the reset process will be performed is further increased. End up. On the other hand, according to this aspect, the push instruction (PUSH ALL) is not used in the save process 3, and the value of each register is stored in the second data storage area 64a2 by the load instruction (LD). It is possible to avoid the risk that the reset process is executed.

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

  FIG. 47 is a flowchart illustrating timer interrupt processing executed by the main CPU 62x according to aspect 75 of the first embodiment. The same steps as those included in the timer interrupt process shown in FIG. 46 are assigned the same step numbers. 46 differs from the timer interrupt process shown in FIG. 46 in that the save process 1 shown in step S11103 in FIG. 46 is omitted and the contents of the return process 2 shown in step S11108 in FIG. 46 are different. Is a point. This will be specifically described below.

  In step S11101, the main CPU 62x executes the game progress program included in the first program 63p1, thereby executing a game progress process that is a process for progressing the game. Specifically, in the game progress process, the process group shown in steps S10601 to S10615 of FIG. After performing the process of step S11101, the process proceeds to step S11102.

  In step S11102, the main CPU 62x executes the storage process by executing the storage program included in the first program 63p1. In the storage process, the first stack in which the values of the A register and the F register among the plurality of registers can be accessed by the first stack area reference address SP1 stored in the stack pointer (SP) by a push instruction (PUSH). Store in area 64b1. At this time, the values of the A register and the F register are stored in the first stack area 64b1 by one push instruction (PUSH AF) using the special code AF that designates the A register and the F register as a transfer target.

  After executing step S11102, the main CPU 62x executes the save programs 2 and 3 shown in steps S11104 and S11105 by executing the save program included in the second program 63p2. That is, in this aspect, the main CPU 62x does not implement the save process 1 in step S11103 described above. This will be specifically described 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). At this time, the second stack area reference address SP2 stored in the stack pointer (SP) is a fixed value stored in advance in the second program data area 63b2 of the main 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. Is an address value indicating. After performing the save process 2 in step S11104, the process proceeds to step S11105.

  In the save process 3 shown in step S11105, the values of the A register, the F register, and the general-purpose register are designated by the address W22 of the second data storage area 64a2 by a plurality of load instructions (LD (W22), registers). To remember. A configuration in which the values of the A register, F register, and general register are stored in the second data storage area 64a2 by a single load instruction using a special code that designates the A register, F register, and general register as transfer targets. It is good. After performing the process of step S11105, the process proceeds to step S11106.

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

  After executing the game history information calculation display process of step S11106, the main CPU 62x executes the return program included in the second program 63p2, thereby executing the return process 1 and the return process A shown in steps S11107 and S11108a. To 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 specifically described below.

  In the return process 1 shown in step S11107, the values of the A register, the F register, and the general-purpose register are stored in the second data storage area by the save process 3 (step S11105) by a plurality of load instructions (LD register, (W22)). The value stored in the area specified by the address W22 of 64a2 is set. It should be noted that a configuration in which the values of the A register, the F register, and the general-purpose register are set to the values stored in the second data storage area 64a2 by the save process 3 (step S11105) by one load instruction using a special code. Good. In the return process 1, when the value of the F register is changed in the save process 1 (step S11103), a value different from that immediately after the game progress process is finished is stored in the F register. Further, the special code may not be used, and the values of the A register, the F register, and the general-purpose register may be set to the values stored in the second data storage area 64a2 by a plurality of load instructions. After performing the process of step S11107, the process proceeds to step S11108a.

  In the return process 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). At this time, the first stack area reference address SP1 stored in the stack pointer (SP) is a fixed value stored in advance in the second program data area 63b2 of the main ROM 63, for example. Hereinafter, this fixed value will be described.

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

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

  Since the amount of data stored in the first stack area 64b1 by the execution of the storage process (step S11102) and the start of the execution of the second program 63p2 is the same every time (every timer interrupt process), the first stack area The amount of movement of the reference address SP1 is the same every time. Accordingly, the first stack stored in the stack pointer (SP) at the time immediately after the main CPU 62x executes the storage process (step S11102) and starts the 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 the time immediately after the end of the storage process (step S11102) and the start of the execution of the second program 63p2 (FIG. 47). Is set to the same address value as the address value stored in the stack pointer every time. As a result, even if the save process 1 (step S11103 in FIG. 46) described above is omitted, the storage process (step S11102) for the value of the stack pointer (SP) is terminated by the return process A (step S11108a) of this aspect. It is possible to return to the value immediately after the execution of the second program 63p2 is started (timing TX1 shown in FIG. 47).

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

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

  As described 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, at the time when all the processes (the processes of steps S10601 to S10615) constituting the game progress process (step S11101) are completed, the data stored in the first stack area 64b1 does not exist. Thus, the first stack area reference address SP1 stored in the stack pointer (SP) is an address value that designates the bottom of the first stack area 64b1. Therefore, the main CPU 62x executes the storage process (step S11102) and immediately after the execution of the second program 63p2 is started (timing TX1 shown in FIG. 47), the first stored in the stack pointer (SP). The stack area reference address SP1 has the same address value every time the timer interrupt process is executed. Therefore, since the fixed value may be stored in the stack pointer (SP) by the return process A (step S11108a) of this aspect, the save process 1 shown in the 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 required for saving the first stack area reference address SP1 stored in the stack pointer (SP). The storage capacity can be reduced.

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

  FIG. 48 is a flowchart illustrating timer interrupt processing executed by the main CPU 62x according to aspect 76 of the first embodiment. The same steps as those included in the timer interrupt processing shown in FIG. 47 are denoted by the same step numbers. The main difference from the timer interrupt process shown in FIG. 47 is that the save process 3 shown in step S11105 of FIG. 47 is omitted and the return process 1 shown in step S11107 of FIG. 47 is omitted. 48, processing for setting all register values to 0 is added after the processing shown in steps S11102 and S11108a of FIG. This will be specifically described below.

  In step S11101, the main CPU 62x executes the game progress program included in the first program 63p1, thereby executing a game progress process that is a process for progressing the game. Specifically, in the game progress process, the process group shown in steps S10601 to S10615 of FIG. After performing the process of step S11101, the process proceeds to step S11102.

  In step S11102, the main CPU 62x executes the storage process by executing the storage program included in the first program 63p1. In the storage process, the first stack in which the values of the A register and the F register among the plurality of registers can be accessed by the first stack area reference address SP1 stored in the stack pointer (SP) by a push instruction (PUSH). Store in area 64b1. At this time, the values of the A register and the F register are stored in the first stack area 64b1 by one push instruction (PUSH AF) using the special code AF that designates the A register and the F register as a transfer target. After performing the process of step S11102, the process proceeds to step S11102-2.

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

  After executing Step S110102-2, 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 save process 1 in step S11103 and the save process 3 in step S11105. This will be specifically described 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). At this time, the second stack area reference address SP2 stored in the stack pointer (SP) is a fixed value stored in advance in the second program data area 63b2 of the main 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. Is an address value indicating. After performing the save process 2 in step S11104, the process proceeds to step S11106. That is, in this aspect, the main CPU 62x does not implement the save process 3 in step S11105 described above.

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

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

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

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

  In the return process 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). At this time, the first stack area reference address SP1 stored in the stack pointer (SP) is a fixed value stored in advance in the second program data area 63b2 of the main ROM 63, for example. Hereinafter, this fixed value will be described.

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

  Thereafter, when 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, a predetermined amount of data is stored in the first stack area 64b1. The As a result, the main CPU 62x executes the storage process (step S11102) and the first clear process (step S11102-2), and immediately after the execution of the second program 63p2 is started (timing TX1 shown in FIG. 47). The first stack area reference address SP1 stored in the stack pointer (SP) is an address value for designating 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 the execution of the storage process (step S11102), the first clear process (step S11102-2) and the execution of the second program 63p2 is changed every time (every timer interrupt process). Therefore, the movement amount of the first stack area reference address SP1 is the same every time. Accordingly, the stack pointer at the time immediately after the main CPU 62x executes the storage process (step S11102) and the first clear process (step S11102-2) and starts the execution of the second program 63p2 (timing TX1 shown in FIG. 47). 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 ends the storage process (step S11102) and the first clear process (step S110102-2), and the second program 63p2 Is set to the same address value as the address value stored in the stack pointer every time immediately after the start of execution (timing TX1 shown in FIG. 47). As a result, even if the save process 1 (step S11103 in FIG. 46) described above is omitted, the value of the stack pointer (SP) is stored in the storage process (step S11102) and the second process by the return process A (step S11108a) of this aspect. It is possible to return to the value at the time point (timing TX1 shown in FIG. 47) immediately after the 1 clear process (step S110102-2) is finished and the execution of the second program 63p2 is started.

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

  In step S11109, the main CPU 62x executes the changing process by executing the changing program included in the first program. In the changing process, the values of the A register and the F register are changed to the values stored in the first stack area 64b1 by the storing process (step S11102) by the pop instruction (POP). At this time, the values of the A register and the F register are changed to the values stored in the first stack area 64b1 by the storage process (step S11102) by one pop instruction (POP AF) using a special code. At this time, even if the value of the F register is changed after the storage process (step S11102) is performed, the value of the F register can be changed to the same value as that immediately after the game progress process is finished. . After executing the process of step S11109, the timer interrupt process is terminated.

  As described 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 clear process (step S11102-2 in FIG. 48) is performed by the first program 63p1, and the second clear process (step S11107a in FIG. 48) is performed by the second program 63p2. Without executing the save process 3 (step S11105 in FIG. 47) and the return process 1 (step S11107 in FIG. 47), the register value at the time immediately before the start of the execution of the second program 63p2 and the second program 63p2 The register value at the time immediately after the end of execution can be matched. Therefore, when returning from the second program 63p2 to the first program 63p1, it is possible to avoid the occurrence of problems due to changes in the register values used in the first program 63p1. Since the saving process 3 and the restoring process 1 described above can be omitted, the storage capacity of the second data storage area 64a2 required in the saving process 3 and the restoring process 1 can be reduced.

  Further, 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 game progress process is not performed, it is possible to avoid the occurrence of a problem in the game progress process by setting the register value to 0 in the first clear process.

<Aspect 77>
In the storage process in step S11102 of the above aspect 74, aspect 75, and aspect 76, the value of the specific register (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, the value of the specific register (A register, F register) may be changed to the value stored in the first data storage area 64a1 by the load instruction. In addition, the specific register that is the target of the storage process in step S11102 and the change process in step S11109 may be configured to include 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 in the middle, interrupted from the storage process in step S11102 to the change process in step S11109, and then interrupted. It is good also as a structure which restarts implementation of the game progress process which has been performed.

  In the aspect 76, the first clear process (step S110102-2) may be performed after the game progress process (step S11101) and before the storage process (step S11102). . Even with such a configuration, the same effects as those of the above aspect 76 can be obtained.

<Aspect 78>
Among the above modes, in the configuration capable of executing the setting change mode, various modes can be adopted as a method for starting the pachinko machine 10 as the setting change mode and an operation method in the setting change mode. This will be specifically described below.

  In this aspect, the main control board 61 located on the back side of the pachinko machine 10 is provided with the setting change keyhole and the RAM clear button described above, and is not provided with the setting change button described above. . 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 the front door frame 14 of the pachinko machine 10 are opened, and a setting change key is inserted into the setting change key hole. Then, it is assumed that the inserted key is turned to the setting change side (for example, turned clockwise). In this state, if the pachinko machine 10 is turned on while the RAM clear button is pressed, the pachinko machine 10 is activated as a setting change mode.

That is, the pachinko machine 10 of this aspect is activated as a setting change mode when all of the following conditions 1 to 3 are satisfied when the power is turned on.
Condition 1: The inner frame 13 and the front door frame 14 are in an open state. Condition 2: The key hole for setting change is located on the setting changing side. Condition 3: The RAM clear button is pressed. When the machine 10 is turned on, if the condition 3 is satisfied but either of the conditions 1 and 2 is not satisfied, the pachinko machine 10 does not start in the setting change mode and the main RAM 64 is initialized. Execute the process to convert.

  When the pachinko machine 10 is activated as the setting change mode, information (setting information) indicating the current lottery setting is displayed on the information display unit 45z described above. For example, when the current lottery setting of the pachinko machine 10 is “lottery setting 1”, “1” is displayed on the information display unit 45z. Then, every time the administrator presses the RAM clear button, the setting information displayed on the information display unit 45z is “1” → “2” → “3” → “4” → “5” → “6” → “ It is switched in the order of “1” → “2”.

  In a state where the setting information displayed on the information display unit 45z is a value desired by the administrator, the administrator enters a game ball into a predetermined entrance (for example, the out entrance 43) and enters the predetermined entrance When the detection sensor (for example, the discharge passage detection sensor 44h) detects the game ball, the change to the lottery setting corresponding to the setting information displayed on the information display unit 45z is confirmed. Specifically, for example, when the game ball is detected by the discharge passage detection sensor 44h in a state where “6” is displayed as the setting information on the information display unit 45z, the lottery setting of the pachinko machine 10 is “lottery setting”. 6 ”. 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.

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

  Moreover, according to this aspect, when changing the lottery setting of the pachinko machine 10, since it is necessary to make the inner frame 13 and the front door frame 14 open, for example, the lottery setting of the pachinko machine 10 is changed. Even if an unauthorized person (hereinafter also referred to as an unauthorized person) attempts to illegally change the lottery setting of the pachinko machine 10, there is no means for opening the inner frame 13 and the front door frame 14. As long as the lottery settings cannot be changed. Therefore, the security of the pachinko machine 10 can be improved.

  Even if an unauthorized person can open the inner frame 13 and the front door frame 14, a warning is given from the speaker 46 of the pachinko machine 10 when the inner frame 13 and the front door frame 14 are opened. Since a sound and a warning sound (for example, “the door is open”) are output, the administrator can easily notice a situation where an unauthorized person is changing the lottery setting. Therefore, it is possible to suppress a change in the lottery setting by an unauthorized person.

  In this aspect, the pachinko machine 10 is activated as the setting change mode that both the inner frame 13 and the front door frame 14 are in the open state, but either the inner frame 13 or the front door frame 14 is activated. It may be one of the conditions that the pachinko machine 10 is activated as the setting change mode that either one is in the open state.

  Further, in this aspect, the detection of the game ball by the discharge passage detection sensor 44h is adopted as a condition for confirming the change of the lottery setting. However, the present invention is not limited to this configuration, and the detection of the game ball by another entrance detection sensor is selected by lottery. You may employ | adopt as a condition which confirms the change of a setting. For example, as a condition for confirming the change of the lottery setting, detection of a game ball by the first winning opening detection sensor 44d may be employed. The first winning opening detection sensor 44d is a sensor that detects the entry of a game ball into the first winning opening 32a, which is a general winning opening.

  Further, in this aspect, every time the administrator presses the RAM clear button in the setting change mode, the setting information displayed on the information display unit 45z is “1” → “2” → “3” → “4” → “ 5 ”→“ 6 ”→“ 1 ”→“ 2 ”... However, the present invention is not limited to this configuration. For example, a setting change button is provided separately from the RAM clear button. Each time the user presses the setting change button, the setting information displayed on the information display section 45z is “1” → “2” → “3” → “4” → “5” → “6” → “1 “→” 2 ”...

  Further, in this aspect, the configuration is provided with the keyhole for changing the setting, but the configuration may not be provided with the keyhole for changing the setting. For example, the pachinko machine 10 may be configured to be activated as a setting change mode when the conditions 1 and 3 are satisfied when the power is turned on. In addition, for example, when the pachinko machine 10 satisfies the above conditions 1 and 3 when the power is turned on, is the pachinko machine 10 activated as a setting change mode or executed a RAM clear process for initializing the main RAM 64? It is good also as a structure which performs the selection mode which makes an administrator select. In the selection mode, the RAM clear button is pressed to select whether to start the setting change mode or to execute the RAM clear process, and the selection is confirmed by pressing the RAM clear button for a predetermined time. Also good. In the selection mode, the setting is made only when a game ball is entered into a predetermined entrance (for example, the outlet 43) and a predetermined entrance detection sensor (for example, the discharge passage detection sensor 44h) is detected. It is good also as a structure which can select starting as a change mode. Even if it is such a structure, it can suppress that persons other than an administrator change the lottery setting of the pachinko machine 10 illegally.

<Aspect 79>
Of each of the above aspects, in the configuration capable of executing the setting change mode, the configuration change mode may be configured to notify that the setting change mode is in progress. This will be specifically described below.

  In this aspect, when starting the setting change mode, main controller 60 transmits a setting change mode start command, which is a command indicating that the setting change mode has been started, to sound emission control device 90.

  When receiving the setting change mode start command, the sound emission control device 90 outputs a sound indicating that the setting change mode is in effect from the speaker 46. Specifically, for example, sound such as “in the setting change mode” is repeatedly output from the speaker 46. In addition, when receiving the setting change mode start command, the sound emission control device 90 causes the symbol display device 41 to display information indicating that it is in the setting change mode. Specifically, for example, the sound emission control device 90 transmits a command for causing the symbol display device 41 to display a character string such as “in setting change mode” to the display control device 100, and the display that has received the command. The control device 100 causes the symbol display device 41 to display a character string such as “in the setting change mode”. In addition, when receiving the setting change mode start command, the sound emission control device 90 controls the various lamps 47 so as to blink repeatedly by alternately turning on and off at the maximum luminance.

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

  Thus, according to this aspect, since the speaker 46, the symbol display device 41, and the various lamps 47 are notified that the setting change mode is being performed, the administrator of the pachinko machine 10 is in the setting change mode. It can be easily recognized. Further, even if an unauthorized person illegally shifts the pachinko machine 10 to the setting change mode, the pachinko machine 10 notifies the speaker 46 or the symbol display device 41 that the pachinko machine 10 is in the setting change mode. Therefore, surrounding players and managers can notice that the pachinko machine 10 is in the setting change mode by an unauthorized person. Therefore, it becomes possible to suppress the change of the lottery setting by an unauthorized person.

  Further, when starting the setting change mode, main controller 60 transmits information indicating that the setting change mode has been started to the hall computer of the game hall via the external terminal. The hall computer that has received the information indicating that the setting change mode has been started displays the information of the pachinko machine 10 in the setting change mode on the management screen. Then, when the setting change mode is ended, main controller 60 transmits information indicating that the setting change mode is ended to the hall computer of the game 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 presence of the pachinko machine 10 in the setting change mode is indicated by the management screen by the hall computer. It becomes possible to recognize. Therefore, for example, even if the pachinko machine 10 is in the setting change mode by an unauthorized person, the administrator can confirm that the pachinko machine 10 in the setting change mode exists by using the management screen by the hall computer. Can be recognized. Therefore, it becomes possible to suppress the change of the lottery setting by an unauthorized person.

<Aspect 80>
Among the above aspects, in the configuration capable of executing the setting change mode, when the lottery setting is changed in the setting change mode, after the setting change mode ends, among the information stored in the main RAM 64, It is good also as a structure initialized except information regarding a gaming state. This will be specifically described below.

  In this mode, when the lottery setting is changed in the setting change mode, the main side RAM 64 is initialized except for information relating to the gaming state, and the setting change mode is terminated without changing the lottery setting in the setting 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 proceed. In addition, in this aspect, “information about the gaming state” that is not initialized is a flag indicating whether the state of the high probability mode flag, the state of the high frequency support mode flag, or the open / close execution mode (during jackpot). It is a state.

  Thus, according to this aspect, when the lottery setting is changed in the setting change mode, the main side RAM 64 is initialized, so the information stored in the main side RAM 64 after the lottery setting is changed, and the lottery It is possible to suppress the occurrence of a problem in the progress of the game due to inconsistency with the information stored in the main RAM 64 before the setting is changed.

  Furthermore, according to this aspect, even when the lottery setting is changed in the setting change mode and the main RAM 64 is initialized, the information related to the gaming state among the information stored in the main 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 advantageous to the player.

  In this aspect, the main-side RAM 64 is initialized after the end of the setting change mode. However, when an operation for starting the setting change mode when the pachinko machine 10 is turned off is accepted, the setting change mode is set. Before starting, it is good also as a structure which initializes main side RAM64 except the information regarding a game state. Even with such a configuration, inconsistency occurs between the information stored in the main RAM 64 after the lottery setting is changed and the information stored in the main RAM 64 before the lottery setting is changed, It is possible to suppress the occurrence of problems in the progress of the game.

  Further, in this aspect, when the main RAM 64 is initialized, the information relating to the gaming state is not erased, but all information (including information relating to the gaming state) stored in the main RAM 64 is initialized. It is good also as composition to do.

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

<Aspect 81>
Of the above aspects, in the configuration in which the setting change mode can be executed, the information stored in the main RAM 64 is inconsistent due to noise or the like, and the game proceeds when the main RAM 64 is initialized. Before returning to the possible game progress mode, it is good also as a structure which transfers to setting change mode. This will be specifically described below.

  In this aspect, the main control device 60 executes a monitoring process for monitoring whether or not an abnormality such as inconsistency occurs in the information stored in the main RAM 64 in the timer interrupt process. Specifically, for example, in the monitoring process, it is monitored whether values in a range that should not be stored in each area of the main RAM 64 are stored. If it is determined in the monitoring process that an abnormality has occurred in the main RAM 64, the process relating to the progress of the game is stopped and the main RAM 64 is forcibly initialized. Then, after the initialization of the main RAM 64 is completed, the main control device 60 shifts to the above-described setting change mode before shifting to the game progress mode in which the game can proceed. The cause of the abnormality such as inconsistency in the information stored in the main RAM 64 is, for example, noise such as electromagnetic waves, or a player having an unauthorized intention brought a magnet or the like close to the pachinko machine 10. Etc.

  And if it is set as the structure which alert | reports that the pachinko machine 10 is in setting change mode similarly to the aspect 79 mentioned above, the administrator of the pachinko machine 10 will be that the said pachinko machine 10 shifted to setting change mode. You can notice. And an administrator determines the lottery setting of the said pachinko machine 10 in setting change mode, and the said pachinko machine 10 transfers to game progress mode after that.

  The reason for this configuration will be described. When the main RAM 64 is forcibly initialized due to noise or the like, the lottery setting information is also rewritten with setting information different from the setting information originally intended by the administrator. there is a possibility. If the lottery setting information is not initialized (not changed) even when the main RAM 64 is initialized, the setting information may be maintained different from the setting information originally intended by the administrator. is there. Therefore, as in this aspect, when the main RAM 64 is forcibly initialized due to noise or the like, the mode is changed to the setting change mode before returning to the game progress mode in which the game can proceed. Then, the administrator can correct the lottery setting information to the originally intended setting information before the pachinko machine 10 returns to the game progress mode.

  Furthermore, in this aspect, when the main RAM 64 is forcibly initialized due to noise or the like, the above-described 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 is not initialized (not erased), so the player can play the game The game can be resumed while maintaining the state. Therefore, it is possible to prevent the player from being disadvantaged by the forced initialization of the main RAM 64 due to noise or the like.

  In this aspect, the configuration is changed to the setting change mode after the initialization of the main RAM 64, but the setting change mode is not changed after the initialization of the main RAM 64, and the lottery setting is changed to the initial value (for example, “lottery setting” It is good also as a structure which transfers to the game progress mode which can advance a game after setting to 1 ").

  Further, in this aspect, when the main side RAM 64 is initialized, the information about the gaming state is not erased. However, when the main side RAM 64 is initialized, the information about the gaming state may be erased.

<Aspect 82>
Of the above-described aspects, the configuration in which the setting change mode can be executed may be configured to notify whether the lottery setting has been changed or not changed in the setting change mode. This will be specifically described below.

  In this aspect, when the lottery setting is changed in the setting change mode, the main control device 60 of the pachinko machine 10 outputs a sound indicating that the lottery setting has been changed from the speaker 46, and the lottery setting is changed. By displaying a character string indicating that the lottery has been made 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, the main lottery setting information is saved in a predetermined area of the main RAM 64. Then, the setting information of the lottery setting newly determined in the setting change mode is compared with the setting information of the lottery setting before the change that has been saved, and if the setting information is different, the lottery setting A setting change command, which is a command indicating that has been changed, is transmitted to the sound emission control device 90.

  When receiving the setting change command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the lottery setting has been changed. Specifically, for example, a sound such as “the lottery setting has been changed” is repeatedly output from the speaker 46. In addition, when receiving the setting change command, the sound 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 sound emission control device 90 transmits a command for causing the symbol display device 41 to display a character string such as “the lottery setting has been changed”, and receives the command. The displayed control device 100 causes the symbol display device 41 to display a character string such as “the lottery setting has been changed”. In addition, when receiving the setting change command, the sound emission control device 90 controls the various lamps 47 so as to blink alternately by turning on and off at the maximum brightness.

  On the other hand, when the setting change mode is ended while the lottery setting is maintained without being changed, the main control device 60 of the pachinko machine 10 transmits a sound indicating that the lottery setting has been maintained without changing the speaker. 46, and a character string suggesting that the lottery setting has been maintained without being changed is displayed on the symbol display device 41 to notify that the lottery setting has been maintained without being changed.

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

  When receiving the setting maintenance command, the voice light emission control device 90 causes the speaker 46 to output a voice suggesting that the lottery setting has been maintained without being changed. Specifically, for example, a sound such as “the lottery setting was not changed” is repeatedly output from the speaker 46. In addition, when receiving the setting maintenance command, the sound emission control device 90 causes the symbol display device 41 to display information suggesting that the lottery setting has been maintained without being changed. Specifically, for example, the sound emission control device 90 transmits a command for causing the symbol display device 41 to display a character string such as “the lottery setting was not changed” to the display control device 100, and the command is displayed. The received display control device 100 causes the symbol display device 41 to display a character string such as “the lottery setting was not changed”. In addition, when receiving the setting maintenance command, the sound emission control device 90 controls the various lamps 47 to be lit instead of blinking.

  Thus, according to this aspect, when the lottery setting is changed in the setting change mode, the fact that the lottery setting has been changed is notified, so that the administrator or the player can check whether the lottery setting has been changed. Can be confirmed.

  In particular, in the above-described aspect 81, in the setting change mode after the forced initialization of the main RAM 64 due to noise or the like, a player who has played a game on the pachinko machine 10 has a lottery setting set by the administrator. It is assumed that it will be a suspicion whether it has been changed. However, according to this aspect, when the lottery setting is changed, the fact that the lottery setting has been changed is notified, so that the player can confirm whether or not the lottery setting has been changed. More specifically, it is possible to make the player know only whether or not the lottery setting has been changed in the setting change mode without grasping what setting information the current lottery setting is. . As a result, it is possible to suppress the occurrence of a situation where the player must restart the game with an uneasy feeling without knowing whether or not the lottery setting has been changed by the manager.

  In this aspect, when the lottery setting is not changed, the fact that the lottery setting is maintained without being changed is notified. However, when the lottery setting is not changed, nothing is notified. It is good also as a structure which does not carry out, or it is good also as a structure which alert | reports the aspect different from the case where a lottery setting is changed like "it ends setting change mode." Even in such a configuration, the player can determine that the lottery setting has not been changed when there is no notification such as “the lottery setting has been changed”, so the player can play the game with an uneasy feeling. It is possible to suppress the occurrence of a situation that must be resumed.

<Aspect 83>
In the aspect 82, the main control device 60 may be configured to include the changed lottery setting setting information in the setting change command that is a command indicating that the lottery setting has been changed. Then, each time the sound emission control device 90 receives a setting change command including setting information for the lottery setting after the change, the setting information for the lottery setting after the change is sequentially stored in a RAM serving as a storage unit included in the sound emission control device 90. It is good also as composition to do. And the audio | voice light emission control apparatus 90 is good also as a structure which displays the log | history of a change of a lottery setting on the symbol display apparatus 41, when predetermined operation is received from the administrator of the pachinko machine 10, etc. FIG.

  According to such a configuration, the history of changes in the lottery setting 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 confirm how the lottery setting of the pachinko machine 10 has been operated by the change history of the lottery setting displayed on the symbol display device 41. .

<Aspect 84>
Among the above-described aspects, in the configuration capable of executing the setting change mode, the lottery setting cannot be changed, but the administrator can check the current lottery setting. Good. This will be specifically described below.

  The pachinko machine 10 according to this aspect, when a specific operation is executed under a specific condition, enters a game stop state in which a game cannot be progressed, and then shifts to a setting confirmation mode.

In this embodiment, the specific condition refers to a state that satisfies all of the following conditions.
Condition 1: The special symbol is not changing in the special symbol unit 37. Condition 2: The normal symbol is not changing in the normal symbol unit 38. Condition 3: The variable winning device 36 as the 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 elapsed since the last game ball was fired. Below is a state where even if the progress of the game is stopped (interrupted), the result of the game is not affected.

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

  That is, when the main control device 60 of the pachinko machine 10 according to this aspect detects that the RAM clear button has been pressed during the game progress mode in which the game can proceed, the above-described specific conditions are satisfied. If it is determined whether or not the above-described specific condition is satisfied, the setting confirmation mode is entered. When it is detected that the RAM clear button has not been pressed again, the setting confirmation mode is terminated and the game progress mode is restored to allow the game to proceed.

  While in the setting confirmation mode, main controller 60 executes random number update processing for updating the jackpot random number counter and the like and power supply monitoring processing, but performs other processing necessary for the progress of the game (various input in timer interrupt processing). The ball processing or the like is not executed and the game is stopped (the game cannot be progressed), and setting information indicating the current lottery setting is displayed on the information display unit 45z. For example, when the current lottery setting of the pachinko machine 10 is “lottery setting 1”, “1” is displayed on the information display unit 45z.

  In addition, during the game progress mode, regardless of the result of the winning lottery or the result of the electric player opening lottery, the accessory that always continues a certain operation (predetermined operation) (hereinafter also referred to as a constantly operating accessory) In the pachinko machine 10 having the above, the main control device 60 continues the operation of the always-operating accessory as it is even when the game progress mode is shifted to the setting confirmation mode. Specifically, the main control device 60 is configured to continuously execute the control processing of the operating accessory in addition to the random number update processing and the power supply monitoring processing after shifting to the setting confirmation mode. 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 the execution of other processes necessary for the progress of the game that has been avoided. To do.

  According to such a configuration, even when the game progress mode shifts to the setting confirmation mode and when the game returns to the game progress mode from the setting confirmation mode, the operation of the constantly operating accessory is not stopped or changed. For example, it is possible to suppress a player from illegally obtaining a favorable result by launching a game ball aiming at a timing at which the operation of an always-moving accessory stops or changes. Can do.

  In addition, in this mode, the operation of the always-operating accessory is continuously continued even during the setting confirmation mode. However, the operation of the always-acting accessory is temporarily stopped at the timing when the game progress mode is shifted to the setting confirmation mode. The operation of the always-operating accessory that has been stopped at the timing when the setting confirmation mode is returned to the game progress mode may be resumed. According to such a configuration, the processing can be simplified as compared with the configuration in which the operation of the always-operating accessory is continued. In addition, it is possible to ensure that the actions of the always-operating accessory are continuously connected during the game progress mode in which the game can proceed. In addition, 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 resumed from the same state as that at the timing when the game progress mode is shifted to the setting confirmation mode. Therefore, when returning from the setting confirmation mode to the game progress mode, the operation tool is always operated from a state different from the state at the timing when the game progress mode is switched to the setting confirmation mode (for example, a disadvantageous state or advantageous state for the player). Therefore, it is possible to avoid that the game must be resumed from a state different from the state in which the player has stopped the game.

  Further, in this aspect, the operation of pressing the RAM clear button is employed as the specific operation for shifting to the setting confirmation mode, but various operations can be employed as the specific operation. For example, as the specific operation, an operation of inserting a setting change key into the setting change keyhole and turning it to the setting change side may be adopted. According to such a configuration, since the setting change key is required to confirm the lottery setting of the pachinko machine 10, a person who does not have the setting change key sets the lottery setting of the pachinko machine 10. It can suppress that it can confirm.

<Aspect 85>
In the above aspect 84, the operation of the constantly operating accessory is continued as it is even during the setting confirmation mode. However, when the operation confirming mode is shifted to, the constantly operating accessory is shifted to a predetermined initial state ( Alternatively, the operation may be stopped after moving to the initial position. This will be specifically described below.

  When the main control device 60 of the pachinko machine 10 according to this aspect shifts from the game progress mode to the setting confirmation mode, the always-operating accessory until the always-operating accessory shifts to the initial state (or moves to the initial position). Continue the control process. Then, when the main control device 60 detects that the always-operating accessory has shifted to the initial state (or moved to the initial position), the main control device 60 stops the control processing of the always-acting accessory and performs the operation of the always-operating accessory. Stop. After that, 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 is necessary for the control process of the always-operating accessory and the progress of the game that has been avoided. Resume execution of other processing.

  When the main controller 60 returns 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 always-operating accessory The control process is continued as it is. That is, in this aspect, the constantly operating accessory is configured not to stop the operation in a state other than the initial state (or 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 an always-acting accessory that may cause a malfunction when the operation is stopped in a state other than the initial state (or a position other than the initial position). Can do.

<Aspect 86>
Of the above aspects, in the configuration in which the setting confirmation mode can be executed, the configuration confirmation mode may be notified during the setting confirmation mode. This will be specifically described below.

  In this aspect, when starting the setting confirmation mode, main controller 60 transmits a setting confirmation mode start command, which is a command indicating that the setting confirmation mode has been started, to sound 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 it is in the setting confirmation mode. Specifically, for example, a sound such as “in the setting confirmation mode” is repeatedly output from the speaker 46. In addition, when receiving the setting confirmation mode start command, the sound emission control device 90 causes the symbol display device 41 to display information indicating that it is in the setting confirmation mode. Specifically, for example, the sound emission control device 90 transmits a command for causing the symbol display device 41 to display a character string such as “in setting confirmation mode” to the display control device 100, and the display that has received the command. The control device 100 causes the symbol display device 41 to display a character string such as “in setting confirmation mode”. In addition, when receiving the setting confirmation mode start command, the sound emission control device 90 controls the various lamps 47 so as to blink repeatedly by alternately turning on and off at the maximum luminance.

  Then, when the main controller 60 ends the setting confirmation mode, the main controller 60 transmits a setting confirmation mode end command, which is a command indicating that the setting confirmation mode has ended, to the sound emission control apparatus 90. When receiving the setting confirmation mode end command, the sound emission control device 90 ends the various controls for notifying that the above-described setting confirmation mode is in progress.

  Thus, according to this aspect, since it is notified by the speaker 46, the symbol display device 41, and various lamps 47 that it is in the setting confirmation mode, the administrator of the pachinko machine 10 is in the setting confirmation mode. It can be easily recognized. Further, even if an unauthorized person illegally shifts the pachinko machine 10 to the setting confirmation mode, the pachinko machine 10 indicates that it is in the setting confirmation mode, such as the speaker 46, the symbol display device 41, and various types. Since the notification is given by the lamp 47, surrounding players and managers can recognize that the pachinko machine 10 is in the setting confirmation mode by an unauthorized person. Therefore, confirmation of the lottery setting by an unauthorized person can be suppressed.

  Furthermore, when starting the setting confirmation mode, main controller 60 transmits information indicating that the setting confirmation mode has been started to the hall computer of the game hall via the external terminal. The hall computer that has received the information indicating that the setting confirmation mode has been started displays the information of the pachinko machine 10 in the setting confirmation mode on the management screen. When the setting confirmation mode is terminated, main controller 60 transmits information indicating that the setting confirmation mode has been terminated to the hall computer of the game 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 presence of the pachinko machine 10 in the setting confirmation mode is indicated by the management screen by the hall computer. It becomes possible to recognize. Therefore, for example, even when the pachinko machine 10 is in the setting confirmation mode by an unauthorized person, the administrator can confirm that the pachinko machine 10 in the setting confirmation mode exists by using the management screen by the hall computer. Can be recognized. Therefore, confirmation of the lottery setting by an unauthorized person can be suppressed.

<Aspect 87>
Of the above aspects, in the configuration capable of executing the setting change mode and the setting confirmation mode, the configuration change mode and the setting confirmation mode can only be executed after the pachinko machine 10 is once powered off. 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 temporarily turned off and the power of the pachinko machine 10 is turned on. It is good. This will be specifically described below.

  The “setting change keyhole” and “setting change key” in each of the above modes are not limited to the case of shifting to the setting change mode for changing the lottery setting in this mode and the mode described below. Since it is also used when shifting to the setting confirmation mode for confirming the setting, it is also simply referred to as “setting keyhole” and “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 setting keyhole, a setting change button, and an information display section 45z. ing. After the pachinko machine 10 of this aspect is turned on by operating the power switch and the 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, it is configured not to be able to shift to the setting change mode and the setting confirmation mode. Then, when a predetermined condition is satisfied when the power of the pachinko machine 10 is turned on, the setting change mode or the setting confirmation mode is configured to be executed.

Specifically, the pachinko machine 10 of this aspect 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 the front door frame 14 are in an open state. 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

In addition, the pachinko machine 10 according to this aspect 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 the front door frame 14 are in an open state Condition B2: A setting key is inserted into the setting keyhole and is positioned on the ON side Condition B3: The RAM clear button is pressed Not

  Hereinafter, after the manager of the pachinko machine 10 describes an example of a work process for shifting the pachinko machine 10 after the execution of the game progress mode is started to the setting change mode or the setting confirmation mode, the pachinko machine 10 An example of the process executed at 10 will be described.

  FIG. 49 is a process diagram showing an operation process when the administrator changes the lottery setting of the pachinko machine 10.

  In the process W101, the manager inserts a key into the cylinder lock 17 of the pachinko machine 10 whose lottery setting is to be changed, rotates it to the open side, and rotates the inner frame 13 with respect to the outer frame 11 to be in the open state. At the same time, the front door frame 14 is rotated with respect to the inner frame 13 to be opened. 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, it progresses to process W102 and an administrator operates the power switch provided in the back side of the said pachinko machine 10, and turns off a power supply. Next, the process proceeds to step W103.

  In step W103, the administrator inserts a setting key into a setting key hole provided on the back side of the pachinko machine 10 and turns it to the setting change side (hereinafter also referred to as the ON side). Next, the process proceeds to Step W104, and the administrator operates the power switch while pressing the RAM clear button provided on the back side of the pachinko machine 10 to turn on the power of the pachinko machine 10. If it does so, the pachinko machine 10 will transfer to setting change mode after starting (process W105), and the setting information of the present lottery setting will be displayed on the information display part 45z (process W106). Specifically, for example, when the current setting information of the pachinko machine 10 is “1”, “1” is lit and displayed on the information display unit 45z. Next, the process proceeds 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, every time the administrator presses the setting change button, the setting information displayed on the information display unit 45z is “1” → “2” → “3” → “4” → “5”. Since switching is performed in the order of “6” → “1” → “2”..., The administrator presses the setting change button until the setting information displayed on the information display unit 45z becomes the desired setting information. . Next, the process proceeds to step W108.

  In step W108, the administrator confirms that the setting information displayed on the information display unit 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, in step W109, the administrator returns the setting key to the OFF side, and removes the key from the setting key hole. If it does so, the pachinko machine 10 will transfer to the game progress mode which can advance a game (process W110), and game history information will be displayed on the information display part 45z (process W111). Next, the process proceeds to step W112, and the manager removes the key from the cylinder lock 17 with the inner frame 13 and the front door frame 14 being closed. Through such a process, the administrator can change the lottery setting of the pachinko machine 10.

  FIG. 50 is a process diagram showing an operation 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 and turns it to the open side, and rotates the inner frame 13 with respect to the outer frame 11 to bring it into the open state. At the same time, the front door frame 14 is rotated with respect to the inner frame 13 to be opened. 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, it progresses to process W202 and the administrator operates the power switch provided in the back side of the said pachinko machine 10, and turns off a power supply. Next, the process proceeds to step W203.

  In step W203, the administrator inserts a setting key into a setting key hole provided on the back side of the pachinko machine 10, and turns the key to the ON side. Next, the process proceeds to step W204, and the administrator operates the power switch of the pachinko machine 10 to turn on the power of the pachinko machine 10. If it does so, the pachinko machine 10 will transfer to the setting confirmation mode after starting (process W205), and the setting information of the present lottery setting will be displayed on the information display part 45z (process W206). Specifically, for example, when the current setting information of the pachinko machine 10 is “1”, “1” is displayed blinking on the information display unit 45z. The administrator can confirm the current setting information of the pachinko machine 10 by confirming the setting information blinking on the information display unit 45z. Next, the process proceeds to step W207.

  In step W207, after confirming the setting information displayed on the information display unit 45z, the administrator returns the setting key to the OFF side and removes the key from the setting key hole. Then, the pachinko machine 10 shifts to a game progress mode in which the game can proceed (process W208), and game history information is displayed on the information display unit 45z (process W209). Next, the process proceeds to step W <b> 210, and the manager removes the key from the cylinder lock 17 with the inner frame 13 and the front door frame 14 being closed. Through such a process, the administrator can check the current lottery setting of the pachinko machine 10.

  Next, the process which the main side MPU62 (main side CPU62x) of the pachinko machine 10 of this aspect performs is demonstrated.

  FIG. 51 is a flowchart illustrating a part of main processing executed by the main MPU 62 (main CPU 62x) of the aspect 87 of the first embodiment when the power is turned on.

  In step S11201, an initial setting process associated with power-on is executed. Specifically, a predetermined value is set in advance in the stack pointer of the main CPU 62x, and the sub-side control devices (the sound emission control device 90, the display control device 100, the payout control device 70, etc.) are operable. In order to wait for the state to be reached, a wait process is executed for about 1 second, for example. Then, access to the main RAM 64 is permitted. Thereafter, the process proceeds to step S11202, and an internal function register setting process is executed. Then, it progresses to step S11203 and performs the process for alert | reporting that the said pachinko machine 10 was turned on and started. Specifically, an activation command indicating that the pachinko machine 10 has been activated is transmitted to the sound emission control device 90. When receiving the activation command, the sound emission control device 90 executes a process for notifying that the pachinko machine 10 has been activated. Specifically, for example, a sound such as “being activated” or a predetermined alarm sound is output from the speaker 46. After executing Step S11203, the process proceeds to Step S11204.

  In step S11204, it is determined whether the power recovery flag is ON.

  Here, the power recovery flag will be described. In this aspect, when the power switch of the pachinko machine 10 is turned off or when a power failure occurs, various information (information indicating the game state, control information, etc.) stored in the register of the main CPU 62x is mainly used. Retreat to a predetermined area of the side RAM 64. When the saving of these pieces of information to the main RAM 64 is completed, the power recovery flag is turned ON, a RAM determination value (for example, a checksum value) is calculated, and the calculated RAM determination value is stored in the main RAM 64. Remember. Note that after the supply of power from the commercial power supply is cut off, the power supply is switched from the backup power supply such as a capacitor. Thus, the power recovery flag is a flag for identifying at the time of power-on whether or not information for returning to the state when the power was turned off last time is stored in the main 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 the RAM determination value of the main RAM 64 is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. Thereafter, the process proceeds to step S11206, and whether or not the calculated RAM determination value (checksum value) is normal, that is, the calculated RAM determination value (checksum value) and the RAM determination value ( It is determined whether or not the checksum value matches. If it is determined in step S11206 that the RAM determination value is normal (step S11206: YES), the process proceeds to step S11208 described later.

  On the other hand, if it is determined in step S11204 that the power recovery flag is not ON (step S11204: NO), and if it is determined in step S11206 that the RAM determination value is not normal (step S11206: NO). In step S11207, the RAM abnormality flag is turned ON. That is, the RAM abnormality flag is a flag that is turned on when the power recovery flag is OFF or when the power recovery flag is ON but the RAM determination value is not normal. Information stored in the main RAM 64 is stored in the RAM abnormality flag. It is a flag indicating that the state is not normal. After executing Step S11207, the process proceeds to Step S11208.

  In step S11208, it is determined whether the RAM clear button is ON. If it is determined in step S11208 that the RAM clear button is not ON (step S11208: NO), the process proceeds to step S11209, and whether or not all of the setting key, the frame opening switch, and the door opening switch are ON. Determine. The frame opening switch is a switch that is turned on when the inner frame 13 is open with respect to the outer frame 11, and the door opening switch is a state where the front door frame 14 is open with respect to the inner frame 13. It is a switch that is sometimes turned on.

  If it is determined in step S11209 that at least one of the setting key, the frame opening switch, and the door opening switch is not ON (step S11209: NO), the process proceeds to step S11210, and whether or not the RAM abnormality flag is ON. Determine whether.

  If it is determined in step S11210 that the RAM abnormality flag is not ON (step S11210: NO), the process proceeds to step S11211, and a power recovery process for returning to the previous power-off state is executed. Specifically, in the power recovery process, the value of the stack pointer stored in the main RAM 64 is written into the stack pointer of the main CPU 62x, and the data saved in the main RAM 64 is restored to the register of the main CPU 62x. Then, the state of the register of the main CPU 62x is restored to the state before the power is shut off. After executing step S11211, the process proceeds to step S11212, and the power recovery flag of the main RAM 64 is turned OFF. After that, the process shifts to normal game processing. Specifically, for example, the interrupt permission setting, the interrupt prohibition setting, the random number update process, and the power supply monitoring process of the timer interrupt process described in each aspect described above are executed. By allowing the interrupt of the timer interrupt process and executing the above-described timer interrupt process, the game can proceed (the 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 proceeds to step S11213, and a RAM abnormality notification process is executed. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal. Please start in the setting change mode” is repeatedly output from the speaker 46. After executing step S11213, the process proceeds to the normal game process described above. However, in the pachinko machine 10 of this aspect, when the RAM abnormality flag is ON, the random number update process and the power supply monitoring process are executed, but other processes necessary for the progress of the game (for example, starting ball entrance) Processing, game times control processing, etc.) are not executed. Specifically, in this aspect, when the RAM abnormality flag is ON, the timer interrupt permission setting is not performed. Therefore, although it is apparently equivalent to the normal game progress mode, the player cannot advance the game. That is, when the RAM abnormality flag is ON, the game progress mode is not shifted. In this state, the administrator turns off the power of the pachinko machine 10 once, inserts the setting key into the setting keyhole and turns it on, and turns on the power while pressing the RAM clear button. The pachinko machine 10 may be activated in the setting change mode.

  On the other hand, if it is determined in step S11209 described above that all of the setting key, the frame opening switch, and the door opening switch are ON (step S11209: YES), the process proceeds to step S11214, and the RAM abnormality flag is ON. It is determined whether or not there is.

  If it is determined in step S11214 that the RAM abnormality flag is not ON (step S11214: NO), the process proceeds to step S11215, and a setting check process is executed. In the setting confirmation process (setting confirmation mode), a process of displaying the current lottery setting setting information on the information display unit 45z is executed. That is, the setting confirmation mode is a mode in which an administrator or the like can confirm the current lottery setting setting information of the pachinko machine 10. Details of the setting confirmation processing (setting confirmation mode) will be described later. After executing step S11215, the process proceeds to step S11216, where the power recovery process described above is executed to return to the previous power-off state. Thereafter, the process proceeds to step S11217, and the power recovery flag is turned OFF. After that, the process shifts to normal game processing. Specifically, for example, the interrupt permission setting, the interrupt prohibition setting, the random number update process, and the power supply monitoring process of the timer interrupt process described in each aspect described above are executed. By allowing the interrupt of the timer interrupt process and executing the above-described timer interrupt process, the game can proceed (the 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 proceeds to step S11218 to execute a RAM abnormality notification process. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal. Please start in the setting change mode” is repeatedly output from the speaker 46. After executing step S11218, the process proceeds to the normal game process described above. However, as described above, in the pachinko machine 10 according to the present aspect, when the RAM abnormality flag is ON, the random number update process and the power supply monitoring process (power failure monitoring process) are executed. This process is not executed (for example, a starting ball entry process or a game turn control process). Specifically, in this aspect, when the RAM abnormality flag is ON, the timer interrupt permission setting is not performed. Therefore, although it is apparently equivalent to the normal game progress mode, the player cannot advance the game. That is, when the RAM abnormality flag is ON, the game progress mode is not shifted. In this state, the administrator turns off the power of the pachinko machine 10 once, inserts the setting key into the setting keyhole and turns it on, and turns on the power while pressing the RAM clear button. The pachinko machine 10 may be activated in the setting change mode.

  If it is determined in step S11208 described above that the RAM clear button is ON (step S11208: YES), the process proceeds to step S11219, and all of the setting key, the frame opening switch, and the door opening switch are ON. Determine whether or not.

  If it is determined in step S11219 that at least one of the setting key, the frame opening switch, and the door opening switch is not ON (step S11219: NO), the process proceeds to step S11220, and the above-described RAM abnormality flag is ON. It is determined whether or not. If it is determined in step S11220 that the RAM abnormality flag is not ON (step S11220: NO), the process proceeds to step S11221.

  In step S11221, a first RAM clear process is executed. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main RAM 64 except for the lottery setting information. That is, when the first RAM clear process is executed, various flag information indicating various gaming states, various control information, and the like are erased, but the lottery setting information is not erased, and the setting information is maintained as it is. Further, in this aspect, in the first RAM clear process, a first RAM clear process execution command, which is a command indicating that the first RAM clear process has been executed, is transmitted to the sound emission control device 90. When receiving the first RAM clear process execution command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the first RAM clear process has been executed. Specifically, for example, a sound such as “RAM cleared” is output from the speaker 46. After executing step S11221, the process proceeds to the normal game process 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 that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal. Please start in the setting change mode” is repeatedly output from the speaker 46. After executing step S11222, the process proceeds to the normal game process described above. However, as described above, in the pachinko machine 10 according to the present aspect, when the RAM abnormality flag is ON, the random number update process and the power supply monitoring process (power failure monitoring process) are executed. This process is not executed (for example, a starting ball entry process or a game turn control process). Specifically, in this aspect, when the RAM abnormality flag is ON, the timer interrupt permission setting is not performed. Therefore, although it is apparently equivalent to the normal game progress mode, the player cannot advance the game. That is, when the RAM abnormality flag is ON, the game progress mode is not shifted. In this state, the administrator turns off the power of the pachinko machine 10 once, inserts the setting key into the setting keyhole and turns it on, and turns on the power while pressing the RAM clear button. The pachinko machine 10 may be activated in the setting change mode.

  If it is determined in step S11219 that all of the setting key, the frame opening switch, and the door opening switch are ON (step S11219: YES), the process proceeds to step S11223, and whether the RAM abnormality flag is ON. Determine whether or not.

  If it is determined in step S11223 that the RAM abnormality flag is not ON (step S11223: NO), the process proceeds to step S11224, and the first RAM clear process described above is executed. Then, it progresses to step S11225 and performs a setting change process. In the setting change process (setting change mode), a process of displaying the lottery setting setting information on the information display unit 45z is executed and a process of accepting a change of the lottery setting information is executed. That is, the setting change mode is a mode in which an administrator or the like can change the lottery setting setting information 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 process 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 proceeds to step S11226, and a RAM abnormality notification process is executed. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal” is output from the speaker 46. After executing Step S11226, the process proceeds to Step S11227.

  In step S11227, a second RAM clear process is executed. The second RAM clearing process is a process of erasing (clearing to 0) all information including the lottery setting setting information among the information stored in the main RAM 64. That is, when the second RAM clear process is executed, the lottery setting information is deleted in addition to the various flag information indicating the gaming state and the various control information. Here, the reason why the second RAM clear process for erasing the setting information is executed instead of the first RAM clear process when the RAM abnormality flag is ON will be described. If the RAM abnormality flag is ON, the setting information stored in the main RAM 64 may not be normal. For example, the setting information may be overwritten by setting information not intended by the administrator due to noise or the like. This is because there is a possibility that numerical values outside the predetermined range may be stored although only numerical values within a predetermined range (for example, numerical values from 1 to 6) can be obtained. In the second RAM clear process of this aspect, “1” is stored as the initial value of the setting information after the setting information is erased. The RAM abnormality flag is also turned OFF by the second RAM clear process. Then, it progresses to step S11228 and performs a setting change process. Details of the setting change process (setting change mode) will be described later. After executing step S11228, the process proceeds to the normal game process described above.

  FIG. 52 is a flowchart illustrating a setting change process executed by the main MPU 62 (main CPU 62x) according to the 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, 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 been started, is transmitted to the sound emission control device 90. When receiving the setting change mode start command, the sound emission control device 90 outputs a sound indicating that the setting change mode is in effect from the speaker 46. Specifically, for example, a sound such as “in the setting change mode. Please change the setting” is repeatedly output from the speaker 46. In addition, when receiving the setting change mode start command, the sound emission control device 90 causes the symbol display device 41 to display information indicating that it is in the setting change mode. Specifically, for example, the sound emission control device 90 transmits a command for causing the symbol display device 41 to display a character string such as “in the setting change mode. Please change the setting” to the display control device 100. 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 setting”. In addition, when receiving the setting change mode start command, the sound emission control device 90 controls the various lamps 47 so as to blink repeatedly by alternately turning on and off at the maximum luminance.

  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 game hall via the external terminal. The hall computer that has received the information indicating that the setting change mode has been started displays the information of the pachinko machine 10 in the setting change mode on the management screen. After executing Step S11301, the process proceeds to Step S11302.

  In step S11302, control for displaying the lottery setting setting information on the information display unit 45z is started. Specifically, the lottery setting information is displayed on the information display unit 45z. Thereafter, the process proceeds to step S11303, and it is determined whether or not the setting information is a numerical value within a predetermined range. In this aspect, since the setting information set in the pachinko machine 10 has six levels from “1” to “6”, 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 proceeds to step S11305. On the other hand, when it is determined in step S11303 that the setting information is not a numerical value within a predetermined range (step S11303: NO), for example, when “0” or “7” is stored as the setting information, noise, or the like If information other than numerical values is stored in step S11304, the process advances to step S11304 to change the setting information to the initial value. In this aspect, “1” is stored as the initial value in the setting information. Thereafter, the process proceeds 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 to determine whether the setting change button has been pressed. If it is determined in step S11306 that the setting change button has been pressed (step S11306: YES), the process advances to step S11307 to update the lottery setting setting information. Specifically, 1 is added to the numerical information stored as the setting information. However, when the setting change button is pressed in a situation where the numerical information stored as the 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 or not 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 of step S11307, and the setting information is a predetermined value. It is determined whether the numerical value is within the range.

  If it is determined in step S11305 described above that the RAM clear button has been pressed (step S11305: YES), the process proceeds to step S11308, and it is determined whether or not the setting key is on the OFF side. If it is determined in step S11308 that the setting key is not on 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 on the OFF side (step S11308: YES), the process proceeds to step S11309. That is, after the RAM clear button is pressed, the infinite loop is repeated until the setting key is turned off, and the process does not proceed to step S11309. When the setting key is turned off, the process proceeds to step S11309.

  In step S11309, the control for displaying the lottery setting setting information on the information display unit 45z ends. Thereafter, the process proceeds to step S11310.

  In step S11310, a setting change notification end process is executed. In the setting change notification end process, a setting change mode end command, which is a command indicating that the setting change mode is ended, is transmitted to the sound emission control device 90. When receiving the setting change mode end command, the sound emission control device 90 ends the various controls for notifying that the setting change mode is in progress.

  Further, in the setting change notification end process, information indicating that the setting change mode is ended is transmitted to the hall computer of the game hall via the external terminal. The hall computer that has received the information indicating that the setting change mode has ended displays information indicating that the setting change mode of the pachinko machine 10 has ended on the management screen. After executing step S11310, the setting change process is terminated. After executing the setting change notification end processing, the configuration information of the lottery setting after the change is transmitted to the hall computer of the game hall via the external terminal, and the hall computer that has received the information displays the management screen on the management screen. It is good also as a structure which displays the setting information of the lottery setting after the change of the pachinko machine 10. FIG.

  FIG. 53 is a flowchart illustrating a setting confirmation process executed by the main MPU 62 (main CPU 62x) according to the aspect 87 of the first embodiment. This setting confirmation process is executed as a subroutine of step S11215 of FIG.

  In step S11401, a setting confirmation notification start process 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 is started, is transmitted to the sound 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 it is in the setting confirmation mode. Specifically, for example, a sound such as “in the setting confirmation mode” is repeatedly output from the speaker 46. In addition, when receiving the setting confirmation mode start command, the sound emission control device 90 causes the symbol display device 41 to display information indicating that it is in the setting confirmation mode. Specifically, for example, the sound emission control device 90 transmits a command for causing the symbol display device 41 to display a character string such as “in setting confirmation mode” to the display control device 100, and the display that has received the command. The control device 100 causes the symbol display device 41 to display a character string such as “in setting confirmation mode”. In addition, when receiving the setting confirmation mode start command, the sound emission control device 90 controls the various lamps 47 so as to blink repeatedly by alternately turning on and off at the maximum luminance.

  Further, 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 game hall via the external terminal. The hall computer that has received the information indicating that the setting confirmation mode has been started displays the information of the pachinko machine 10 in the setting confirmation mode on the management screen. After executing Step S11401, the process proceeds to Step S11402.

  In step S11402, control for displaying the lottery setting setting information on the information display unit 45z is started. Specifically, the lottery setting information is blinked and displayed on the information display unit 45z. Thereafter, the process proceeds to step S11403.

  In step S11403, it is determined whether the setting key is on the OFF side. If it is determined in step S11403 that the setting key is not OFF (step S11403: NO), step S11403 is executed again. On the other hand, if it is determined in step S11403 that the setting key is on the OFF side (step S11403: YES), the process proceeds to step S11404. That is, the infinite loop is repeated until the setting key becomes OFF, and the process does not proceed to step S11404. When the setting key becomes OFF, the process proceeds to step S11404.

  In step S11404, the control for displaying the lottery setting setting information on the information display unit 45z ends. Thereafter, the process proceeds to step S11405.

  In step S11405, a setting confirmation notification end process is executed. In the setting confirmation notification end process, a setting confirmation mode end command, which is a command indicating that the setting confirmation mode is ended, is transmitted to the sound emission control device 90. When receiving the setting confirmation mode end command, the sound emission control device 90 ends the various controls for notifying that the above-described setting confirmation mode is in progress.

  Further, in the setting confirmation notification end process, information indicating that the setting confirmation mode is ended is transmitted to the hall computer of the game hall via the external terminal. The hall computer that has received the information indicating that the setting check mode has ended displays information indicating that the setting check mode of the pachinko machine 10 has ended on the management screen. After executing step S11405, the setting confirmation process is terminated.

  As described above, in this aspect, the pachinko machine 10 has all of the setting key, the frame opening switch, and the door opening switch turned on when the power is turned on (when the power is turned on), and When the RAM clear switch is turned on, the setting change mode is executed. On the other hand, when the power is turned on (when the power is turned on), the setting key, the frame opening switch, and the door opening switch are all turned on. When the RAM clear switch is OFF, the setting confirmation mode is executed. That is, in this aspect, the pachinko machine 10 that has already been started (for example, executing the game progress mode) cannot be shifted to the setting change mode or the setting confirmation mode while the power is on. In order to shift the activated pachinko machine 10 to the setting change mode or the setting confirmation mode, the power of the pachinko machine 10 must be turned off and then turned on again while performing the above-described predetermined operation. It is configured as follows.

  Generally, in the game hall, the equipment layout is such that a person other than the administrator cannot operate the power switch provided on the back side of the pachinko machine 10, so that it has the purpose of obtaining illegal profits. Even if there is a person who changes or confirms the lottery setting of the pachinko machine 10 (hereinafter also referred to as an unauthorized person), an unauthorized person who is not an administrator can use a power supply provided on the back side of the pachinko machine 10. 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 the setting confirmation mode.

  Furthermore, in this aspect, when the pachinko machine 10 is turned on, a sound and an alarm sound indicating that the pachinko machine 10 has been activated are output from the speaker 46, so that an unauthorized person is not aware of the surroundings and is selected by lottery. Can be made more difficult to change or confirm. As a result, it is possible to prevent an unauthorized person from changing or confirming the lottery setting illegally.

  Furthermore, in this aspect, in order to shift the pachinko machine 10 to the setting change mode or the setting confirmation mode, the inner frame 13 and the front door frame 14 need to be opened, so that unauthorized persons are not noticed by the surroundings. It is even more difficult to change or confirm the lottery setting. As a result, it is possible to prevent an unauthorized person from changing or confirming the lottery setting illegally.

  Further, in this aspect, during the start-up process from when the power of the pachinko machine 10 is turned on until the execution of the game progress mode is started (the period during which the process from step S11201 to step S11228 in FIG. 51 is being executed) In the middle), the game history information is not displayed on the information display unit 45z, and the setting information of the lottery setting is displayed when the setting change mode or the setting confirmation mode is executed. That is, during the start-up process, the game history information is not displayed on the information display unit 45z, and only the setting information for the lottery setting can be displayed. Therefore, it is possible to prevent the manager from wondering whether the information displayed on the information display unit 45z is the lottery setting information or the game history information during the start-up process. It is possible to prevent the administrator from misinterpreting the setting information displayed on the information display unit 45z as game history information.

  Furthermore, in this aspect, even when an operation for executing the setting confirmation mode is performed when the power is turned on, it is determined whether or not the RAM determination value of the main RAM 64 is normal, and the RAM determination is performed. If it is determined that the value is not normal, the setting confirmation mode is not executed, the main RAM 64 is informed of an abnormality, and the game is not shifted to the game progress mode in which the game can proceed. Therefore, the setting confirmation mode and the game progress mode are executed while leaving the possibility that the setting information of the lottery setting stored in the main RAM 64 has an abnormal value not intended by the administrator. Can be suppressed.

  Furthermore, in this aspect, the operation for executing the setting change mode includes an operation of pressing the RAM clear button, and the pachinko machine 10 executes the RAM clear process ( The first RAM clear process or the second RAM clear process) is executed. 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 a RAM clear process when executing the setting change mode. In general, an administrator who manages the pachinko machine 10 recognizes that the RAM clear process is executed when the power of the pachinko machine 10 is turned on while the RAM clear button is pressed. 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 the RAM clear process is executed. It is possible to strongly recognize that it is done. As a result, for example, when the administrator wants to start 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 previously turned off, that is, the pachinko machine 10 When the RAM clear process should not be executed at the time of startup, it can be ensured that the setting change mode accompanying the execution of the RAM clear process should not be executed.

  Furthermore, in this aspect, among the information stored in the main RAM 64, it is possible to execute a first RAM clear process that does not erase the lottery setting information and a second RAM clear process that erases the setting information. Of the information stored in the main-side RAM 64, the processing steps corresponding to both the processing steps to leave the setting information and delete other information and the processing steps to delete including the setting information Can be realized. For example, if the setting information is normal and maintained, and other information is a processing step that should be deleted, the first RAM clear process is executed, and the setting information becomes an abnormal value that is not intended by the administrator. In the case of a processing step that may be trapped, a configuration for executing the second RAM clear processing can be realized.

  Furthermore, in this aspect, when the pachinko machine 10 determines that the power recovery flag is not ON and the RAM determination value is not normal when the power is turned ON, the main RAM 64 is After notifying that there is an abnormality, the game does not shift to the game progress mode in which the game can proceed. Then, after turning off the power of the pachinko machine 10 and turning it on again, an operation for executing the setting change mode is performed and the setting change mode is not 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 with the possibility that the setting information of the lottery setting stored in the main RAM 64 has an abnormal value unintended by the administrator. it can.

  Furthermore, in this aspect, when executing the setting change mode, the RAM clear process is executed. Therefore, the information stored in the main RAM 64 after the lottery setting is changed and the main lottery setting before the lottery setting is changed. It is possible to suppress the occurrence of a malfunction in the progress of the game due to inconsistency with the information stored in the side RAM 64.

  In this aspect, the first RAM clear process is executed in step S11224 in FIG. 51 and then the setting change process (setting change mode) is executed in step S11225. However, instead of this configuration, a setting change process ( The first RAM clear process may be executed after executing the setting change mode. With such a configuration, various flag information indicating various game states and various control information stored in the main RAM 64 are deleted while maintaining the lottery setting setting information set by the setting change process. Can do. Further, when it is determined in step S11223 in FIG. 51 that the RAM abnormality flag is not ON, the setting change process is performed after the first RAM clear process is executed after the setting change process (setting change mode) is executed. When the setting key is turned to the OFF side and removed from the setting key hole without changing the lottery setting (or without confirming the changed setting information) in (setting change mode), the first RAM clear process It is good also as a structure which transfers to game progress mode, without performing. According to such a configuration, the setting change process (setting change mode) is executed by turning on the power while pressing the RAM clear button while the setting key is accidentally turned to the ON side unintentionally. Even if it is a case, by not changing the setting information of the lottery setting (or not confirming the changed setting information), the execution of the first RAM clear process is avoided, and the game progresses from the state when the power is turned off last time. The mode can be resumed.

  Further, in this aspect, after the first RAM clear process is executed in step S11224 in FIG. 51, the setting change process (setting change mode) is executed in step S11225. Instead of this structure, the second RAM clear process is executed. It is good also as a structure which performs a setting change process (setting change mode) after performing. Even in such a configuration, after the lottery setting is erased by the second RAM clear process and the initial value (for example, “1”) is stored as the setting information, the lottery setting is changed to the desired setting information by the setting change process. Therefore, it is possible to avoid the game progress mode being executed while the lottery setting setting information is kept at the initial value (for example, “1”).

  Further, in this aspect, after the second RAM clear process is executed in step S11227 in FIG. 51, the setting change process (setting change mode) is executed in step S11228. However, instead of this configuration, a setting change process ( The first RAM clear process may be executed after executing the setting change mode. With such a configuration, it is possible to erase various information stored in the main RAM 64 determined to be abnormal while maintaining the lottery setting setting information set by the setting change process.

  Further, in this aspect, after the second RAM clear process is executed in step S11227 in FIG. 51, the setting change process (setting change mode) is executed in step S11228. Instead of this structure, the first RAM clear process is executed. It is good also as a structure which performs a setting change process (setting change mode) after performing. According to such a configuration, the lottery setting information is an abnormal value, and the lottery setting information is maintained at an abnormal value even after execution of the first RAM clear process. In addition, the setting information of the lottery setting can be reset to an appropriate value by the setting change process (setting change mode).

  Moreover, in this aspect, when it is determined in step S11210, step S11214, and step S11220 in FIG. 51 that the RAM abnormality flag is ON, the RAM abnormality notification process is executed and the game progress mode is not shifted. However, instead of this configuration, if it is determined in step S11210, step S11214, and step S11220 that the RAM abnormality flag is ON, after executing the RAM abnormality notification process, the second RAM clear process is executed and the lottery setting is performed. The setting information may be set to an initial value (eg, “1”), and then the game progress mode may be entered.

  Further, in this aspect, after executing the setting confirmation process (setting confirmation mode) in step S11215 of 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 confirmation process (setting confirmation mode) may be performed after the power recovery process and the process of turning off the power recovery flag are performed.

  Further, in this aspect, the setting information is updated when the setting change button is pressed in step S11306 in FIG. 52, and the setting information is confirmed when the RAM clear button is pressed in step S11305. The operation for updating and confirming 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 continuously pressed for a predetermined time or more. A configuration may be adopted. According to this configuration, since the setting change button can be omitted, the manufacturing cost of the pachinko machine 10 can be reduced. The setting information may be determined when the setting key is turned off, and the setting information is determined when a game ball is detected by a ball detection sensor provided at a predetermined ball entrance. It is good also as a structure.

  Further, in this aspect, the condition for executing the setting change mode and the setting confirmation mode is configured such that the inner frame 13 and the front door frame 14 are in the open state. It is not essential for the condition that the door frame 14 is in the open state. For example, it is included in the condition 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. It is good also as a structure which is not included, and it is good also as a structure which is included in the said condition that it is included in the said condition that the front door frame 14 is an open state, and the inner frame 13 is an open state. Also, neither the inner frame 13 nor the front door frame 14 may be configured to be included in the conditions.

  Further, in this mode, the setting information displayed on the information display unit 45z in the setting change mode is a display mode that lights up, and the setting information displayed on the information display unit 45z in the setting check mode is a display mode that flashes. Although 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 unit 45z in the setting change mode is a flashing display mode and is in the setting confirmation mode. The setting information displayed on the information display unit 45z may be configured to be in a display mode that lights up.

  In addition, in this aspect, after the setting change mode and the setting confirmation mode are finished, the game progress mode is executed as it is, but instead of this configuration, after the setting change mode and the setting confirmation mode are finished, A predetermined operation for executing the setting change mode and the setting confirmation mode by temporarily turning off the power of the pachinko machine 10 without shifting the game progress mode to the standby state where the game cannot proceed. It is good also as a structure which performs game progress mode, when a power supply is turned on without performing.

  Further, in this aspect, in step S11302 of the setting change process (FIG. 52), the lottery setting setting information (for example, setting information at the time of the previous power-off) stored in the main RAM 64 is lit on the information display unit 45z. However, instead of this configuration, the lottery setting setting information at the start of the setting change process, regardless of the value of the lottery setting setting information stored in the main RAM 64 May be set to an initial value (for example, “1”), and the setting information set to the initial value may be lit and displayed on the information display unit 45z. With such a configuration, the RAM clear process for erasing (clearing to 0) all information including the lottery setting setting information among the information stored in the main RAM 64 is executed before the setting change process is executed. It becomes possible to do.

  Further, in this aspect, during the period in which the inner frame 13 is in the open state, the inner frame 13 is set regardless of whether the setting change process (setting change mode) or the setting check process (setting check mode) is being executed. It is good also as a structure which keeps alert | reporting that is an open state. Specifically, for example, a sound such as “the inner frame is open” or a predetermined alarm sound is output from the speaker 46. Similarly, during the period in which the front door frame 14 is in the open state, the front door frame 14 is not related to whether the setting change process (setting change mode) or the setting check process (setting check mode) is being executed. It is good also as a structure which keeps alert | reporting that it is an open state. Specifically, for example, a sound such as “the door is open” or a predetermined alarm sound is output from the speaker 46. According to such a configuration, it is even more difficult for an unauthorized person to make the pachinko machine 10 execute the setting change process (setting change mode) and the setting check process (setting check mode) without being noticed by the surroundings. it can.

<Aspect 88>
In the above aspect 87, when the pachinko machine 10 determines that the power recovery flag is not ON and the RAM determination value is not normal when the power is turned on, the main RAM 64 is abnormal. However, instead of this configuration, when the power is turned on, the power recovery flag is not ON. When the determination is made and when it is determined that the RAM determination value is not normal, even if the operation for executing the setting change mode is not performed, it is notified that the main RAM 64 is abnormal. Then, it is good also as a structure which performs setting change mode and transfers to game progress mode after that. This will be specifically described below.

  FIG. 54 is a flowchart illustrating a part of main processing that is executed by the main MPU 62 (main CPU 62x) of the aspect 88 of the first embodiment when the power is turned on.

  In step S11501, an initial setting process associated with power-on is executed. Specifically, a predetermined value is set in advance in the stack pointer of the main CPU 62x, and the sub-side control devices (the sound emission control device 90, the display control device 100, the payout control device 70, etc.) are operable. In order to wait for the state to be reached, a wait process is executed for about 1 second, for example. Then, access to the main RAM 64 is permitted. Thereafter, the process proceeds to step S11502, and internal function register setting processing is executed. Then, it progresses to step S11503 and the process for alert | reporting that the said pachinko machine 10 was turned on and started is performed. Specifically, an activation command indicating that the pachinko machine 10 has been activated is transmitted to the sound emission control device 90. When receiving the activation command, the sound emission control device 90 executes a process for notifying that the pachinko machine 10 has been activated. Specifically, for example, a sound such as “being activated” or a predetermined alarm sound is output from the speaker 46. After executing Step S11503, the process proceeds to Step S11504.

  In step S11504, it is determined whether the power recovery flag is ON.

  Here, the power recovery flag will be described. In this aspect, when the power switch of the pachinko machine 10 is turned off or when a power failure occurs, various information (information indicating the game state, control information, etc.) stored in the register of the main CPU 62x is mainly used. Retreat to a predetermined area of the side RAM 64. When the saving of these pieces of information to the main RAM 64 is completed, the power recovery flag is turned ON, a RAM determination value (for example, a checksum value) is calculated, and the calculated RAM determination value is stored in the main RAM 64. Remember. Note that after the supply of power from the commercial power supply is cut off, the power supply is switched from the backup power supply such as a capacitor. Thus, the power recovery flag is a flag for identifying at the time of power-on whether or not information for returning to the state when the power was turned off last time is stored in the main RAM 64.

  If it is determined in step S11504 that the power recovery flag is ON (step S11504: YES), the process proceeds to step S11505, and the RAM determination value of the main RAM 64 is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. Thereafter, the process proceeds to step S11506, whether or not the calculated RAM determination value (checksum value) is normal, that is, the calculated RAM determination value (checksum value) and the RAM determination value stored in the main RAM 64 ( It is determined whether or not the checksum value matches. If it is determined in step S11506 that the RAM determination value is normal (step S11506: YES), the process proceeds 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 proceeds to step S11508, and whether or not all of the setting key, the frame opening switch, and the door opening switch are ON. Determine. The frame opening switch is a switch that is turned on when the inner frame 13 is open with respect to the outer frame 11, and the door opening switch is a state where the front door frame 14 is open with respect to the inner frame 13. It is a switch that is sometimes turned on.

  If it is determined in step S11508 that at least one of the setting key, the frame opening switch, and the door opening switch is not ON (step S11508: NO), the process proceeds to step S11509 to return to the previous power-off state. Execute power recovery processing. Specifically, in the power recovery process, the value of the stack pointer stored in the main RAM 64 is written into the stack pointer of the main CPU 62x, and the data saved in the main RAM 64 is restored to the register of the main CPU 62x. Then, the state of the register of the main CPU 62x is restored to the state before the power is shut off. After executing step S11509, the process proceeds to step S11510, and the power recovery flag of the main RAM 64 is turned OFF. After that, the process shifts to normal game processing. Specifically, for example, the interrupt permission setting, the interrupt prohibition setting, the random number update process, and the power supply monitoring process (power failure monitoring process) of the timer interrupt process described in each aspect described above are executed. By allowing the interrupt of the timer interrupt process and executing the above-described timer interrupt process, the game can proceed (the game progress mode is started).

  On the other hand, if it is determined in step S11508 described above that all of the setting key, the frame opening switch, and the door opening switch are ON (step S11508: YES), the process proceeds to step S11511 to execute setting confirmation processing. . The details of the setting confirmation processing (setting confirmation mode) are the same as the setting confirmation processing shown in FIG. After executing Step S11511, the process proceeds to Step S11512, where the power recovery process described above is executed to return to the previous power-off state. Thereafter, the process proceeds to step S11513, and the power recovery flag is turned OFF. After that, the process shifts to normal game processing. Specifically, for example, the interrupt permission setting, the interrupt prohibition setting, the random number update process, and the power supply monitoring process (power failure monitoring process) of the timer interrupt process described in each aspect described above are executed. By allowing the interrupt of the timer interrupt process and executing the above-described timer interrupt process, the game can proceed (the game progress mode is started).

  If it is determined in step S11507 described above that the RAM clear button is ON (step S11507: YES), the process proceeds to step S11514, and all of the setting key, frame opening switch, and door opening switch are ON. Determine whether or not.

  If it is determined in step S11514 that at least one of the setting key, the frame opening switch, and the door opening switch is not ON (step S11514: NO), the process proceeds to step S11515.

  In step S11515, a first RAM clear process is executed. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main RAM 64 except for the lottery setting information. That is, when the first RAM clear process is executed, various flag information indicating various gaming states, various control information, and the like are erased, but the lottery setting information is not erased, and the setting information is maintained as it is. Further, in this aspect, in the first RAM clear process, a first RAM clear process execution command, which is a command indicating that the first RAM clear process has been executed, is transmitted to the sound emission control device 90. When receiving the first RAM clear process execution command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the first RAM clear process has been executed. Specifically, for example, a sound such as “RAM cleared” is output from the speaker 46. After executing step S11515, the process proceeds to the normal game process described above.

  If it is determined in step S11514 described above that all of the setting key, the frame opening switch, and the door opening switch are ON (step S11514: YES), the process proceeds to step S11516, and the first RAM clearing process described above is executed. To do. Thereafter, the process proceeds to step S11517 to execute a setting change process. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. After executing step S11517k, the process proceeds to the normal game process described above.

  On the other hand, if it is determined in step S11504 that the power recovery flag is not ON (step S11504: NO) and if it is determined in step S11506 that the RAM determination value is not normal (step S11506: NO). ), And proceeds to step S11518 to execute a RAM abnormality notification process. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal” is output from the speaker 46. After executing Step S11518, the process proceeds to Step S11519.

  In step S11519, a second RAM clear process is executed. The second RAM clearing process is a process of erasing (clearing to 0) all information including the lottery setting setting information among the information stored in the main RAM 64. That is, when the second RAM clear process is executed, the lottery setting information is deleted in addition to the various flag information indicating the gaming state and the various control information. In the second RAM clear process of this aspect, “1” is stored as the initial value of the setting information after the setting information is erased. Thereafter, the process proceeds to step S11520, and setting change processing is executed. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. After executing step S11520, the process proceeds to the normal game process described above.

  As described above, according to this aspect, even when the operation for executing the setting change mode is not performed when the power is turned on, it is determined that the power recovery flag is not ON, and The main RAM 64 determines whether or not the RAM determination value is normal. If it is determined that the RAM determination value is not normal, the main RAM 64 is informed of the abnormality and then the second RAM is cleared. After executing the processing and the setting change mode and confirming the setting information, the process proceeds to the game progress mode in which the game can proceed. Therefore, it is possible to prevent the game progress mode from being executed with the possibility that the setting information of the lottery setting stored in the main RAM 64 has an abnormal value unintended by the administrator. it can.

  For example, even when an operation for executing the setting confirmation mode is performed when the power is turned on, when it is determined that the power recovery flag is not ON, and the RAM determination value of the main RAM 64 is normal. If the RAM determination value is not normal, the second RAM clear process is performed after notifying that the main RAM 64 is abnormal without executing the setting confirmation mode. Then, after executing the setting change mode and confirming the setting information, the game shifts to the game progress mode in which the game can proceed. Therefore, it is possible to prevent the game progress mode from being executed with the possibility that the setting information of the lottery setting stored in the main RAM 64 has an abnormal value unintended by the administrator. it can.

<Aspect 89>
In the main process (FIG. 51) in the above aspect 87, after determining whether or not the RAM clear button is pressed (step S11208), whether all of the setting key, the frame opening switch, and the door opening switch are ON. (Step S11209 and step S11219), but instead of this configuration, after determining whether all of the setting key, the frame opening switch, and the door opening switch are ON, the RAM It may be configured to determine whether or not the clear button is pressed. This will be specifically described below.

  FIG. 55 is a flowchart showing a part of main processing executed by the main MPU 62 (main CPU 62x) of the aspect 89 of the first embodiment when the power is turned on.

  In step S11601, an initial setting process associated with power-on is executed. Specifically, a predetermined value is set in advance in the stack pointer of the main CPU 62x, and the sub-side control devices (the sound emission control device 90, the display control device 100, the payout control device 70, etc.) are operable. In order to wait for the state to be reached, a wait process is executed for about 1 second, for example. Then, access to the main RAM 64 is permitted. Thereafter, the process proceeds to step S11602, and internal function register setting processing is executed. Then, it progresses to step S11603 and the process for alert | reporting that the said pachinko machine 10 was turned on and started is performed. Specifically, an activation command indicating that the pachinko machine 10 has been activated is transmitted to the sound emission control device 90. When receiving the activation command, the sound emission control device 90 executes a process for notifying that the pachinko machine 10 has been activated. Specifically, for example, a sound such as “being activated” or a predetermined alarm sound is output from the speaker 46. After executing Step S11603, the process proceeds to Step S11604.

  In step S11604, it is determined whether the power recovery flag is ON.

  Here, the power recovery flag will be described. In this aspect, when the power switch of the pachinko machine 10 is turned off or when a power failure occurs, various information (information indicating the game state, control information, etc.) stored in the register of the main CPU 62x is mainly used. Retreat to a predetermined area of the side RAM 64. When the saving of these pieces of information to the main RAM 64 is completed, the power recovery flag is turned ON, a RAM determination value (for example, a checksum value) is calculated, and the calculated RAM determination value is stored in the main RAM 64. Remember. Note that after the supply of power from the commercial power supply is cut off, the power supply is switched from the backup power supply such as a capacitor. Thus, the power recovery flag is a flag for identifying at the time of power-on whether or not information for returning to the state when the power was turned off last time is stored in the main RAM 64.

  If it is determined in step S11604 that the power recovery flag is ON (step S11604: YES), the process proceeds to step S11605, and the RAM determination value of the main RAM 64 is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. Thereafter, the process proceeds to step S11606, whether or not the calculated RAM determination value (checksum value) is normal, that is, the calculated RAM determination value (checksum value) and the RAM determination value stored in the main RAM 64 ( It is determined whether or not the checksum value matches. If it is determined in step S11606 that the RAM determination value is normal (step S11606: YES), the process proceeds to step S11608 described later.

  On the other hand, if it is determined in step S11604 that the power recovery flag is not ON (step S11604: NO) and if it is determined in step S11606 that the RAM determination value is not normal (step S11606: NO). ), The process proceeds to step S11607, and the RAM abnormality flag is turned ON. That is, the RAM abnormality flag is a flag that is turned on when the power recovery flag is OFF or when the power recovery flag is ON but the RAM determination value is not normal. Information stored in the main RAM 64 is stored in the RAM abnormality flag. It is a flag indicating that the state is not normal. After executing step S11607, the process proceeds to step S11608.

  In step S11608, it is determined whether all of the setting key, the frame opening switch, and the door opening switch are ON. The frame opening switch is a switch that is turned on when the inner frame 13 is open with respect to the outer frame 11, and the door opening switch is a state where the front door frame 14 is open with respect to the inner frame 13. It is a switch that is sometimes turned on. If it is determined in step S11608 that at least one of the setting key, the frame opening switch, and the door opening switch is not ON (step S11608: NO), the process proceeds to step S11609, and whether the RAM clear button is ON. Determine whether.

  If it is determined in step S11609 that the RAM clear button is not ON (step S11609: NO), the process proceeds to step S11610, and it is determined whether the RAM abnormality flag is ON.

  If it is determined in step S11610 that the RAM abnormality flag is not ON (step S11610: NO), the process proceeds to step S11611 to execute a power recovery process for returning to the previous power-off state. Specifically, in the power recovery process, the value of the stack pointer stored in the main RAM 64 is written into the stack pointer of the main CPU 62x, and the data saved in the main RAM 64 is restored to the register of the main CPU 62x. Then, the state of the register of the main CPU 62x is restored to the state before the power is shut off. After executing step S11611, the process proceeds to step S11612, and the power recovery flag of the main RAM 64 is turned off. After that, the process shifts to normal game processing. Specifically, for example, the interrupt permission setting, the interrupt prohibition setting, the random number update process, and the power supply monitoring process (power failure monitoring process) of the timer interrupt process described in each aspect described above are executed. By allowing the interrupt of the timer interrupt process and executing the above-described timer interrupt process, the game can proceed (the 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 proceeds to step S11613 to execute a RAM abnormality notification process. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal. Please start in the setting change mode” is repeatedly output from the speaker 46. After executing Step S11613, the process proceeds to the normal game process described above. However, in the pachinko machine 10 of this aspect, when the RAM abnormality flag is ON, random number update processing and power supply monitoring processing (power failure monitoring processing) are executed, but other processing (for example, start-up) required for the progress of the game is performed. The entrance ball processing and game times control processing are not executed. Specifically, in this aspect, when the RAM abnormality flag is ON, the timer interrupt permission setting is not performed. Therefore, although it is apparently equivalent to the normal game progress mode, the player cannot advance the game. That is, when the RAM abnormality flag is ON, the game progress mode is not shifted. In this state, the administrator turns off the power of the pachinko machine 10 once, inserts the setting key into the setting keyhole and turns it on, and turns on the power while pressing the RAM clear button. The pachinko machine 10 may be activated in the setting change mode.

  On the other hand, if it is determined in step S11609 described above that the RAM clear button is ON (step S11609: YES), the process proceeds 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 proceeds to step S11615.

  In step S11615, a first RAM clear process is executed. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main RAM 64 except for the lottery setting information. That is, when the first RAM clear process is executed, various flag information indicating various gaming states, various control information, and the like are erased, but the lottery setting information is not erased, and the setting information is maintained as it is. Further, in this aspect, in the first RAM clear process, a first RAM clear process execution command, which is a command indicating that the first RAM clear process has been executed, is transmitted to the sound emission control device 90. When receiving the first RAM clear process execution command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the first RAM clear process has been executed. Specifically, for example, a sound such as “RAM cleared” is output from the speaker 46. After executing step S11615, the process proceeds to the normal game process 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 proceeds to step S11616, and a RAM abnormality notification process is executed. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal. Please start in the setting change mode” is repeatedly output from the speaker 46. After executing step S11616, the process proceeds to the normal game process described above. However, as described above, in the pachinko machine 10 according to the present aspect, when the RAM abnormality flag is ON, the random number update process and the power supply monitoring process (power failure monitoring process) are executed. This process is not executed (for example, a starting ball entry process or a game turn control process). Specifically, in this aspect, when the RAM abnormality flag is ON, the timer interrupt permission setting is not performed. Therefore, although it is apparently equivalent to the normal game progress mode, the player cannot advance the game. That is, when the RAM abnormality flag is ON, the game progress mode is not shifted. In this state, the administrator turns off the power of the pachinko machine 10 once, inserts the setting key into the setting keyhole and turns it on, and turns on the power while pressing the RAM clear button. The pachinko machine 10 may be activated in the setting change mode.

  If it is determined in step S11608 described above that all of the setting key, the frame opening switch, and the door opening switch are ON (step S11608: YES), the process proceeds to step S11617, and whether the RAM clear button is ON. Determine whether or not.

  If it is determined in step S11617 that the RAM clear button is ON (step S11617: YES), the process proceeds 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 proceeds to step S11619, and setting confirmation processing is executed. In the setting confirmation process (setting confirmation mode), a process of displaying the current lottery setting setting information on the information display unit 45z is executed. That is, the setting confirmation mode is a mode in which an administrator or the like can confirm the current lottery setting setting information of the pachinko machine 10. The details of the setting confirmation processing (setting confirmation mode) are the same as the setting confirmation processing shown in FIG. After executing step S11619, the process proceeds to step S11620, where the power recovery process described above is executed to return to the previous power-off state. Thereafter, the process proceeds to step S11621 and the power recovery flag is turned OFF. After that, the process shifts to normal game processing. Specifically, for example, the interrupt permission setting, the interrupt prohibition setting, the random number update process, and the power supply monitoring process (power failure monitoring process) of the timer interrupt process described in each aspect described above are executed. By allowing the interrupt of the timer interrupt process and executing the above-described timer interrupt process, the game can proceed (the 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 proceeds to step S11622, and a RAM abnormality notification process is executed. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal. Please start in the setting change mode” is repeatedly output from the speaker 46. After executing step S11622, the process proceeds to the normal game process described above. However, as described above, in the pachinko machine 10 according to the present aspect, when the RAM abnormality flag is ON, the random number update process and the power supply monitoring process (power failure monitoring process) are executed. This process is not executed (for example, a starting ball entry process or a game turn control process). Specifically, in this aspect, when the RAM abnormality flag is ON, the timer interrupt permission setting is not performed. Therefore, although it is apparently equivalent to the normal game progress mode, the player cannot advance the game. That is, when the RAM abnormality flag is ON, the game progress mode is not shifted. In this state, the administrator turns off the power of the pachinko machine 10 once, inserts the setting key into the setting keyhole and turns it on, and turns on the power while pressing the RAM clear button. The pachinko machine 10 may be activated in the setting change mode.

  If it is determined in step S11217 that the RAM clear button is ON (step S11217: YES), the process proceeds 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 proceeds to step S11624, and the first RAM clear process described above is executed. Then, it progresses to step S11625 and performs a setting change process. In the setting change process (setting change mode), a process of displaying the lottery setting setting information on the information display unit 45z is executed and a process of accepting a change of the lottery setting information is executed. That is, the setting change mode is a mode in which an administrator or the like can change the lottery setting setting information 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. After executing step S11625, the process proceeds to the normal game process 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 proceeds to step S11626 to execute a RAM abnormality notification process. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal” is output from the speaker 46. After executing Step S11626, the process proceeds to Step S11627.

  In step S11627, a second RAM clear process is executed. The second RAM clearing process is a process of erasing (clearing to 0) all information including the lottery setting setting information among the information stored in the main RAM 64. That is, when the second RAM clear process is executed, the lottery setting information is deleted in addition to the various flag information indicating the gaming state and the various control information. Here, when the RAM abnormality flag is ON, the reason for executing the second clear process for erasing the setting information instead of the first clear process will be described. If the RAM abnormality flag is ON, the setting information stored in the main RAM 64 may not be normal. For example, the setting information may be overwritten by setting information not intended by the administrator due to noise or the like. This is because there is a possibility that numerical values outside the predetermined range may be stored although only numerical values within a predetermined range (for example, numerical values from 1 to 6) can be obtained. In the second RAM clear process of this aspect, “1” is stored as the initial value of the setting information after the setting information is erased. The RAM abnormality flag is also turned OFF by the second clear process. Then, it progresses to step S11628 and performs a setting change process. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. After executing step S11628, the process proceeds to the normal game process described above.

  Even with the configuration of the present aspect described above, the same effects as those of the above-described aspect 87 can be achieved. Moreover, the various deformation | transformation structures demonstrated in the said aspect 87 are also applicable to this aspect.

<Aspect 90>
In the main process (FIG. 54) in the above-described aspect 88, after determining whether or not the RAM clear button is pressed (step S11507), whether all of the setting key, the frame opening switch, and the door opening switch are ON. (Step S11508 and step S11514), but instead of this configuration, after determining whether all of the setting key, the frame opening switch, and the door opening switch are ON, the RAM It may be configured to determine whether or not the clear button is pressed. This will be specifically described below.

  FIG. 56 is a flowchart illustrating a part of main processing executed by the main MPU 62 (main CPU 62x) according to the aspect 90 of the first embodiment when the power is turned on.

  In step S11701, an initial setting process associated with power-on is executed. Specifically, a predetermined value is set in advance in the stack pointer of the main CPU 62x, and the sub-side control devices (the sound emission control device 90, the display control device 100, the payout control device 70, etc.) are operable. In order to wait for the state to be reached, a wait process is executed for about 1 second, for example. Then, access to the main RAM 64 is permitted. Thereafter, the process proceeds to step S11702, and internal function register setting processing is executed. Then, it progresses to step S11703 and the process for alert | reporting that the said pachinko machine 10 was turned on and started is performed. Specifically, an activation command indicating that the pachinko machine 10 has been activated is transmitted to the sound emission control device 90. When receiving the activation command, the sound emission control device 90 executes a process for notifying that the pachinko machine 10 has been activated. Specifically, for example, a sound such as “being activated” or a predetermined alarm sound is output from the speaker 46. After executing Step S11703, the process proceeds to Step S11704.

  In step S11704, it is determined whether the power recovery flag is ON.

  Here, the power recovery flag will be described. In this aspect, when the power switch of the pachinko machine 10 is turned off or when a power failure occurs, various information (information indicating the game state, control information, etc.) stored in the register of the main CPU 62x is mainly used. Retreat to a predetermined area of the side RAM 64. When the saving of these pieces of information to the main RAM 64 is completed, the power recovery flag is turned ON, a RAM determination value (for example, a checksum value) is calculated, and the calculated RAM determination value is stored in the main RAM 64. Remember. Note that after the supply of power from the commercial power supply is cut off, the power supply is switched from the backup power supply such as a capacitor. Thus, the power recovery flag is a flag for identifying at the time of power-on whether or not information for returning to the state when the power was turned off last time is stored in the main RAM 64.

  If it is determined in step S11704 that the power recovery flag is ON (step S11704: YES), the process proceeds to step S11705, and the RAM determination value of the main RAM 64 is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. Thereafter, the process proceeds to step S11706, and whether or not the calculated RAM determination value (checksum value) is normal, that is, the calculated RAM determination value (checksum value) and the RAM determination value stored in the main RAM 64 ( It is determined whether or not the checksum value matches. If it is determined in step S11706 that the RAM determination value is normal (step S11706: YES), the process proceeds to step S11707.

  In step S11707, it is determined whether all of the setting key, the frame opening switch, and the door opening switch are ON. The frame opening switch is a switch that is turned on when the inner frame 13 is open with respect to the outer frame 11, and the door opening switch is a state where the front door frame 14 is open with respect to the inner frame 13. It is a switch that is sometimes turned on. If it is determined in step S11707 that at least one of the setting key, the frame opening switch, and the door opening switch is not ON (step S11707: NO), the process proceeds to step S11708, and whether the RAM clear button is ON. Determine whether.

  If it is determined in step S11708 that the RAM clear button is not ON (step S11708: NO), the process proceeds to step S11709, and a power recovery process for returning to the previous power-off state is executed. Specifically, in the power recovery process, the value of the stack pointer stored in the main RAM 64 is written into the stack pointer of the main CPU 62x, and the data saved in the main RAM 64 is restored to the register of the main CPU 62x. Then, the state of the register of the main CPU 62x is restored to the state before the power is shut off. After executing step S11709, the process proceeds to step S11710, and the power recovery flag of the main RAM 64 is turned OFF. After that, the process shifts to normal game processing. Specifically, for example, the interrupt permission setting, the interrupt prohibition setting, the random number update process, and the power supply monitoring process (power failure monitoring process) of the timer interrupt process described in each aspect described above are executed. By allowing the interrupt of the timer interrupt process and executing the above-described timer interrupt process, the game can proceed (the game progress mode is started).

  On the other hand, if it is determined in step S11708 described above that the RAM clear button is ON (step S11708: YES), the process proceeds to step S11711 to execute the first RAM clear process. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main RAM 64 except for the lottery setting information. That is, when the first RAM clear process is executed, various flag information indicating various gaming states, various control information, and the like are erased, but the lottery setting information is not erased, and the setting information is maintained as it is. Further, in this aspect, in the first RAM clear process, a first RAM clear process execution command, which is a command indicating that the first RAM clear process has been executed, is transmitted to the sound emission control device 90. When receiving the first RAM clear process execution command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the first RAM clear process has been executed. Specifically, for example, a sound such as “RAM cleared” is output from the speaker 46. After executing step S11711, the process proceeds to the normal game process described above.

  If it is determined in step S11707 described above that all of the setting key, the frame opening switch, and the door opening switch are ON (step S11707: YES), the process proceeds to step S11712, and whether the RAM clear button is ON. Determine whether or not.

  If it is determined in step S11712 that the RAM clear button is not ON (step S11712: NO), the process proceeds to step S11713, and a setting confirmation process is executed. The details of the setting confirmation processing (setting confirmation mode) are the same as the setting confirmation processing shown in FIG. After executing step S11713, the process proceeds to step S11714, where the power recovery process described above is executed to return to the previous power-off state. Thereafter, the process proceeds to step S11715, and the power recovery flag is turned OFF. After that, the process shifts to normal game processing. Specifically, for example, the interrupt permission setting, the interrupt prohibition setting, the random number update process, and the power supply monitoring process (power failure monitoring process) of the timer interrupt process described in each aspect described above are executed. By allowing the interrupt of the timer interrupt process and executing the above-described timer interrupt process, the game can proceed (the game progress mode is started).

  If it is determined in step S11712 that the RAM clear button is ON (step S11712: YES), the process proceeds to step S11716, and the first RAM clear process described above is executed. Then, it progresses to step S11717 and performs a setting change process. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. After executing step S11717, the process proceeds to the normal game process described above.

  On the other hand, if it is determined in step S11704 that the power recovery flag is not ON (step S11704: NO) and if it is determined in step S11706 that the RAM determination value is not normal (step S11706: NO). ), The process proceeds to step S11718, and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal” is output from the speaker 46. After executing Step S11718, the process proceeds to Step S11719.

  In step S11719, a second RAM clear process is executed. The second RAM clearing process is a process of erasing (clearing to 0) all information including the lottery setting setting information among the information stored in the main RAM 64. That is, when the second RAM clear process is executed, the lottery setting information is deleted in addition to the various flag information indicating the gaming state and the various control information. In the second RAM clear process of this aspect, “1” is stored as the initial value of the setting information after the setting information is erased. Then, it progresses to step S11720 and performs a setting change process. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. After executing step S11720, the process proceeds to the normal game process described above.

  Even with the configuration of the present aspect described above, the same effects as those of the above-described aspect 88 can be achieved. Moreover, the various deformation | transformation structure demonstrated in the said 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 lottery setting setting information is determined when the RAM clear button is pressed (step S11305). However, instead of this configuration, a setting key is used. A configuration may be adopted in which the lottery setting setting information is confirmed when it is turned off. This will be specifically described below.

  FIG. 57 is a flowchart illustrating a setting change process executed by the main MPU 62 (main CPU 62x) according to the aspect 91 of the first embodiment. The same steps as those included in the setting change process shown in FIG. 52 are denoted by the same step numbers. The main difference from the setting change process shown in FIG. 52 is that the process for confirming the changed setting information in FIG. 52 is that the RAM clear button is pressed (step S11305). The process for confirming the changed setting information is that the setting key is set to the OFF side (step S11305a), and the process of step S11308 in FIG. 52 is omitted accordingly. This will be specifically described below.

  In step S11301, 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 been started, is transmitted to the sound emission control device 90. When receiving the setting change mode start command, the sound emission control device 90 outputs a sound indicating that the setting change mode is in effect from the speaker 46. Specifically, for example, sound such as “in the setting change mode” is repeatedly output from the speaker 46. In addition, when receiving the setting change mode start command, the sound emission control device 90 causes the symbol display device 41 to display information indicating that it is in the setting change mode. Specifically, for example, the sound emission control device 90 transmits a command for causing the symbol display device 41 to display a character string such as “in setting change mode” to the display control device 100, and the display that has received the command. The control device 100 causes the symbol display device 41 to display a character string such as “in the setting change mode”. In addition, when receiving the setting change mode start command, the sound emission control device 90 controls the various lamps 47 so as to blink repeatedly by alternately turning on and off at the maximum luminance.

  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 game hall via the external terminal. The hall computer that has received the information indicating that the setting change mode has been started displays the information of the pachinko machine 10 in the setting change mode on the management screen. After executing Step S11301, the process proceeds to Step S11302.

  In step S11302, control for displaying the lottery setting setting information on the information display unit 45z is started. Specifically, the lottery setting information is displayed on the information display unit 45z. Thereafter, the process proceeds to step S11303, and it is determined whether or not the setting information is a numerical value within a predetermined range. In this aspect, since the setting information set in the pachinko machine 10 has six levels from “1” to “6”, 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 proceeds to step S11305a. On the other hand, when it is determined in step S11303 that the setting information is not a numerical value within a predetermined range (step S11303: NO), for example, when “0” or “7” is stored as the setting information, noise, or the like If information other than numerical values is stored in step S11304, the process advances to step S11304 to change the setting information to the initial value. In this aspect, “1” is stored as the initial value in the setting information. Thereafter, the process proceeds to step S11305a.

  In step S11305a, it is determined whether the setting key is on the OFF side. If it is determined in step S11305a that the setting key is not on the OFF side (step S11305a: NO), the process advances to step S11306 to determine whether the setting change button has been pressed. If it is determined in step S11306 that the setting change button has been pressed (step S11306: YES), the process advances to step S11307 to update the lottery setting setting information. Specifically, 1 is added to the numerical information stored as the setting information. However, when the setting change button is pressed in a situation where the numerical information stored as the 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 or not 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 of step S11307, and the setting information is a predetermined value. It is determined whether the numerical value is within the range.

  In step S11305a described above, if it is determined that the setting key has been turned OFF (step S11305a: YES), the process proceeds to step S11309, and control for displaying the lottery setting setting information on the information display unit 45z is performed. finish. Thereafter, the process proceeds to step S11310.

  In step S11310, a setting change notification end process is executed. In the setting change notification end process, a setting change mode end command, which is a command indicating that the setting change mode is ended, is transmitted to the sound emission control device 90. When receiving the setting change mode end command, the sound emission control device 90 ends the various controls for notifying that the setting change mode is in progress.

  Further, in the setting change notification end process, information indicating that the setting change mode is ended is transmitted to the hall computer of the game hall via the external terminal. The hall computer that has received the information indicating that the setting change mode has ended displays information indicating that the setting change mode of the pachinko machine 10 has ended on the management screen. After executing step S11310, the setting change process is terminated. After executing the setting change notification end processing, the configuration information of the lottery setting after the change is transmitted to the hall computer of the game hall via the external terminal, and the hall computer that has received the information displays the management screen on the management screen. It is good also as a structure which displays the setting information of the lottery setting after the change of the pachinko machine 10. FIG.

  According to the configuration of the present aspect described above, an operation of pressing the RAM clear button to confirm the changed setting information can be omitted, so that an operation required for the administrator to change the setting information The process can be simplified.

<Aspect 92>
Of the above aspects, in the configuration in which the setting change mode and the setting confirmation mode can be executed, the main display unit 45 displays a game progress that allows the game to progress during the execution of the setting change mode and the setting confirmation mode. It is good also as a structure which displays the display pattern (display mode) which is not displayed during execution of mode. This will be specifically described below.

  As described above, the main display unit 45 includes a plurality of light emitting units. Specifically, the main display unit 45 includes a first symbol display unit 37a including a plurality of segment light emission units, a second symbol display unit 37b including a plurality of segment light emission units, and a first holding unit including a plurality of LED lamps. The display unit 37c includes a second holding display unit 37d including a plurality of LED lamps, a general-purpose unit 38 including a plurality of LED lamps, and a round display unit 39 including a plurality of LED lamps.

  The main display unit 45 controls each light emitting unit so that the display mode reflects the progress of the game during the execution of the game progress mode in which the game can be progressed. During the execution of the progress mode, all the light emitting units constituting the main display unit 45 are not lit at the same time, or all the light emitting units are not blinked in synchronization.

  Therefore, in this aspect, the main display unit 45 executes control to turn on all the light emitting units constituting the main display unit 45 simultaneously during execution of the setting change mode in which the setting information of the lottery setting can be changed. During the execution of the setting confirmation mode in which the setting information of the lottery setting can be confirmed, control is performed to flash all the light emitting units constituting the main display unit 45 in synchronization.

  According to such a configuration, it becomes possible for the administrator or the like to identify whether the current pachinko machine 10 is in the game progress mode, the setting change mode, or the setting confirmation mode. Furthermore, according to such a configuration, for example, it is not necessary to newly add a light emitting unit for mode display for identifying the current mode of the pachinko machine 10 to the main display unit 45. Only by 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 be identified.

  In addition, the main display unit 45 executes control to blink all the light emitting units constituting the main display unit 45 in synchronization during execution of the setting change mode in which the setting information of the lottery setting can be changed. During the execution of the setting confirmation mode in which the setting information can be confirmed, it is possible to perform a control for simultaneously turning on all the light emitting units constituting the main display unit 45.

  Further, if the display mode displayed on the main display unit 45 during execution of the setting change mode and the setting confirmation mode is a display mode (lighting pattern) that is not displayed during execution of the game progress mode, the main display unit It is not limited to a configuration in which all the light emitting units constituting 45 are turned on and blinking, and other display modes may be used.

  Further, one light-emitting unit (for example, LED) for mode display is added to the main display unit 45, the light-emitting unit is turned off while the game progress mode is being executed, and the light-emitting unit is turned on while the setting change mode is being executed. The light emitting unit may be blinked during execution of the setting confirmation mode. According to such a configuration, the current mode of the pachinko machine 10 can be clearly recognized by an administrator or the like, and the pachinko machine using the voice light emission control device 90, the display control device 100, and the symbol display device 41 can be used. Compared with the configuration for notifying the current mode of the machine 10, the configuration can be simplified.

  In addition, two light emitting units (for example, LEDs) for mode display are added to the main display unit 45 (first light emitting unit and second light emitting unit), and the first light emitting unit and the second light emitting unit are executed during the game progress mode. Both are turned off, the first light emitting unit is turned on during execution of the setting change mode, the second light emitting unit is turned off, and the second light emitting unit is turned on during execution of the setting confirmation mode. A configuration may be adopted in which the first light emitting unit is turned off. According to such a configuration, the current mode of the pachinko machine 10 can be clearly recognized by an administrator or the like, and the pachinko machine using the voice light emission control device 90, the display control device 100, and the symbol display device 41 can be used. Compared with the configuration for notifying the current mode of the machine 10, the configuration can be simplified. Furthermore, since it is only necessary to control the two light emitting units added to the main display unit 45, an increase in data capacity due to the addition of a control program or a lighting pattern can be suppressed.

<Aspect 93>
Of the above aspects, in the configuration in which the information display unit 45z includes four 7-segment displays 45z1 to 45z4, when the pachinko machine 10 is turned on, all the light-emitting units constituting the information display unit 45z are turned on for a predetermined time For example, it may be configured to light up for 3 seconds and then blink in synchronization for a predetermined time (for example, 2 seconds).

  According to such a configuration, when the pachinko machine 10 is turned on, it is possible to confirm whether or not there is a light emitting unit that does not turn on due to a malfunction such as a disconnection in the light emitting unit constituting the information display unit 45z. It is possible to confirm whether there is a light emitting unit that is always 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 right middle 7-segment display 45z3 are not lit due to a malfunction, control for displaying “3” on the right middle 7-segment display 45z3 is executed. Even in this case, when the segment light emitting part G and the segment light emitting part D are not lit, “7” is displayed on the 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 aspect, when the power of the pachinko machine 10 is turned on, it is confirmed whether or not there is a light emitting unit that does not turn on due to a failure such as a disconnection in the light emitting unit constituting the information display unit 45z. In addition, it is possible to check whether there is a light emitting unit that is always turned on due to a malfunction and does not turn off, so that such misidentification can be suppressed.

  Further, an information display unit inspection button for inspecting the information display unit 45z is provided, and when the information display unit inspection button is pressed, all the light emitting units constituting the information display unit 45z are set for a predetermined time (for example, 3 (Second) and then flashing in synchronization with a predetermined time (for example, 2 seconds).

  According to such a configuration, even when the pachinko machine 10 is not turned on, by pressing the information display unit inspection button, the light emitting unit that constitutes the information display unit 45z does not light up due to a malfunction such as disconnection. It is possible to check whether there is a light emitting unit that does not turn off due to a malfunction. That is, since it is not necessary to once turn off the power of the pachinko machine 10 in order to confirm whether or not a problem has occurred in the information display unit 45z, it is possible to improve the work efficiency of the administrator.

In the configuration in which the above-described base (during the normal mode) is calculated and stored, and the stored base (during the normal mode) is displayed on the information display unit 45z, the main control device 60 determines the measured number of discharge passage passages N _OUT. Each time the number reaches 60000, the section is divided and the base (in normal mode) is calculated and stored for each section, and the information display unit 45z has a plurality of types of bases (normal mode in different sections to be calculated). It is good also as a structure which switches and displays middle.

  Specifically, the pachinko machine 10 according to the present embodiment calculates and stores a base of up to seven sections (during the normal mode), and the information display unit 45z has a base (normal mode) corresponding to a maximum of seven sections. Switch between (middle) and display. The seven sections are as follows.

"BL": Base under measurement (in normal mode)
The exit rate calculated in the current section until the number N _OUT of discharge passages currently measured reaches 60,000 (in normal mode)
"B1": Base that has been measured in the previous section (in normal mode)
The exit rate calculated in the section immediately before the section where the measured discharge passage passage number N _OUT has reached 60000 and is currently being measured (in normal mode)
"B2": Base already measured in the previous section (in normal mode)
The exit rate calculated in the section where the measured discharge passage passage number N _OUT has reached 60000, and is the section immediately before the section currently being measured (in normal mode)
・ "B3": Base that has been measured in the previous three sections (in normal mode)
The exit rate calculated in the section where the measured discharge passage passage number N _OUT has reached 60000 and is three times before the currently measured section (in normal mode)
・ "B4": Base that has been measured in the previous four sections (in normal mode)
The exit rate calculated in the section where the measured discharge passage passage number N _OUT has reached 60000 and is four times before the currently measured section (in normal mode)
・ "B5": Base that has been measured in the previous five sections (in normal mode)
The exit rate calculated in the section where the measured discharge passage passage number N _OUT has reached 60000 and is five times before the currently measured section (in normal mode)
"B6": Base that has been measured in the previous six sections (in normal mode)
The exit rate calculated in the section where the measured discharge passage passage number N _OUT has reached 60000 and is six times before the section currently being measured (in normal mode)

In the initial state in which the game history basic information such as the number of entered balls is not stored, the measurement of the section corresponding to “bL” is started, and at the predetermined timing, the section corresponding to “bL” is Calculate base (in normal mode). When the number N _OUT of discharge passage passages being measured reaches 60000, the game history basic information stored as the section for “bL” is shifted to the section corresponding to “b1”, and the section corresponding to “bL” is newly added. Start measurement. Then, when the discharge passage passage number N _OUT reaches 60000 in the section corresponding to “bL” where the measurement is newly started, the game history basic information stored as the section for “b1” corresponds to “b2”. The game history basic information stored as the section for “bL” is shifted to the section corresponding to “b1”, and the measurement of the section corresponding to “bL” is newly started. In this way, every time the number of discharge passage passages N _OUT being measured reaches 60000, the game history basic information for each section is shifted, and the game history basic information is updated up to the section corresponding to “b6” at the maximum. Remember. When the game history basic information is stored as the section corresponding to “b6” and the number of discharge passage passages N _OUT being measured reaches 60000, it 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, game history basic information is accumulated and stored until the maximum number of discharge passage passages N _OUT of 60000 × 7 sections is measured.

  And in this aspect, the information display part 45z switches and displays the base (in normal mode) of the some area memorize | stored every 5 seconds. Specifically, for example, when the base (in normal mode) of five sections “bL”, “b1”, “b2”, “b3”, and “b4” is stored, the information display unit 45z Is “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 while switching every second.

  According to such a configuration, the inspector or manager of the gaming machine can compare the bases (in the normal mode) for each section by confirming the display on the information display unit 45z. As a result, for example, when the base (during normal mode) value becomes abnormal due to a malfunction or fraud in the pachinko machine 10, at which timing the malfunction occurred. Can be predicted.

In this aspect, each time the measured discharge passage passage number N _OUT reaches 60000, a section is divided, and a base (in normal mode) is calculated and stored for each section, and a base (normal mode) stored for each section is calculated. Middle) is switched every predetermined time (for example, every 5 seconds) and displayed on the information display unit 45z. Instead of this configuration, an RTC 96 is provided, and the section is divided every time the date is changed, and is divided by the date. The base (in normal mode) is calculated and stored for each section, and the base (in normal mode) stored for each date (for each section) is switched every predetermined time (for example, every 5 seconds) to display the information display section 45z. It is good also as a structure displayed on. Specifically, for example, “bL” is the current day, “b1” is the previous day, “b2” is the previous 2 days, “b3” is the previous 3 days, and “b4” is the previous 4 days. , “B5” is defined as a section five days ago, and “b6” is defined as a section six days ago.

  According to such a configuration, the inspector or manager of the gaming machine compares the bases (in the normal mode) for each section divided by date by confirming the display of the information display unit 45z. Is possible. As a result, for example, when the value of the base (during the normal mode) becomes an abnormal value due to the occurrence or malfunction of the pachinko machine 10, it is possible to predict the date on which the malfunction occurred. It becomes possible.

Further, game history basic information such as information on the number of balls entered into each pitching section and game history information such as base (during normal mode) are stored in the main RAM 64, and the pachinko machine is in a state where the RAM clear button is pressed. After the game history basic information and the game history information are erased in the configuration in which the game history basic information and the game history information are erased (cleared) by the RAM clear process executed by turning on the power of the power supply 10 Until the measured discharge passage passage number N _OUT reaches a predetermined number (for example, 300), when the game history information is displayed on the information display unit 45z, the type information of the game history information is displayed. The numerical information of the history information may not be displayed.

Specifically, for example, in a configuration in which a base (during normal mode) is calculated and stored as game history information, and the stored base (during normal mode) is displayed on the information display unit 45z, the game history basic is performed by RAM clear processing. After the information and the game history information are deleted, until the measured number of discharge passage passages N _OUT reaches 300, “bL.” Is displayed in the type information display area of the information display unit 45z, and the numerical information display area May be configured to display “-(two hyphens)”.

According to such a configuration, the inspector or manager of the gaming machine has deleted the game history basic information and the game history information when “bL .--” is displayed on the information display unit 45z. It can be recognized that the discharge passage passage number N _OUT measured after the pachinko machine 10 is shipped from the manufacturer's factory or after 300 has not reached 300. In addition, for example, when a maker ships the pachinko machine 10, there are cases where several game balls are inserted into the respective entrances to check the operation. In this case, since the number of game balls that have entered each entry portion is measured in a situation that is not a case where the game is not properly performed, for example, the number of discharge passage passages N _OUT initially measured is 300. Until the number is reached, there is a possibility that the influence of the check by the manufacturer will be greatly exerted on the game history basic information and the game history information. Therefore, according to the configuration of this aspect, until the measured number of discharge passage passages N _OUT reaches 300, “bL .--” is displayed on the information display unit 45z and the base (during the normal mode) is displayed. Since numerical information is not displayed, it is possible to prevent the administrator from confirming numerical values that are greatly affected by the manufacturer's check and misunderstanding that the pachinko machine 10 may have malfunctioned. can do.

<Aspect 94>
Of the above aspects, in the configuration for calculating the game history information for each of a plurality of sections, 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 basic information that is the basis for calculating the history information may be deleted. Specifically, for example, after the discharge passage passage number N _OUT being measured reaches 60000 and the game history information is calculated and stored, the game history basic information that is the basis for calculating the game history information is It is good also as a structure to erase. According to such a configuration, it is possible to reduce the storage capacity necessary for storing the game history basic information.

<Aspect 95>
Of the above aspects, in the configuration in which the information display unit 45z sequentially switches and displays a plurality of bases (during the normal mode) corresponding to each of the plurality of sections, the information display unit 45z is displayed for a predetermined time during the switching. It is good also as a structure which turns off all the light emission parts (segment light emission part AH and DP light emission part) of the 7 segment display to comprise for a predetermined time. Hereinafter, the configuration of this aspect will be specifically described.

  FIG. 58 is a time chart illustrating an example of a change in the display mode of the information display unit 45z. In FIG. 58, the bases of the three sections “bL”, “b1”, and “b2” (in the normal mode) are calculated and stored in the main RAM 64, and the bases of these three sections (the normal mode) An example in which (middle) is switched and displayed by the information display unit 45z is shown.

  In this aspect, the information display unit 45z circulates the base (during the normal mode) in an order that goes back to the past section and repeatedly displays it. More specifically, after displaying “bL”, which is the measurement base (in normal mode) corresponding to the latest interval, until a predetermined display duration (for example, 5000 ms) has elapsed, the next interval is displayed. The bases (in normal mode) are sequentially displayed in a retroactive order, and after displaying the base (in normal mode) corresponding to the oldest section of the sections stored in the main RAM 64, the latest measurement is being performed again. “BL”, which is the base corresponding to the section (during the normal mode), is displayed.

  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 displays the display duration (for example, 5000 ms) of the base (in normal mode). ) Has elapsed, all the light emitting parts (segment light emitting parts A to H and DP light emitting parts) of the 7-segment display constituting the information display part 45z are turned off for a predetermined time (for example, 300 ms), and then 1 Display of the base (in normal mode) corresponding to the previous section is started. That is, in this aspect, when switching the display of the base corresponding to one section (in the normal mode) to the display of the base corresponding to the other section (in the normal mode), the 7-segment display constituting the information display unit 45z All light emitting units (segment light emitting units A to H and DP light emitting unit) of the device are turned off for a predetermined time (for example, 300 ms).

  In the example shown in FIG. 58, the information display unit 45z continues “bL”, which is the base being measured (during the normal mode) corresponding to the currently measured section, for 5000 ms in a display mode such as “bL.31”. Lights up and then turns off all light emitting units for 300 ms. After that, “b1”, which is the measured base corresponding to the previous section (during the normal mode), is lit continuously for 5000 ms in a display mode such as “b1.30”, and then all the light emitting units are displayed for 300 ms. Turns off. After that, “b2”, which is a measured base (during the normal mode) corresponding to the previous section, is lit continuously for 5000 ms in a display mode such as “b2.31”, and then all the light emitting units are turned on. Turns off for 300 ms. After that, “bL”, which is the base being measured (in the normal mode) corresponding to the section currently being measured, is lit continuously for 5000 ms in a display mode such as “bL.31”. In this way, the information display unit 45z circulates and repeatedly displays the base (in normal mode) of each section stored in the main RAM 64 while sandwiching the 300 ms all-off state.

Next, the case where the number N _OUT of discharge passage passages during measurement reaches 60000 will be described.

FIG. 59 is a time chart showing an example of a change in display mode of the information display unit 45z when the number N _OUT of discharge passage passages during measurement reaches 60000. In FIG. 59, the bases (in normal mode) of the three sections “bL”, “b1”, and “b2” are calculated and stored in the main RAM 64, and the information display unit 45z displays “b1”. During the display, an example is shown in which the number N _OUT of discharge passage passages being measured has reached 60000.

In this aspect, when displaying the base corresponding to any section (in the normal mode) and the discharge passage passage number N _OUT in the section currently being measured reaches 60000, the information display section 45z Even before the display continuation time (5000 ms) of the base being displayed (during the normal mode) has elapsed, the display of the base being displayed (during the normal mode) is terminated. And the display by the display mode corresponding to the discharge passage passage number N _OUT reaching 60000 in the section being measured is started, and the display mode is continued for a predetermined time (for example, 2000 ms). In this mode, a display mode in which four hyphens are lit is adopted as a display mode corresponding to the number of discharge passage passages N _OUT reaching 60000 in the section being measured. Then, during a period until a predetermined period (for example, 2000 ms) in which the four hyphens are lit, the main CPU 62x of the main control device 60 uses a base (in the normal mode) corresponding to the section currently being measured. A new “bL” is calculated after executing a process of calculating the final value as “bL” and a process of shifting the base (in normal mode) corresponding to each section to the past section one by one. The process of calculating the number of game balls entering each entrance in the current section for calculating the current value of “bL” is started.

In the example shown in FIG. 59, when “b1” is being displayed and before 5000 ms that is the display continuation time of “b1” has elapsed, the number of discharge passage passages N _OUT in the section being measured is 60000. Therefore, the information display unit 45z ends the display of “b1”, starts the display in the display mode in which the four hyphens are lit, and continues the display mode for 2000 ms.

  Thereafter, in this mode, based on the fact that a predetermined time (for example, 2000 ms) has elapsed since the start of the display mode in which the four hyphens are turned on, the cyclic display is started from “bL” where measurement is newly started. That is, after the display in the display mode in which the four hyphens are turned on is ended, the display is restarted from “bL” where the measurement is newly started regardless of the section of the base where the display is interrupted (in the normal mode). .

In this mode, the discharge passage passage number N _OUT in the section being measured is 60000 at the timing before 300 ms elapses after starting the display mode in which all the light emitting units constituting the information display unit 45z are turned off. In the case of reaching the above, the information display unit 45z ends the display mode in which all the light emitting units are turned off, and shifts to the above-described display mode in which the four hyphens are lit.

  As described above, in this mode, the information display unit 45z displays a display mode (for example, a display mode that displays “bL”) that displays a base (during the normal mode) corresponding to one section among the plurality of sections. To a display mode that does not display any base (in normal mode) (for example, a display mode in which all the segment light emitting parts are turned off), and then displays a base (in normal mode) corresponding to another section. The mode shifts to a mode (for example, a display mode displaying “b1”). Therefore, according to this aspect, the base (in normal mode) displayed on the information display unit 45z for the administrator or inspector of the pachinko machine 10 corresponds to another section (in normal mode). Can be clearly recognized. As a result, it is possible to prevent an administrator or the like from erroneously recognizing the displayed base (in normal mode) section without noticing that the displayed base (in normal mode) section has been switched. can do. In particular, in this aspect, even if the base (in normal mode) section is different, there are situations in which the numerical value of the base (in normal mode) is the same. In this situation, the displayed base (in normal mode) ) Is switched, only the display of the second character (for example, L, 1, 2, etc.) indicating the base (in normal mode) section changes. Assuming that the display mode for displaying the base corresponding to one section (in normal mode) is directly shifted to the display mode for displaying the base corresponding to another section (in normal mode), the administrator, etc. It becomes difficult to notice that the section of the base being displayed (in normal mode) has been switched. On the other hand, in this aspect, before shifting from a display mode that displays a base corresponding to one section (in normal mode) to a display mode that displays a base corresponding to another section (in normal mode), Since it shifts to a display mode that does not display any base (in normal mode) (for example, a display mode in which all the segment light emitting parts are turned off), even if the numerical value of the base before and after switching (in normal mode) is the same The manager or the like can clearly recognize that the base (in the normal mode) displayed on the information display unit 45z has been switched to the base (in the normal mode) corresponding to another section.

Moreover, in this mode, 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) is This is a transition mode in which all the light emitting units are turned off for 300 ms. On the other hand, the transition mode in the case of shifting the display mode based on the fact that the number N _OUT of discharge passage passages in the section being measured has reached 60000 is a transition mode in which four hyphens are lit for 2000 ms. That is, in this mode, a transition mode in the case of shifting from a display mode that displays a base corresponding to one section (in normal mode) to a display mode that displays a base corresponding to another section (in normal mode); This is different from the transition mode in the case of shifting the display mode based on the fact that the number N _OUT of discharge passage passages in the section being measured has reached 60000. Therefore, according to this aspect, the administrator or the inspector of the pachinko machine 10 shifts to a display mode that displays a base corresponding to another section (during the normal mode) by recognizing a difference in the shift mode. Or whether the display mode shifts based on the fact that the number N _OUT of discharge passage passages in the section being measured has reached 60000 can be clearly distinguished. As a result, for example, the administrator or the like has shifted the base of each section (in normal mode) one by one to the past section by reaching 60000 discharge passage passage number N _OUT in the section being measured. It is possible to prevent the confirmation work of the base (during the normal mode) from continuing without being noticed.

Further, in this aspect, when the base (in normal mode) is being displayed and the discharge passage passage number N _OUT in the section being measured reaches 60000, the display of the base (in normal mode) being displayed continues. Even before the time has elapsed, the display mode (display mode in which four hyphens are turned on) corresponding to the fact that the number N _OUT of discharge passage passages in the section being measured has reached 60000 is displayed. Therefore, according to this aspect, the administrator or the inspector of the pachinko machine 10 can recognize at an early stage that the discharge passage passage number N _OUT in the section being measured has reached 60000. Further, according to this embodiment, it is possible to display in each section after shifted due to the discharge passage passing through the number N _OUT of the section in the measurement has reached 60 000 based on (in normal mode) early Therefore, the managers and the like can quickly confirm the base (in the normal mode) for each section after the shift due to the number of discharge passage passages N _OUT in the section being measured reaching 60000. The inspection efficiency for the pachinko machine 10 can be improved.

Further, in this aspect, when the discharge passage passage number N _OUT in the section being measured has reached 60000, the display corresponding to the discharge passage passage number N _OUT in the section being measured has reached 60000. 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 determine the final value as “bL”. It is possible to secure a time for executing the process of calculating the process and the process of shifting the base corresponding to each section (in the normal mode) one by one to the past section. Further, if the game history basic information that is the basis of the calculation of the “bL” is deleted after the final value as “bL” is calculated, the memory necessary for storing the game history basic information is stored. The capacity can be reduced.

Further, in this aspect, a plurality of bases (in normal mode) corresponding to each of a plurality of sections are sequentially switched and displayed in a predetermined order such as going back to the previous section, and the discharge in the section being measured is performed. When the number of passage passages N _OUT reaches 60000, the most recent start of measurement regardless of which section is the base (in normal mode) to be displayed next in accordance with a predetermined order. The display is started from “bL” which is the base corresponding to the section (in the normal mode). Therefore, according to this aspect, the administrator or inspector of the pachinko machine 10 can recognize that the number N _OUT of discharge passage passages in the section being measured has reached 60000, and from “bL” It becomes possible to confirm with priority.

  In this mode, between a display mode that displays a base (in normal mode) corresponding to one zone among a plurality of zones and a display mode that displays a base (in normal mode) corresponding to another zone. As the display mode, a display mode in which all the segment light emitting units are turned off is adopted. However, other display modes may be adopted as long as the display mode does not display the base of any section (during the normal mode). For example, a display mode in which four hyphens are turned on or a display mode in which four hyphens are blinked may be employed. According to such a configuration, the base (in normal mode) displayed on the information display unit 45z corresponds to another section (in normal mode) for the administrator or inspector of the pachinko machine 10 It can be recognized more clearly that it has been switched to.

Moreover, in this aspect, the display aspect which lights four hyphens as a display aspect corresponding to the number of discharge passage passages N _OUT reaching 60000 in the section being measured is adopted. It may be adopted. For example, a display mode in which four hyphens blink may be employed as a display mode corresponding to the number of discharge passage passages N _OUT reaching 60000 in the section being measured. Further, for example, as a display mode corresponding to the number of discharge passage passages N _OUT reaching 60000 in the section being measured, all the light emitting units (segment light emitting unit A) of the 7 segment display constituting the information display unit 45z are displayed. ~ H and DP light emitting units) may be turned off.

Further, in this mode, a transition mode in which four hyphens are turned on for 2000 ms is adopted as a transition mode when the display mode is shifted based on the fact that the number N _OUT of discharge passages in the section being measured has reached 60000. However, other transition modes may be employed. For example, as a transition mode when the display mode is shifted based on the fact that the number N _OUT of discharge passage passages in the section being measured has reached 60000, all the light emitting units of the 7-segment display constituting the information display unit 45z You may employ | adopt the transition aspect which turns off (segment light emission part AH and DP light emission part) for 300 ms. According to such a configuration, a transition mode in the case of shifting from a display mode that displays a base corresponding to one section (in normal mode) to a display mode that displays a base corresponding to another section (in normal mode). And the transition mode in the case where the display mode shifts based on the fact that the number N _OUT of discharge passage passages in the section being measured has reached 60000, makes it uncomfortable for managers and the like. The display mode can be shifted without giving.

  In this aspect, the base (in the normal mode) is displayed as the game history information. However, the game history information to be displayed is not limited to the base (in the normal mode), and various games shown in the first embodiment. It is good also as a structure which displays log | history information (For example, an accessory ratio, a continuous accessory ratio, etc.).

Further, in this aspect, the section is divided based on the fact that the discharge passage passage number N _OUT has reached 60000, but the section may be divided based on other predetermined conditions being satisfied. . For example, the section may be divided based on the number of discharge passage passages N _OUT reaching 10,000, or the section may be divided based on the date change.

<Aspect 96>
In the above aspect 95, when the base corresponding to any section (in the normal mode) is being displayed and the number N _OUT of discharge passage passages in the section currently being measured reaches 60000, the information display section 45z Even before the display duration (5000 ms) of the currently displayed base (in normal mode) elapses, the display of the currently displayed base (in normal mode) ends and the discharge passage passes through the section being measured. Although the display in the display mode corresponding to the number N _OUT reaching 60000 has been started, instead of this configuration, the base (in normal mode) corresponding to any section is being displayed, when the discharge passage passing through the number _{N OUT} of the section being measured reaches 60000, the information display unit 45z, the display duration based in the display (in normal mode) (5000 m ) After a lapse may be configured to discharge passage passing number N _OUT of the section in the measurement starts displaying by the display mode corresponding to reached 60000. Hereinafter, the configuration of this aspect will be specifically described.

FIG. 60 is a time chart showing an example of a change in the display mode of the information display unit 45z when the number N _OUT of discharge passage passages during measurement reaches 60000. In FIG. 60, the bases (in normal mode) of three sections “bL”, “b1”, and “b2” are calculated and stored in the main RAM 64, and the information display unit 45z displays “b1”. During the display, an example is shown in which the number N _OUT of discharge passage passages being measured has reached 60000.

As described above, in this aspect, when the base corresponding to any section (in the normal mode) is displayed, the number of discharge passage passages N _OUT in the section currently being measured reaches 60000 information. The display unit 45z has a display mode corresponding to the fact that the number N _OUT of discharge passage passages in the section being measured has reached 60000 after the display duration (5000 ms) of the base being displayed (in normal mode) has elapsed. Start display. In this mode, a display mode in which four hyphens are lit is adopted as a display mode corresponding to the number of discharge passage passages N _OUT reaching 60000 in the section being measured.

In the example shown in FIG. 60, the number of discharge passage passages N _OUT in the section being measured is 60000 when “b1” is being displayed and before 5000 ms that is the display continuation time of “b1” has elapsed. The information display unit 45z starts display in the display mode in which four hyphens are lit after the display duration time (5000 ms) of the “b1” has elapsed, and continues the display mode for 2000 ms. Thereafter, similarly to the above-described aspect 95, the cyclic display is started from “bL” where measurement is newly started.

In this mode, the discharge passage passage number N _OUT in the section being measured is 60000 at the timing before 300 ms elapses after starting the display mode in which all the light emitting units constituting the information display unit 45z are turned off. When the information display unit 45z is reached, the information display unit 45z shifts to the display mode in which the above-described four hyphens are turned on after 300 ms have elapsed since the start of the display mode of turning off all the light emitting units.

As described above, in this aspect, even when the number of discharge passage passages N _OUT in the section being measured reaches 60000 during display of the base (in normal mode), the base ( Since the display of the base (during the normal mode) is continued until the display continuation time of the normal mode) elapses, for example, the administrator or the inspector of the pachinko machine 10 displays the base being displayed (during the normal mode) ) Is confirmed and the display of the base (in normal mode) ends at the timing when it tries to transfer to the inspection table, and the base (in normal mode) cannot be transferred to the inspection table. Occurrence can be suppressed.

<Aspect 97>
All the light emitting units (segment light emitting units A to G and DP light emitting units) constituting the information display unit 45z described in the above aspect 93 are turned on for a predetermined time (for example, 3 seconds), and then the predetermined time (for example, for example) The following processing flow may be adopted as a processing flow for realizing a configuration of blinking in synchronization for 2 seconds. This will be specifically described below.

  61 and 62 are flowcharts showing a main process executed by the main MPU 62 (main CPU 62x) of the aspect 97 of the first embodiment when the power is turned on. The main difference from the main process shown in FIG. 51 is that after the power recovery process is executed, a process of turning on and blinking all the light emitting units constituting the information display unit 45z (lighting and blinking process) is performed. .

  In step S11801, an initial setting process associated with power-on is executed. Specifically, a predetermined value is set in advance in the stack pointer of the main CPU 62x, and the sub-side control devices (the sound emission control device 90, the display control device 100, the payout control device 70, etc.) are operable. In order to wait for the state to be reached, a wait process is executed for about 1 second, for example. Then, access to the main RAM 64 is permitted. Thereafter, the process proceeds to step S11802, and internal function register setting processing is executed. Then, it progresses to step S11803 and the process for alert | reporting that the said pachinko machine 10 was turned on and started is performed. Specifically, an activation command indicating that the pachinko machine 10 has been activated is transmitted to the sound emission control device 90. When receiving the activation command, the sound emission control device 90 executes a process for notifying that the pachinko machine 10 has been activated. Specifically, for example, a sound such as “being activated” or a predetermined alarm sound is output from the speaker 46. After executing Step S11803, the process proceeds to Step S11804.

  In step S11804, it is determined whether the power recovery flag is ON.

  Here, the power recovery flag will be described. In this aspect, when the power switch of the pachinko machine 10 is turned off or when a power failure occurs, various information (information indicating the game state, control information, etc.) stored in the register of the main CPU 62x is mainly used. Retreat to a predetermined area of the side RAM 64. When the saving of these pieces of information to the main RAM 64 is completed, the power recovery flag is turned ON, a RAM determination value (for example, a checksum value) is calculated, and the calculated RAM determination value is stored in the main RAM 64. Remember. Note that after the supply of power from the commercial power supply is cut off, the power supply is switched from the backup power supply such as a capacitor. Thus, the power recovery flag is a flag for identifying at the time of power-on whether or not information for returning to the state when the power was turned off last time is stored in the main RAM 64.

  If it is determined in step S11804 that the power recovery flag is ON (step S11804: YES), the process proceeds to step S11805, and the RAM determination value of the main RAM 64 is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. Thereafter, the process proceeds to step S11806, whether or not the calculated RAM determination value (checksum value) is normal, that is, the calculated RAM determination value (checksum value) and the RAM determination value stored in the main RAM 64 ( It is determined whether or not the checksum value matches. If it is determined in step S11806 that the RAM determination value is normal (step S11806: YES), the process proceeds to step S11808 described later.

  On the other hand, if it is determined in step S11804 that the power recovery flag is not ON (step S11804: NO) and if it is determined in step S11806 that the RAM determination value is not normal (step S11806: NO). ), The process proceeds to step S11807, and the RAM abnormality flag is turned ON. That is, the RAM abnormality flag is a flag that is turned on when the power recovery flag is OFF or when the power recovery flag is ON but the RAM determination value is not normal. Information stored in the main RAM 64 is stored in the RAM abnormality flag. It is a flag indicating that the state is not normal. After executing step S11807, the process proceeds to step S11808.

  In step S11808, it is determined whether the RAM clear button is ON. If it is determined in step S11808 that the RAM clear button is not ON (step S11808: NO), the process proceeds to step S11809, and whether or not all of the setting key, the frame opening switch, and the door opening switch are ON. Determine. The frame opening switch is a switch that is turned on when the inner frame 13 is open with respect to the outer frame 11, and the door opening switch is a state where the front door frame 14 is open with respect to the inner frame 13. It is a switch that is sometimes turned on.

  If it is determined in step S11809 that at least one of the setting key, the frame opening switch, and the door opening switch is not ON (step S11809: NO), the process proceeds to step S11810, and whether or not the RAM abnormality flag is ON. Determine whether.

  If it is determined in step S11810 that the RAM abnormality flag is not ON (step S11810: NO), the process proceeds to step S11811, and a power recovery process for returning to the previous power-off state is executed. Specifically, in the power recovery process, the value of the stack pointer stored in the main RAM 64 is written into the stack pointer of the main CPU 62x, and the data saved in the main RAM 64 is restored to the register of the main CPU 62x. Then, the state of the register of the main CPU 62x is restored to the state before the power is shut off. After executing step S11811, the process proceeds to step S11812, and the power recovery flag of the main RAM 64 is turned OFF. Then, it progresses to step S11812-2 and performs the lighting blink process which is a process which makes all the light emission parts (segment light emission part AG and DP light emission part) which comprise the information display part 45z light and blink. In the lighting / blinking process, all the light emitting units constituting the information display unit 45z are turned on for a predetermined time (for example, 3 seconds), and then flashed in synchronization for a predetermined time (for example, 2 seconds). After executing Step S11812-2, the process proceeds to Step S11829 (FIG. 62) 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 proceeds to step S11813 to execute a RAM abnormality notification process. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal. Please start in the setting change mode” is repeatedly output from the speaker 46. After executing Step S11813, the process proceeds to Step S11829 (FIG. 62) described later.

  On the other hand, if it is determined in step S11809 described above that all of the setting key, the frame opening switch, and the door opening switch are ON (step S11809: YES), the process proceeds to step S11814, and the RAM abnormality flag is ON. It is determined whether or not there is.

  If it is determined in step S11814 that the RAM abnormality flag is not ON (step S11814: NO), the process proceeds to step S11815, and a setting check process is executed. In the setting confirmation process (setting confirmation mode), a process of displaying the current lottery setting setting information on the information display unit 45z is executed. That is, the setting confirmation mode is a mode in which an administrator or the like can confirm the current lottery setting setting information 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. After executing step S11815, the process proceeds to step S11816, where the power recovery process described above is executed to return to the previous power-off state. Thereafter, the process proceeds to step S11817, and the power recovery flag is turned OFF. Then, it progresses to step S11817-2 and performs the lighting blink process mentioned above. After executing Step S11817-2, the process proceeds to Step S11829 (FIG. 62) 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 proceeds to step S11818, and a RAM abnormality notification process is executed. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal. Please start in the setting change mode” is repeatedly output from the speaker 46. After executing Step S11818, the process proceeds to Step S11829 (FIG. 62) described later.

  If it is determined in step S11808 described above that the RAM clear button is ON (step S11808: YES), the process proceeds to step S11819, where all of the setting key, the frame opening switch, and the door opening switch are ON. Determine whether or not.

  If it is determined in step S11819 that at least one of the setting key, the frame opening switch, and the door opening switch is not ON (step S11819: NO), the process proceeds to step S11820, and the above-described RAM abnormality flag is ON. It is determined whether or not. If it is determined in step S11820 that the RAM abnormality flag is not ON (step S11820: NO), the process proceeds to step S11821.

  In step S11821, a first RAM clear process is executed. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main RAM 64 except for the lottery setting information. That is, when the first RAM clear process is executed, various flag information indicating various gaming states, various control information, and the like are erased, but the lottery setting information is not erased, and the setting information is maintained as it is. Further, in this aspect, in the first RAM clear process, a first RAM clear process execution command, which is a command indicating that the first RAM clear process has been executed, is transmitted to the sound emission control device 90. When receiving the first RAM clear process execution command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the first RAM clear process has been executed. Specifically, for example, a sound such as “RAM cleared” is output from the speaker 46. After executing Step S11821, the process proceeds to Step S11829 (FIG. 62) 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 proceeds to step S11822, and a RAM abnormality notification process is executed. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal. Please start in the setting change mode” is repeatedly output from the speaker 46. After executing Step S11822, the process proceeds to Step S11829 (FIG. 62) described later.

  If it is determined in step S11819 that all of the setting key, the frame opening switch, and the door opening switch are ON (step S11819: YES), the process proceeds to step S11823, and whether the RAM abnormality flag is ON. Determine whether or not.

  If it is determined in step S11823 that the RAM abnormality flag is not ON (step S11823: NO), the process proceeds to step S11824, and the first RAM clear process described above is executed. Thereafter, the process proceeds to step S11825 to execute a setting change process. In the setting change process (setting change mode), a process of displaying the lottery setting setting information on the information display unit 45z is executed and a process of accepting a change of the lottery setting information is executed. That is, the setting change mode is a mode in which an administrator or the like can change the lottery setting setting information 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. After executing Step S11825, the process proceeds to Step S11829 (FIG. 62) 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 proceeds to step S11826, and a RAM abnormality notification process is executed. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal” is output from the speaker 46. After executing Step S11826, the process proceeds to Step S11827.

  In step S11827, a second RAM clear process is executed. The second RAM clearing process is a process of erasing (clearing to 0) all information including the lottery setting setting information among the information stored in the main RAM 64. That is, when the second RAM clear process is executed, the lottery setting information is deleted in addition to the various flag information indicating the gaming state and the various control information. Here, the reason why the second RAM clear process for erasing the setting information is executed instead of the first RAM clear process when the RAM abnormality flag is ON will be described. If the RAM abnormality flag is ON, the setting information stored in the main RAM 64 may not be normal. For example, the setting information may be overwritten by setting information not intended by the administrator due to noise or the like. This is because there is a possibility that numerical values outside the predetermined range may be stored although only numerical values within a predetermined range (for example, numerical values from 1 to 6) can be obtained. In the second RAM clear process of this aspect, “1” is stored as the initial value of the setting information after the setting information is erased. The RAM abnormality flag is also turned OFF by the second RAM clear process. Thereafter, the process proceeds to step S11828, and setting change processing is executed. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. After executing Step S11828, the process proceeds to Step S11829 (FIG. 62) described later.

  In the processing after step S11829 shown in FIG. 62, when the RAM abnormality flag is not ON, timer interrupt processing interrupt permission setting, interrupt prohibition setting, various random number update processing, power failure monitoring processing (power supply monitoring processing) are executed. Then, the above-described timer interrupt process (FIG. 27) is also executed. That is, when the RAM abnormality flag is not ON, the game shifts to a game progress mode in which the game can be progressed. On the other hand, when the RAM abnormality flag is ON, various random number update processing and power failure monitoring processing are executed, but the interrupt permission setting of timer interrupt processing is not executed, so the above-described timer interrupt processing (FIG. 27) is executed. Not. That is, when the RAM abnormality flag is ON, the game progress mode is not shifted to allow the game to proceed. In this state, the administrator turns off the power of the pachinko machine 10 once, inserts the setting key into the setting keyhole and turns it on, and turns on the power while pressing the RAM clear button. The pachinko machine 10 may be activated in the setting change mode. Hereinafter, the process after step S11829 is demonstrated concretely.

  In step S11829 shown in FIG. 62, it is determined whether or not 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 to execute an interrupt permission setting that permits generation of timer interrupt processing. Thereafter, the process proceeds to step S11831 to execute an interrupt prohibition setting for prohibiting the generation of timer interrupt processing. Then, it progresses to step S11832 mentioned 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 steps S11830 and S11831.

  In step S11832, various random number update processes are executed. In various random number update processes, a process of reading the current numerical information from each counter in the main RAM 64, adding 1 to the read numerical information, and then overwriting the added numerical information on the reading source counter Execute. If the read numerical information is the maximum value of the counter, a process of overwriting 0 on the read source counter is executed. After executing Step S11832, the process proceeds to Step S11833.

  In step S11833, a power failure monitoring process is executed. In the power failure 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 falls below a predetermined value (for example, 10 volts), the power supply of the pachinko machine 10 It is determined that the switch has been turned off or a power failure has occurred, and various information (information indicating the game state, control information, etc.) stored in the register of the main CPU 62x is saved in a predetermined area of the main RAM 64. . When the saving of these pieces of information to the main RAM 64 is completed, the power recovery flag is turned ON, a RAM determination value (for example, a checksum value) is calculated, and the calculated RAM determination value is stored in the main 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 becomes inoperable. Note that the power supply device 85 of this aspect is used as a drive voltage in a control system such as the main control device 60 even when the drive voltage supplied to the main control device 60 is lowered to a value lower than a predetermined value. A stabilized voltage of volt is output. As a time for which the stabilization voltage is output, a sufficient time for executing the processing until the above-described RAM determination value is stored in the main RAM 64 is secured.

  On the other hand, in the power failure monitoring process of step S11833, when 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 proceeds to step S11834 as it is.

  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 proceeds to step S11835 described above, and interrupt permission setting for permitting generation of timer interrupt processing is executed. Thereafter, the process returns to the above-described step S11831 to execute the interrupt prohibition setting for prohibiting the generation of the timer interrupt process. 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 for executing the interrupt permission setting, but returns to step S11832 for executing various random number update processes. .

  As described above, according to this aspect, since the above-described lighting / blinking process is executed, a light emitting unit that does not light due to a disconnection or the like exists among the plurality of light emitting units constituting the information display unit 45z. It is possible to inspect whether or not there is a light emitting unit that is always 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 right middle 7-segment display 45z3 are not lit due to a malfunction, control for displaying “3” on the right middle 7-segment display 45z3 is executed. Even in this case, when the segment light emitting part G and the segment light emitting part D are not lit, “7” is displayed on the middle 7 segment display 45z3. As a result, there is a possibility that the administrator misidentifies the numerical information of the game history information displayed on the information display unit 45z, for example. On the other hand, according to the configuration of the present aspect, when the pachinko machine 10 is turned on, there is no light emitting unit that does not turn on due to a malfunction such as disconnection among the plurality of light emitting units constituting the information display unit 45z. In addition, it is possible to inspect whether there is a light emitting unit that is always 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 in response to the execution of the power recovery process. Therefore, when the administrator or the inspector of the pachinko machine 10 turns off the power switch of the pachinko machine 10 that is turned on and turns it on again, the power recovery process described above is executed, and the power recovery process is performed. A lighting / blinking process is executed upon execution. That is, the administrator or the inspector can cause the pachinko machine 10 to execute the lighting blinking process by a simple operation of turning the power switch OFF and ON. Further, when the administrator or the inspector performs an operation of turning the power switch OFF and ON in order to cause the pachinko machine 10 to execute the lighting blinking process, the power recovery process is executed in the pachinko machine 10. Therefore, the gaming state of the pachinko machine 10 (high probability mode flag state, etc.) is also maintained. Therefore, according to this aspect, even if it is a situation where the player is playing a game in the pachinko machine 10, it is possible to execute the lighting and blinking process without causing a disadvantage to the player. Alternatively, the inspector can inspect whether there is a light emitting unit that does not turn on or a light emitting unit that does not turn off due to a malfunction among the plurality of light emitting units constituting the information display unit 45z.

<Aspect 98>
All the light emitting units (segment light emitting units A to G and DP light emitting units) constituting the information display unit 45z described in the above aspect 93 are turned on for a predetermined time (for example, 3 seconds), and then the predetermined time (for example, for example) The following processing flow may be adopted as a processing flow for realizing a configuration of blinking in synchronization for 2 seconds. This will be specifically described below.

  63 and 64 are flowcharts illustrating main processing that is executed by the main MPU 62 (main CPU 62x) according to the aspect 98 of the first embodiment when the power is turned on. The main difference from the main process shown in FIG. 61 and FIG. 62 is not to execute the lighting / blinking process in response to the execution of the power recovery process. Even if it is executed, the lighting / blinking process is executed.

  In step S11901, an initial setting process associated with power-on is executed. Specifically, a predetermined value is set in advance in the stack pointer of the main CPU 62x, and the sub-side control devices (the sound emission control device 90, the display control device 100, the payout control device 70, etc.) are operable. In order to wait for the state to be reached, a wait process is executed for about 1 second, for example. Then, access to the main RAM 64 is permitted. Thereafter, the process proceeds to step S11902, and internal function register setting processing is executed. Then, it progresses to step S11903 and performs the process for alert | reporting that the said pachinko machine 10 was turned on and started. Specifically, an activation command indicating that the pachinko machine 10 has been activated is transmitted to the sound emission control device 90. When receiving the activation command, the sound emission control device 90 executes a process for notifying that the pachinko machine 10 has been activated. Specifically, for example, a sound such as “being activated” or a predetermined alarm sound is output from the speaker 46. After executing Step S11903, the process proceeds to Step S11904.

  In step S11904, it is determined whether the power recovery flag is ON.

  Here, the power recovery flag will be described. In this aspect, when the power switch of the pachinko machine 10 is turned off or when a power failure occurs, various information (information indicating the game state, control information, etc.) stored in the register of the main CPU 62x is mainly used. Retreat to a predetermined area of the side RAM 64. When the saving of these pieces of information to the main RAM 64 is completed, the power recovery flag is turned ON, a RAM determination value (for example, a checksum value) is calculated, and the calculated RAM determination value is stored in the main RAM 64. Remember. Note that after the supply of power from the commercial power supply is cut off, the power supply is switched from the backup power supply such as a capacitor. Thus, the power recovery flag is a flag for identifying at the time of power-on whether or not information for returning to the state when the power was turned off last time is stored in the main RAM 64.

  If it is determined in step S11904 that the power recovery flag is ON (step S11904: YES), the process proceeds to step S11905, and the RAM determination value of the main RAM 64 is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. Thereafter, the process proceeds to step S11906, whether or not the calculated RAM determination value (checksum value) is normal, that is, the calculated RAM determination value (checksum value) and the RAM determination value stored in the main RAM 64 ( It is determined whether or not the checksum value matches. If it is determined in step S11906 that the RAM determination value is normal (step S11906: YES), the process proceeds to step S11908 described later.

  On the other hand, if it is determined in step S11904 that the power recovery flag is not ON (step S11904: NO), and if it is determined in step S11906 that the RAM determination value is not normal (step S11906: NO). ), The process proceeds to step S11907, and the RAM abnormality flag is turned ON. That is, the RAM abnormality flag is a flag that is turned on when the power recovery flag is OFF or when the power recovery flag is ON but the RAM determination value is not normal. Information stored in the main RAM 64 is stored in the RAM abnormality flag. It is a flag indicating that the state is not normal. After executing step S11907, the process proceeds 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 proceeds to step S11909, and whether or not all of the setting key, the frame opening switch, and the door opening switch are ON. Determine. The frame opening switch is a switch that is turned on when the inner frame 13 is open with respect to the outer frame 11, and the door opening switch is a state where the front door frame 14 is open with respect to the inner frame 13. It is a switch that is sometimes turned on.

  If it is determined in step S11909 that at least one of the setting key, the frame opening switch, and the door opening switch is not ON (step S11909: NO), the process proceeds to step S11910, and whether or not the RAM abnormality flag is ON. Determine whether.

  If it is determined in step S11910 that the RAM abnormality flag is not ON (step S11910: NO), the process proceeds to step S11911, and a power recovery process for returning to the previous power-off state is executed. Specifically, in the power recovery process, the value of the stack pointer stored in the main RAM 64 is written into the stack pointer of the main CPU 62x, and the data saved in the main RAM 64 is restored to the register of the main CPU 62x. Then, the state of the register of the main CPU 62x is restored to the state before the power is shut off. After executing step S11911, the process proceeds to step S11912, and the power recovery flag of the main RAM 64 is turned OFF. Thereafter, the process proceeds to step S11928-2 (FIG. 64) 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 proceeds to step S11913, and a RAM abnormality notification process is executed. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal. Please start in the setting change mode” is repeatedly output from the speaker 46. After executing Step S11913, the process proceeds to Step S11928-2 (FIG. 64) described later.

  On the other hand, if it is determined in step S11909 described above that all of the setting key, the frame opening switch, and the door opening switch are ON (step S11909: YES), the process proceeds to step S11914, and the RAM abnormality flag is ON. It is determined whether or not there is.

  If it is determined in step S11914 that the RAM abnormality flag is not ON (step S11914: NO), the process proceeds to step S11915, and setting confirmation processing is executed. In the setting confirmation process (setting confirmation mode), a process of displaying the current lottery setting setting information on the information display unit 45z is executed. That is, the setting confirmation mode is a mode in which an administrator or the like can confirm the current lottery setting setting information 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. After executing step S11915, the process proceeds to step S11916, where the power recovery process described above is executed to return to the previous power-off state. Thereafter, the process proceeds to step S11917, and the power recovery flag is turned OFF. Thereafter, the process proceeds to step S11928-2 (FIG. 64) 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 proceeds to step S11918 to execute a RAM abnormality notification process. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal. Please start in the setting change mode” is repeatedly output from the speaker 46. After executing Step S11918, the process proceeds to Step S11928-2 (FIG. 64) described later.

  If it is determined in step S11908 described above that the RAM clear button is ON (step S11908: YES), the process proceeds to step S11919, and all of the setting key, the frame opening switch, and the door opening switch are ON. Determine whether or not.

  If it is determined in step S11919 that at least one of the setting key, the frame opening switch, and the door opening switch is not ON (step S11919: NO), the process proceeds to step S11920, and the above-described RAM abnormality flag is ON. It is determined whether or not. If it is determined in step S11920 that the RAM abnormality flag is not ON (step S11920: NO), the process proceeds to step S11921.

  In step S11921, a first RAM clear process is executed. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main RAM 64 except for the lottery setting information. That is, when the first RAM clear process is executed, various flag information indicating various gaming states, various control information, and the like are erased, but the lottery setting information is not erased, and the setting information is maintained as it is. Further, in this aspect, in the first RAM clear process, a first RAM clear process execution command, which is a command indicating that the first RAM clear process has been executed, is transmitted to the sound emission control device 90. When receiving the first RAM clear process execution command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the first RAM clear process has been executed. Specifically, for example, a sound such as “RAM cleared” is output from the speaker 46. After executing Step S11921, the process proceeds to Step S11928-2 (FIG. 64) 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 proceeds to step S11922 to execute a RAM abnormality notification process. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal. Please start in the setting change mode” is repeatedly output from the speaker 46. After executing Step S11922, the process proceeds to Step S11928-2 (FIG. 64) described later.

  If it is determined in step S11919 described above that all of the setting key, the frame opening switch, and the door opening switch are ON (step S11919: YES), the process proceeds to step S11923, and whether the RAM abnormality flag is ON. Determine whether or not.

  If it is determined in step S11923 that the RAM abnormality flag is not ON (step S11923: NO), the process proceeds to step S11924, and the first RAM clear process described above is executed. Then, it progresses to step S11925 and performs a setting change process. In the setting change process (setting change mode), a process of displaying the lottery setting setting information on the information display unit 45z is executed and a process of accepting a change of the lottery setting information is executed. That is, the setting change mode is a mode in which an administrator or the like can change the lottery setting setting information 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. After executing Step S11925, the process proceeds to Step S11928-2 (FIG. 64) 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 proceeds to step S11926, and a RAM abnormality notification process is executed. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal” is output from the speaker 46. After executing Step S11926, the process proceeds to Step S11927.

  In step S11927, a second RAM clear process is executed. The second RAM clearing process is a process of erasing (clearing to 0) all information including the lottery setting setting information among the information stored in the main RAM 64. That is, when the second RAM clear process is executed, the lottery setting information is deleted in addition to the various flag information indicating the gaming state and the various control information. Here, the reason why the second RAM clear process for erasing the setting information is executed instead of the first RAM clear process when the RAM abnormality flag is ON will be described. If the RAM abnormality flag is ON, the setting information stored in the main RAM 64 may not be normal. For example, the setting information may be overwritten by setting information not intended by the administrator due to noise or the like. This is because there is a possibility that numerical values outside the predetermined range may be stored although only numerical values within a predetermined range (for example, numerical values from 1 to 6) can be obtained. In the second RAM clear process of this aspect, “1” is stored as the initial value of the setting information after the setting information is erased. The RAM abnormality flag is also turned OFF by the second RAM clear process. Then, it progresses to step S11928 and performs a setting change process. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. After executing Step S11928, the process proceeds to Step S11928-2 (FIG. 64) described later.

  In step S11928-2 shown in FIG. 64, a lighting blinking process, which is a process of turning on and blinking all the light emitting parts (segment light emitting parts AG and DP light emitting parts) constituting the information display part 45z, is executed. In the lighting / blinking process, all the light emitting units constituting the information display unit 45z are turned on for a predetermined time (for example, 3 seconds), and then flashed in synchronization for a predetermined time (for example, 2 seconds). After executing Step S11928-2, the process proceeds to Step S11929.

  In the processing after step S11929, if the RAM abnormality flag is not ON, the timer interrupt processing interrupt permission setting, interrupt prohibition setting, various random number update processing, power failure monitoring processing (power supply monitoring processing) are executed. Timer interrupt processing (FIG. 27) is also executed. That is, when the RAM abnormality flag is not ON, the game shifts to a game progress mode in which the game can be progressed. On the other hand, when the RAM abnormality flag is ON, various random number update processing and power failure monitoring processing are executed, but the interrupt permission setting of timer interrupt processing is not executed, so the above-described timer interrupt processing (FIG. 27) is executed. Not. That is, when the RAM abnormality flag is ON, the game progress mode is not shifted to allow the game to proceed. In this state, the administrator turns off the power of the pachinko machine 10 once, inserts the setting key into the setting keyhole and turns it on, and turns on the power while pressing the RAM clear button. The pachinko machine 10 may be activated in the setting change mode. Hereinafter, the processing after step S11929 will be specifically described.

  In step S11929 shown in FIG. 64, it is determined whether or not 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 proceeds to step S11930, and interrupt permission setting for permitting generation of timer interrupt processing is executed. Thereafter, the process proceeds to step S11931, and interrupt prohibition setting for prohibiting the generation of timer interrupt processing is executed. Then, it progresses to step S11932 mentioned 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 steps S11930 and S11931.

  In step S11932, various random number update processes are executed. In various random number update processes, a process of reading the current numerical information from each counter in the main RAM 64, adding 1 to the read numerical information, and then overwriting the added numerical information on the reading source counter Execute. If the read numerical information is the maximum value of the counter, a process of overwriting 0 on the read source counter is executed. After executing Step S11932, the process proceeds to Step S11933.

  In step S11933, a power failure monitoring process is executed. In the power failure 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 falls below a predetermined value (for example, 10 volts), the power supply of the pachinko machine 10 It is determined that the switch has been turned off or a power failure has occurred, and various information (information indicating the game state, control information, etc.) stored in the register of the main CPU 62x is saved in a predetermined area of the main RAM 64. . When the saving of these pieces of information to the main RAM 64 is completed, the power recovery flag is turned ON, a RAM determination value (for example, a checksum value) is calculated, and the calculated RAM determination value is stored in the main 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 becomes inoperable. Note that the power supply device 85 of this aspect is used as a drive voltage in a control system such as the main control device 60 even when the drive voltage supplied to the main control device 60 is lowered to a value lower than a predetermined value. A stabilized voltage of volt is output. As a time for which the stabilization voltage is output, a sufficient time for executing the processing until the above-described RAM determination value is stored in the main RAM 64 is secured.

  On the other hand, in the power failure monitoring process in 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 proceeds to step S11934 as it is.

  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 proceeds to step S11935 described above, and an interrupt permission setting for permitting generation of timer interrupt processing is executed. Thereafter, the process returns to the above-described step S11931 to execute the interrupt prohibition setting for prohibiting the generation of the timer interrupt process. 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 for executing the interrupt permission setting, but returns to step S11932 for executing various random number update processes. .

  As described above, according to this aspect, since the above-described lighting / blinking process is performed, a light emitting unit that does not light due to a disconnection or the like exists among the plurality of light emitting units constituting the information display unit 45z. In addition, it is possible to inspect whether there is a light emitting unit that is always 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 right middle 7-segment display 45z3 are not lit due to a malfunction, control for displaying “3” on the right middle 7-segment display 45z3 is executed. Even in this case, when the segment light emitting part G and the segment light emitting part D are not lit, “7” is displayed on the middle 7 segment display 45z3. As a result, there is a possibility that the administrator misidentifies the numerical information of the game history information displayed on the information display unit 45z, for example. On the other hand, according to the configuration of the present aspect, when the pachinko machine 10 is turned on, there is no light emitting unit that does not turn on due to a malfunction such as disconnection among the plurality of light emitting units constituting the information display unit 45z. In addition, it is possible to inspect whether there is a light emitting unit that is always turned on due to a malfunction and does not turn off, so that such misidentification can be suppressed.

  Also, in this aspect, the process branched into a plurality based on the operation mode of each operation unit (RAM clear switch, setting key) when the power switch is turned on and the supply of power from the outside is started. Execute one of the processing flows in the flow. For example, when the RAM clear switch is turned on when the power is turned on, the setting key is on, and the inner frame 13 and the front door frame 14 are in the open state, the setting change process A processing flow including is executed. And in this aspect, even if it is a case where any processing flow of the processing flow branched into plurality is performed, a lighting blinking process is performed. Therefore, according to this aspect, the pachinko machine 10 can cause the pachinko machine 10 to execute the lighting / blinking process regardless of what operation mode each operation unit accepts when the power is turned on. Specifically, for example, when the 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 the front door frame 14 are opened. When the power is turned on at this time, the pachinko machine 10 may be subjected to a setting change process (setting change mode) to check whether or not the lottery setting can be changed. Even in this case, the pachinko machine 10 executes the above-described lighting / flashing process after executing the setting change process (setting change mode), so that the manufacturer administrator checks the operation in the setting change mode. After that, it is possible to inspect whether or not there is a light emitting unit that does not turn on or a light emitting unit that does not turn off due to a malfunction among the plurality of light emitting units constituting the information display unit 45z of the pachinko machine 10 as it is. Therefore, the inspection efficiency at the time of shipment of the pachinko machine 10 can be dramatically improved. As described above, the administrator or the inspector of the pachinko machine 10 has a plurality of light emitting units constituting the information display unit 45z regardless of the operation mode received by each operation unit when the power is turned on. It is possible to inspect whether there is a light emitting unit that does not turn on or a light emitting unit that does not turn off due to a problem. That is, it is possible to prevent the inspection from being performed depending on the operation mode received 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 electric power from the outside is started, steps S11901 to S11928 of the main process (FIGS. 63 and 64) including the lighting and blinking process are performed. -2 is executed, and after the execution of the processing group is completed, the interrupt permission setting is executed and the processing group included in the timer interrupt processing is repeatedly executed. After that, the lighting / blinking process can be executed only once. If the lighting / blinking process is included in the timer interrupt process group, the lighting / blinking process is repeatedly executed, which increases the processing load on the pachinko machine 10. Further, if the lighting / blinking process is repeatedly executed, there is a possibility that the period during which various types of information can be displayed on the information display unit 45z may be reduced. On the other hand, according to this aspect, since the lighting and blinking process can be executed only once after the supply of power from the outside is started, the processing load of the pachinko machine 10 can be reduced, The administrator or the inspector of the pachinko machine 10 can inspect whether there are any light emitting parts that do not turn on and light emitting parts that do not turn off due to malfunctions in the plurality of light emitting parts constituting the information display unit 45z.

  Further, according to this aspect, after the power switch is turned on and the supply of power from the outside is started, before the execution of the timer interrupt process (FIG. 27) is started by executing the interrupt permission setting, Executes the blinking process. Therefore, an administrator or an inspector of the pachinko machine 10 can turn off or turn off a light emitting unit that does not turn on due to a malfunction among the plurality of light emitting units constituting the information display unit 45z before the game can proceed in the pachinko machine 10. It is possible to inspect whether or not there is no light emitting portion. If the configuration is such that the lighting / blinking process is executed after the timer interrupt process is started, before the administrator or the inspector can inspect the information display unit 45z, the player It becomes possible to start a game in the pachinko machine 10. In this case, after the player starts the game in the pachinko machine 10, the manager or the inspector inspects the information display unit 45z of the pachinko machine 10 and finds a defect in the light emitting unit of the information display unit 45z. There is a risk that. When an administrator or an inspector finds a defect in the light emitting unit of the information display unit 45z of the pachinko machine 10, the game is interrupted or stopped by the player in order to repair or replace the information display unit 45z. Need to be received. As a result, there is a possibility of giving a strong discomfort to the player. On the other hand, according to this aspect, the administrator or the inspector can inspect the information display unit 45z of the pachinko machine 10 before the player can start the game in the pachinko machine 10. Since it becomes possible, it can suppress that a game is interrupted or stopped, and giving a player discomfort.

  Also, according to this aspect, after executing the lighting / blinking process, 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 game history information such as the base (during the normal mode) is displayed before the information display unit 45z is displayed, the administrator or the inspector of the pachinko machine 10 10 before the game history information is displayed on the information display unit 45z, it is inspected whether a plurality of light emitting units constituting the information display unit 45z include a light emitting unit that does not turn on or a light emitting unit that does not turn off due to a malfunction. can do. As a result, the game displayed on the information display unit 45z without noticing that there is a light-emitting unit that does not turn on or a light-emitting unit that does not turn off due to a malfunction among the plurality of light-emitting units constituting the information display unit 45z. Confirmation of history information can be suppressed.

  In addition, in this aspect, after performing the setting change process (setting change mode) (step S11925 of FIG. 63, step S11928), it is set as the structure which performs a lighting blink process (step S11928-2 of FIG. 64). Instead of this, a configuration may be adopted in which the lighting / flashing process is executed before the lottery setting setting information is displayed on the information display unit 45z in the setting change process (setting change mode). Specifically, for example, the lighting / blinking process in step S11928-2 of FIG. 64 is omitted, and the lighting / blinking process is executed prior to the execution of the process of step S11908 (process for determining the state of the RAM clear button) in FIG. It is good also as composition to do. According to such a configuration, an administrator or an inspector of the pachinko machine 10 can set a plurality of light emitting units that constitute the information display unit 45z before setting information is displayed on the information display unit 45z in the pachinko machine 10. It is possible to inspect whether there is a light emitting part that does not turn on or a light emitting part that does not turn off due to a malfunction. As a result, the setting information displayed on the information display unit 45z is confirmed without noticing that there is a light-emitting unit that does not operate normally due to a malfunction among the plurality of light-emitting units constituting the information display unit 45z. Can be suppressed. Similarly, according to this configuration, since the lottery setting setting information is displayed on the information display unit 45z in the setting confirmation process (setting confirmation mode), the lighting / blinking process is executed. Without noticing that there is a light emitting unit that does not operate normally due to a malfunction among the plurality of light emitting units constituting the information display unit 45z, the setting information displayed on the information display unit 45z is confirmed. This can be suppressed.

  Moreover, in this aspect, by setting it as the structure which performs a lighting blink process in step S11928-2 of FIG. 64, even if it is a case where any process flow of the process flow branched into plurality is performed, a lighting blink process However, the present invention is not limited to this configuration, and by adopting another configuration, a configuration that executes the lighting / blinking process even when any of the processing flows branched into a plurality of processing flows is executed. It is good. 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 execution of the process in step S11908 (process for determining the state of the RAM clear button) in FIG. . Also, for example, the lighting and blinking process in step S11928-2 in FIG. 64 is omitted, between step S11909 and step S11910 in FIG. 63, between step S11909 and step S11914 in FIG. 63, and between step S11919 and step in FIG. It is good also as a structure which performs a lighting blink process between S11920 and between step S11919 and step S11923 of FIG.

<Aspect 99>
In the above aspect 97 and aspect 98, an administrator or an inspector inspects whether there is a light emitting part that does not turn on or a light emitting part that does not turn off due to a malfunction among the plurality of light emitting parts constituting the information display part 45z. As the inspection process, the above-described lighting / blinking process is employed, but the inspection process is not limited to the lighting / blinking process, and various control modes can be employed. For example, as the processing for inspection, the control for blinking the light emitting unit is not executed, and all the light emitting units constituting the information display unit 45z are shifted from the lighted state to the lighted state at the same time. You may perform control which transfers to the state light-extinguished simultaneously. Further, for example, as the inspection process, control for blinking all the light emitting units in synchronization may be executed. Further, for example, as an inspection process, control may be performed to turn on all the light emitting units constituting the information display unit 45z in turn and then turn them off. That is, as the inspection process, it is only necessary to execute control to shift all the light emitting units constituting the information display unit 45z from the unlit state to the lit state at least once and then to the unlit state. Even by executing the inspection process in such a control mode, the administrator or the inspector of the pachinko machine 10 does not turn on the light emitting unit that is not turned on due to a malfunction in the plurality of light emitting units constituting the information display unit 45z or turns off. It is possible to inspect whether or not there is no light emitting portion.

<Aspect 100>
Among the above aspects, in the configuration capable of executing the setting change mode and the setting confirmation mode, various main processes and timer interrupt processes can be employed. This will be specifically described below.

  FIG. 65 is a flowchart showing a main process executed by the main MPU 62 (main CPU 62x) of the aspect 100 of the first embodiment when the power is turned on.

  In step S12001, an initial setting process associated with power-on is executed. Specifically, a predetermined value is set in advance in the stack pointer of the main CPU 62x, and the sub-side control devices (the sound emission control device 90, the display control device 100, the payout control device 70, etc.) are operable. In order to wait for the state to be reached, a wait process is executed for about 1 second, for example. Then, access to the main RAM 64 is permitted. Thereafter, the process proceeds to step S12002, and internal function register setting processing is executed. Then, it progresses to step S12003 and performs the process for alert | reporting that the said pachinko machine 10 was turned on and started. Specifically, an activation command indicating that the pachinko machine 10 has been activated is transmitted to the sound emission control device 90. When receiving the activation command, the sound emission control device 90 executes a process for notifying that the pachinko machine 10 has been activated. Specifically, for example, a sound such as “being activated” or a predetermined alarm sound is output from the speaker 46. After executing Step S12003, the process proceeds to Step S12004.

  In step S12004, it is determined whether the power recovery flag is ON.

  Here, the power recovery flag will be described. In this aspect, when the power switch of the pachinko machine 10 is turned off or when a power failure occurs, various information (information indicating the game state, control information, etc.) stored in the register of the main CPU 62x is mainly used. Retreat to a predetermined area of the side RAM 64. Then, when the saving of these pieces of information to the main 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 RAM 64. A RAM determination value (for example, a checksum value) is calculated, and the calculated RAM determination value is stored in the main RAM 64. Note that after the supply of power from the commercial power supply is cut off, the power supply is switched from the backup power supply such as a capacitor. Thus, the power recovery flag is a flag for identifying at the time of power-on whether or not information for returning to the state when the power was turned off last time is stored in the main RAM 64.

  If it is determined in step S12004 that the power recovery flag is ON (step S12004: YES), the process proceeds to step S12005, and a predetermined calculation is executed based on a predetermined information group stored in the main RAM 64. Thus, the RAM determination value is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. Thereafter, the process proceeds to step S12006, whether or not the calculated RAM determination value (checksum value) is normal, that is, the calculated RAM determination value (checksum value) and the RAM determination value stored in the main RAM 64 ( It is determined whether or not the checksum value matches. If it is determined in step S12006 that the RAM determination value is normal (step S12006: YES), the process proceeds to step S12007.

  In step S12007, the lottery setting setting information stored in the main RAM 64 is read to determine whether the setting information is a numerical value within a predetermined range. In this aspect, since the setting information set in the pachinko machine 10 has six levels from “1” to “6”, when the setting information is a numerical value within the range from “1” to “6” When the setting information is determined to be a numerical value within a predetermined range, on the other hand, when “0” or “7” is stored as the setting information, or when information other than the numerical value is stored due to noise or the like 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 proceeds to step S12008.

  On the other hand, when it is determined that the power recovery flag is not ON in step S12004 described above (step S12004: NO), when 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 a numerical value within the predetermined range (step S12007: NO), the process proceeds to step S12015, and the RAM abnormality flag is turned ON. That is, the RAM abnormality flag is a flag that is turned on when the power recovery flag is OFF, when the RAM determination 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 RAM 64 is not normal.

  Hereinafter, the flow of processing executed when the RAM abnormality flag is not turned on will be described, and then the processing flow executed when the RAM abnormality flag is turned on will be described.

  In step S12008, it is determined whether the setting change flag is ON. The setting change flag is a flag that is turned on when a setting change process (setting change mode) described later is started and turned off when the setting change process (setting change mode) is ended. Here, the situation in which the setting change flag is ON in step S12008 means that a setting change process (setting change mode) described later is executed when the pachinko machine 10 is turned on last time, and the setting change process ( This is a situation in which the setting change flag is kept ON because the power switch of the pachinko machine 10 is turned off or a power failure occurs during execution of the setting change mode.

  If it is determined in step S12008 that the setting change flag is ON (step S12008: YES), the process advances to step S12018 to execute setting change processing (setting change mode). In the setting change process (setting change mode), a process of displaying the lottery setting setting information on the information display unit 45z is executed and a process of accepting a change of the lottery setting information is executed. That is, the setting change mode is a mode in which an administrator or the like can change the lottery setting setting information 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 proceeds 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 proceeds to step S12010, and whether all of the setting key, the frame opening switch, and the door opening switch are ON. Determine. Note that “the setting key is ON” means that the setting key is inserted into the setting key hole and located on the ON side. The frame opening switch is a switch that is turned on when the inner frame 13 is open with respect to the outer frame 11, and the door opening switch is a state in which the front door frame 14 is open with respect to the inner frame 13. It is a switch that is sometimes turned on.

  If it is determined in step S12010 that at least one of the setting key, the frame opening switch, and the door opening switch is not ON (step S12010: NO), the process proceeds 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 when a setting confirmation process (setting confirmation mode) described later is started and turned off when the setting confirmation process (setting confirmation mode) ends. Here, the situation in which the setting confirmation flag is ON in step S12011 means that a setting confirmation process (setting confirmation mode) described later is executed when the pachinko machine 10 is turned on last time, and the setting confirmation process ( This is a situation in which the setting confirmation flag is kept ON because the power switch of the pachinko machine 10 is turned off or a power failure occurs 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 proceeds to step S12013 described below.

  On the other hand, if it is determined in step S12010 that the setting key, the frame opening switch, and the door opening switch are all ON (step S12010: YES), and the setting confirmation flag is ON in step S12011. If it is determined (step S12011: YES), the process proceeds to step S12012. That is, when the pachinko machine 10 is turned on, the RAM clear button is OFF, and all of the setting key, the frame opening switch, and the door opening switch are ON, and the previous power of the pachinko machine 10 is turned on. Setting confirmation processing (setting confirmation mode) is executed at the time of turning on, and the setting confirmation is being performed when the power switch of the pachinko machine 10 is turned off or a power failure occurs during execution of the setting confirmation processing (setting confirmation mode). If the flag remains ON, the process advances to step S12012.

  In step S12012, a setting confirmation process is executed. In the setting confirmation process (setting confirmation mode), a process of displaying the current lottery setting setting information on the information display unit 45z is executed. That is, the setting confirmation mode is a mode in which an administrator or the like can confirm the current lottery setting setting information of the pachinko machine 10. Details of the setting confirmation processing (setting confirmation mode) will be described later. After executing Step S12012, the process proceeds to Step S12013.

  In step S12013, a power recovery process for returning to the previous power-off state is executed. Specifically, in the power recovery process, the value of the stack pointer stored in the main RAM 64 is written into the stack pointer of the main CPU 62x, and the data saved in the main RAM 64 is restored to the register of the main CPU 62x. Then, the state of the register of the main CPU 62x is restored to the state before the power is shut off. After executing step S12013, the process proceeds to step S12014, and the power recovery flag of the main RAM 64 is turned off. Thereafter, the process proceeds to step S12022 described later.

  On the other hand, if it is determined in step S12009 that the RAM clear button is ON (step S12009: YES), the process proceeds to step S12017, and all of the setting key, frame opening switch, and door opening switch are ON. It is determined whether or not there is. If it is determined in step S12017 that all of the setting key, the frame opening switch, and the door opening switch are ON (step S12017: YES), the process proceeds to step S12018 described above, and the setting change processing (setting change described above) is performed. Mode). Then, it progresses to step S12022 mentioned later. On the other hand, if it is determined in step S12017 that at least one of the setting key, the frame opening switch, and the door opening switch is not ON (step S12017: NO), the process proceeds to step S12019.

  In step S12019, it is determined whether the above-described 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 proceeds to step S12020, and the first RAM clear process is executed. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main RAM 64 except for the lottery setting information. That is, when the first RAM clear process is executed, various flag information indicating various gaming states, various control information, and the like are erased, but the lottery setting information is not erased, and the setting information is maintained as it is. Further, in this aspect, in the first RAM clear process, a first RAM clear process execution command, which is a command indicating that the first RAM clear process has been executed, is transmitted to the sound emission control device 90. When receiving the first RAM clear process execution command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the first RAM clear process has been executed. Specifically, for example, a sound such as “RAM cleared” is output from the speaker 46. After executing Step S12020, the process proceeds to Step S12022 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 proceeds to step S12021 to execute a RAM abnormality notification process. In the RAM abnormality notification process, a RAM abnormality command that is a command indicating that the main RAM 64 is abnormal is transmitted to the sound emission control device 90. When receiving the RAM abnormality command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a sound such as “RAM is abnormal. Please start in the setting change mode” is repeatedly output from the speaker 46. After executing Step S12021, the process proceeds to Step S12022. However, in the flow of this description, since the RAM abnormality flag is not ON, the process does not proceed to step S12021.

  In step S12022, the lighting blinking process which is a process for turning on and blinking all the light emitting units (segment light emitting units A to G and DP light emitting units) constituting the information display unit 45z is executed. In the lighting / blinking process, all the light emitting units constituting the information display unit 45z are turned on for a predetermined time (for example, 3 seconds), and then flashed in synchronization for a predetermined time (for example, 2 seconds). After executing Step S12022, the process proceeds to Step S12023.

  In step S12023, an interrupt permission setting for permitting generation of timer interrupt processing is executed. After that, while repeating the infinite loop and waiting, a timer interrupt process described later is periodically executed (every 4 ms in this embodiment).

  Next, a 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 step If it is determined in S12007 that the setting information is not a numerical value within a predetermined range (step S12007: NO), the process proceeds to step S12015, and the RAM abnormality flag is turned ON. Thereafter, the process proceeds to step S12016.

  In step S12016, it is determined whether the RAM clear button is ON. If it is determined in step S12016 that the RAM clear button is ON (step S12016: YES), the process proceeds to step S12017, and whether all of the setting key, the frame opening switch, and the door opening switch are ON. Determine. If it is determined in step S12017 that all of the setting key, the frame opening switch, and the door opening switch are ON (step S12017: YES), the process proceeds to step S12018 described above, and the setting change processing (setting change described above) is performed. Mode). Thereafter, the process proceeds to step S12022. On the other hand, when it is determined in step S12016 that the RAM clear button is not ON (step S12016: NO), and in step S12017, it is determined that at least one of the setting key, the frame opening switch, and the door opening switch is not ON. If so (step S12017: NO), the process proceeds to step S12019.

  In step S12019, it is determined whether the above-described 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 proceeds to step S12020, and the first RAM clear process described above is executed. After executing Step S12020, the process proceeds to Step S12022. However, in the flow of this description, 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 proceeds to step S12021, and the above-described RAM abnormality notification process is executed. Thereafter, the process proceeds to step S12022.

  In step S12022, the above-described lighting blinking process is executed. After executing step S12022, the process advances to step S12023 to execute an interrupt permission setting that permits generation of timer interrupt processing. Thereafter, the infinite loop process is repeated to wait, and a timer interrupt process described later is periodically executed (every 4 ms in this embodiment).

  As described above, in this aspect, the operation for executing the setting change process (setting change mode) is performed when the RAM clear switch is pressed (ON state) and the setting key (keyhole) is used. In this state, the power switch is turned on while all the frame opening switch and door opening switch are turned on. In addition, the operation for executing the setting confirmation processing (setting confirmation mode) is performed when the RAM clear switch is not pressed (set to the OFF state), and the setting key (key hole), the frame opening switch, and the door opening. This is an operation to turn on the power switch with all the switches turned on. In addition, the operation for executing the first RAM clear process is performed by pressing the RAM clear switch (ON state) and turning off any of the setting key (key hole), the frame opening switch, and the door opening switch. In this state, the power switch is turned on.

  Hereinafter, an example of a flow of processing realized by executing the above-described main processing will be described together.

  When the supply of power is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S12004, step S12006, step S12007), but setting change processing (setting change mode) When the operation for executing the operation is performed, the setting change process is performed regardless of whether the condition for turning on the RAM abnormality flag is satisfied or not, and regardless of the state of the setting confirmation flag. (Setting change mode) is executed (step S12018).

  When the power supply is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S12004, step S12006, step S12007), and a condition for turning on the RAM abnormality flag. When it is determined that the setting change flag is ON (step S12008: YES), an operation for executing the setting change process (setting change mode), a setting confirmation process Regardless of whether or not an operation for executing (setting confirmation mode) and an operation for executing the first RAM clearing process are performed, the setting change processing (setting change mode) is executed (step S12018). .

  When the power supply is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S12004, step S12006, step S12007), and a condition for turning on the RAM abnormality flag. Is determined not to be established, it is determined that the setting change flag is not ON (step S12008: NO), and if an operation for executing the first RAM clear process has been performed (step S12009). : YES, Step S12017: NO, Step S12019: NO), regardless of the state of the setting confirmation flag, the first RAM clear process is executed (Step S12020).

  When the power supply is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S12004, step S12006, step S12007), and a condition for turning on the RAM abnormality flag. Is determined not to be established, it is determined that the setting change flag is not ON (step S12008: NO), and an operation for executing the setting confirmation processing (setting confirmation mode) is performed. (Step S12009: NO, step S12010: YES), a setting confirmation process (setting confirmation mode) is executed (step S12012).

  When the power supply is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S12004, step S12006, step S12007), and a condition for turning on the RAM abnormality flag. When it is determined that is not established, it is determined that the setting change flag is not ON (step S12008: NO), and the operation for executing the setting confirmation processing (setting confirmation mode) is not performed. Even if the setting confirmation flag is ON (step S12011: YES), a setting confirmation process (setting confirmation mode) is executed (step S12012).

  When the power supply is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S12004, step S12006, step S12007), and a condition for turning on the RAM abnormality flag. If the RAM abnormality flag is turned ON (step S12015), even if an operation for executing the first RAM clear process is performed, the first RAM clear process is performed. Without executing, RAM abnormality notification processing is executed (step S12021).

  When the power supply is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S12004, step S12006, step S12007), and a condition for turning on the RAM abnormality flag. When the RAM abnormality flag is turned on (step S12015), even if an operation for executing the setting confirmation process (setting confirmation mode) is performed, the setting is made. The RAM abnormality notification process is executed without executing the confirmation process (setting confirmation mode) (step S12021).

  Details of the setting change process shown in step S12018 of FIG. 65 will be described next.

  FIG. 66 is a flowchart illustrating a setting change process executed by the main MPU 62 (main CPU 62x) according to the aspect 100 of the first embodiment. This setting change process is executed as a subroutine of step S12018 in FIG.

  In step S12101, the setting changing flag in the main RAM 64 is turned ON. As described above, the setting change flag is a flag indicating that the setting change process (setting change mode) has been started, and a flag indicating that the setting change process (setting change mode) has not yet ended. It is. After executing Step S12101, the process proceeds to Step S12102.

  In step S12102, a setting change start initial setting process is executed. In the initial setting process at the start of setting change, an initial setting necessary for starting the setting change process is executed. In this mode, in the initial setting process at the start of setting change, it is determined whether or not the RAM abnormality flag is ON. If it is determined that the RAM abnormality flag is ON, the RAM abnormality flag is turned OFF. To. After executing Step S12102, the process proceeds 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 been started, is transmitted to the sound emission control device 90. When receiving the setting change mode start command, the sound emission control device 90 outputs a sound indicating that the setting change mode is in effect from the speaker 46. Specifically, for example, sound such as “in the setting change mode” is repeatedly output from the speaker 46. In addition, when receiving the setting change mode start command, the sound emission control device 90 causes the symbol display device 41 to display information indicating that it is in the setting change mode. Specifically, for example, the sound emission control device 90 transmits a command for causing the symbol display device 41 to display a character string such as “in setting change mode” to the display control device 100, and the display that has received the command. The control device 100 causes the symbol display device 41 to display a character string such as “in the setting change mode”. In addition, when receiving the setting change mode start command, the sound emission control device 90 controls the various lamps 47 so as to blink repeatedly by alternately turning on and off at the maximum luminance.

  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 game hall via the external terminal. The hall computer that has received the information indicating that the setting change mode has been started displays the information of the pachinko machine 10 in the setting change mode on the management screen. After executing Step S12103, the process proceeds to Step S12104.

  In step S12104, the lottery setting setting information stored in the main RAM 64 is read and stored as update setting information. Specifically, in this aspect, the lottery setting setting information stored in the setting information storage area of the main RAM 64 is read, and the read setting information is stored in an area other than the setting information storage area of the main RAM 64. To the update setting information storage area. After executing Step S12104, the process proceeds to Step S12105.

  In step S12105, the update setting information stored in the update setting information storage area of the main RAM 64 is read, and control for displaying the read update setting information on the information display unit 45z is started. Specifically, the setting information for update is lit and displayed on the information display unit 45z. Thereafter, the process proceeds to step S12106, and it is determined whether or not the update setting information is a numerical value within a predetermined range. In this aspect, since the setting information set in the pachinko machine 10 has six levels from “1” to “6”, is the update setting information 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 proceeds to step S12108. On the other hand, when it is determined in step S12106 that the update setting information is not a numerical value within a predetermined range (step S12106: NO), for example, “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 to change the update setting information to an initial value. In this aspect, “1” is stored as the initial value in the update setting information. Thereafter, the process proceeds 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, during a period in which the setting key (keyhole) is on, the signal indicates a high level and the setting key (keyhole) is on the off side. The signal indicating the low level is monitored, and when the falling edge where the signal falls from the high level to the low level is detected, it is determined that the setting key (keyhole) has become the OFF side. If it is determined in step S12108 that the setting key (keyhole) has not shifted from the ON side to the OFF side (step S12108: NO), the process proceeds to step S12109, and whether or not the setting change button has been pressed. Determine. If it is determined in step S12109 that the setting change button has been pressed (step S12109: YES), the process advances to step S12110 to update the update setting information. Specifically, 1 is added to the numerical information stored as the update setting information. However, when the setting change button is pressed in a situation where the numerical information stored as the 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 or not the updated setting information for update 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 of step S12110, and the update setting information is stored. It is determined whether the numerical value is within a predetermined range.

  If it is determined in step S12108 described above that the setting key (keyhole) has shifted from the ON side to the OFF side (step S12108: YES), the process proceeds to step S12111.

  In step S12111, the setting information for update 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 RAM 64 is read, and the read update setting information is copied to the setting information storage area of the main RAM 64. To do. After executing step S12111, the process proceeds to step S12112, and the control for displaying the update setting information on the information display unit 45z is terminated. Thereafter, the process proceeds to step S12113.

  In step S12113, a setting change notification end process is executed. In the setting change notification end process, a setting change mode end command, which is a command indicating that the setting change mode is ended, is transmitted to the sound emission control device 90. When receiving the setting change mode end command, the sound emission control device 90 ends the various controls for notifying that the setting change mode is in progress.

  Further, in the setting change notification end process, information indicating that the setting change mode is ended is transmitted to the hall computer of the game hall via the external terminal. The hall computer that has received the information indicating that the setting change mode has ended 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 proceeds to Step S12114. After executing the setting change notification end processing, the configuration information of the lottery setting after the change is transmitted to the hall computer of the game hall via the external terminal, and the hall computer that has received the information displays the management screen on the management screen. It is good also as a structure which displays the setting information of the lottery setting after the change of the pachinko machine 10. FIG.

  In step S12114, a first RAM clear process is executed. In the first RAM clear process, information other than the lottery setting setting information stored in the setting information storage area of the main RAM 64 is erased. When the first RAM clear process is executed, the above-described setting change flag is also erased (turned OFF). After executing step S12114, the setting change process is terminated.

  Next, details of the setting confirmation processing shown in step S12012 of FIG. 65 will be described.

  FIG. 67 is a flowchart illustrating a setting confirmation process executed by the main MPU 62 (main CPU 62x) according to the aspect 100 of the first embodiment. This setting confirmation process is executed as a subroutine of step S12012 in FIG.

  In step S 12201, the setting confirmation flag in the main RAM 64 is turned ON. As described above, the setting confirmation flag is a flag indicating that the setting confirmation processing (setting confirmation mode) has been started, and a flag indicating that the setting confirmation processing (setting confirmation mode) has not been completed yet. It is. After executing Step S12201, the process proceeds to Step S12202.

  In step S12202, a setting confirmation notification start process 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 is started, is transmitted to the sound 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 it is in the setting confirmation mode. Specifically, for example, a sound such as “in the setting confirmation mode” is repeatedly output from the speaker 46. In addition, when receiving the setting confirmation mode start command, the sound emission control device 90 causes the symbol display device 41 to display information indicating that it is in the setting confirmation mode. Specifically, for example, the sound emission control device 90 transmits a command for causing the symbol display device 41 to display a character string such as “in setting confirmation mode” to the display control device 100, and the display that has received the command. The control device 100 causes the symbol display device 41 to display a character string such as “in setting confirmation mode”. In addition, when receiving the setting confirmation mode start command, the sound emission control device 90 controls the various lamps 47 so as to blink repeatedly by alternately turning on and off at the maximum luminance.

  Further, 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 game hall via the external terminal. The hall computer that has received the information indicating that the setting confirmation mode has been started displays the information of the pachinko machine 10 in the setting confirmation mode on the management screen. After executing Step S12202, the process proceeds to Step S12203.

  In step S12203, control for displaying the lottery setting setting information stored in the setting information storage area of the main RAM 64 on the information display unit 45z is started. Specifically, the lottery setting information is blinked and displayed on the information display unit 45z. Thereafter, the process proceeds 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, during a period in which the setting key (keyhole) is on, the signal indicates a high level and the setting key (keyhole) is on the off side. When the signal indicating the low level is monitored and a falling edge that falls from the high level to the low level is detected, the setting key (keyhole) is 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 proceeds to step S12205. That is, until the setting key (keyhole) shifts from the ON side to the OFF side, the infinite loop is repeated and the process does not proceed to step S12205. When the setting key (keyhole) shifts from the ON side to the OFF side, the process proceeds to step S12205. move on.

  In step S12205, the control for displaying the lottery setting setting information on the information display unit 45z ends. Thereafter, the process proceeds to step S12206.

  In step S12206, a setting confirmation notification end process is executed. In the setting confirmation notification end process, a setting confirmation mode end command, which is a command indicating that the setting confirmation mode is ended, is transmitted to the sound emission control device 90. When receiving the setting confirmation mode end command, the sound emission control device 90 ends the various controls for notifying that the above-described setting confirmation mode is in progress.

  Further, in the setting confirmation notification end process, information indicating that the setting confirmation mode is ended is transmitted to the hall computer of the game hall via the external terminal. The hall computer that has received the information indicating that the setting check mode has ended displays information indicating that the setting check mode of the pachinko machine 10 has ended on the management screen. After executing step S12206, the process proceeds to step S12207, and the setting changing flag in the main RAM 64 is turned OFF. Thereafter, the setting confirmation process is terminated.

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

  FIG. 68 is a flowchart illustrating timer interrupt processing executed by the main MPU 62 (main CPU 62x) according to the aspect 100 of the first embodiment. In this aspect, the main MPU 62 (main CPU 62x) executes timer interrupt processing at a cycle of 4 ms.

  In step S12301, various random number update processes are executed. In various random number update processing, the current numerical information is read from each counter (big hit random number counter C1, big hit type counter C2, reach random number counter C3, electric accessory release counter C4, etc.) in the main RAM 64, and the read numerical information is After executing the process of adding 1, the process of overwriting the numerical information after the addition to the reading source counter is executed. If the read numerical information is the maximum value of the counter, a process of overwriting 0 on the read source counter is executed. After executing Step S12301, the process proceeds to Step S12302.

  In step S12302, a power failure monitoring process is executed. In the power failure 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 falls below a predetermined value (for example, 10 volts), the power supply of the pachinko machine 10 It is determined that the switch has been turned off or a power failure has occurred, and various information (information indicating the game state, control information, etc.) stored in the register of the main CPU 62x is saved in a predetermined area of the main RAM 64. . Then, when the saving of these pieces of information to the main 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 RAM 64. A RAM determination value (for example, a checksum value) is calculated, and the calculated RAM determination value is stored in the main RAM 64. After that, without proceeding to step S12303, which will be described later, the infinite loop process is repeated until the supplied drive voltage decreases and becomes inoperable. Note that the power supply device 85 of this aspect is used as a drive voltage in a control system such as the main control device 60 even when the drive voltage supplied to the main control device 60 is lowered to a value lower than a predetermined value. A stabilized voltage of volt is output. As a time for which the stabilization voltage is output, a sufficient time for executing the processing until the above-described RAM determination value is stored in the main RAM 64 is secured.

  On the other hand, if it is determined in the power failure monitoring process in step S 12302 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 proceeds to step S 12303 as it is.

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 proceeds to step S12304. On the other hand, if it is determined in step S12303 that the RAM abnormality flag is ON (step S12303: YES), the timer interrupt process is terminated without executing the processes after step S12304. That is, when the RAM abnormality flag is ON, processing for enabling the progress of the game after step S12304 is not executed, and the game progress mode in which the progress of the game is possible is not shifted. Yes. Hereinafter, processing after step S12304, which is processing for enabling the progress of the game, will be described.

  In step S12304, port output processing is executed. In the port output process, when output information is set in the previous timer interrupt process, a process for performing output corresponding to the output information to the various drive units 36c and 34b is executed. For example, when the information for switching the special winning opening 36a to the open state is set, the output of the drive signal to the variable winning drive unit 36c is started, and when the information for switching to the closed state is set. The output of the drive signal is stopped. In addition, when the information for switching the electric accessory 34a of the second start port 34 to the open state is set, the output of the drive signal to the electric accessory driving unit 34b is started, and the information to be switched to the closed state is set. If set, output of the drive signal is stopped. Thereafter, the process proceeds to step S12305.

  In step S12305, read processing is executed. In the reading process, a signal other than the incoming ball signal is read and the read information is stored for use in future processing. Thereafter, the process proceeds to step S12306.

  In step S12306, a signal received from each of the incoming detection sensors 44a to 44h is read, and an incoming detection process for executing processing corresponding to the read information is executed. Since the incoming ball detection process is the same as the incoming ball detection process shown in FIG. 28, a detailed description thereof will be omitted. After executing Step S12306, the process proceeds to Step S12307.

  In step S12307, a timer update process for updating the numerical information of a predetermined timer counter provided in the main RAM 64 is executed. Thereafter, the process advances to step S12308 to execute a prize ball command output setting process. Thereafter, the process proceeds to step S12309.

  In step S12309, the entrance processing for the start port accompanying the entrance of the game ball into the first start port 33 and the second start port 34 is executed. In the starting ball entry processing, the big hit random number counter C1, the big hit type counter C2, and the reach random number counter C3 are determined based on the determination that the game ball has entered the first starting port 33 or the second starting port 34. The value is acquired and the acquired counter value is stored in the hold information storage area 64b of the RAM 64. After executing Step S12309, the process proceeds to Step S12310.

  In step S12310, a through gate entry process for entering (passing) a game ball into the through gate 35 is executed. In the entry process for the through gate, the value of the electric accessory release counter C4 is acquired based on the determination that the game ball has entered (passed) the through gate 35, and the acquired counter value is stored in the RAM 64. It memorize | stores in the telephone role reservation area 64d. After executing Step S12310, the process proceeds to Step S12311.

  In step S12311, a game times control process for controlling a game in each game time is executed. In the game times control process, winning lottery, display control of the first symbol display unit 37a and the second symbol display unit 37b, and the like are performed. After executing Step S12311, the process proceeds to Step S12312.

  In step S12312, a game state transition process for shifting the game state is executed. In the game state transition process, a process of shifting the game state to an opening / closing execution mode, a high probability mode, a high frequency support mode, or the like is executed. After executing Step S12312, the process proceeds to Step S12313.

  In step S12313, an electric combination support process for controlling the electric combination 34a is executed. In the electric utility support process, it is determined whether or not the electric accessory 34a is in an open state (electric accessory release lottery), and when it is determined to be in an open state, the electric accessory 34a is driven and controlled. After executing Step S12313, the process proceeds to Step S12314.

  In step S12314, a game ball launch control process is executed. In the game ball launch control process, a process for launching a game ball to the game area PA when the operation handle 25 is operated by the player is executed. After executing Step S12314, the process proceeds to Step S12315.

  In step S12315, external information setting processing is executed so as to control the start and end of output of an external signal according to the processing results of various processing executed in the current timer interrupt processing. After executing Step S12315, the process proceeds to Step S12316.

  In step S12316, a game history process for calculating and displaying game history information is executed. Since the game history process is the same as the game history process shown in FIG. 29, a detailed description thereof will be omitted. After executing step S12316, the timer interrupt process is terminated.

  As described 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 setting change mode is started based on the reception of an operation for executing the setting change mode, the setting changing flag is turned ON at the start of the setting change mode, and the setting change mode is set. At the end of, the setting changing flag is changed to the OFF state. The main RAM 64 can maintain the setting change flag state even when the power supply to the pachinko machine 10 is cut off from the outside. Therefore, for example, when the power supply to the pachinko machine 10 is cut off during execution of the setting change mode due to, for example, the power switch of the pachinko machine 10 being turned off or a power failure occurring, the main RAM 64 The setting changing flag stored in (1) is maintained in the ON state.

  And according to this aspect, when the supply of the electric power to the said pachinko machine 10 from the outside is started, the setting change mode is started based on the determination that the setting changing flag is ON (FIG. 65, step S12008). That is, according to this aspect, when the supply of power to the pachinko machine 10 is cut off during the execution of the setting change mode and the supply of power to the pachinko machine 10 is resumed, the setting change is performed. Even when an operation for executing the mode is not accepted, the setting change mode is started.

  Therefore, when the supply of power to the pachinko machine 10 is cut off from the outside during the execution of the setting change mode, in order to cause the pachinko machine 10 to start the setting change mode again, It is possible to save the trouble that the administrator has to perform an operation for executing the setting change mode again after the supply of.

  In addition, when power supply to the pachinko machine 10 is cut off from outside during the execution of the setting change mode, the lottery setting setting information of the pachinko machine 10 may be in a state not intended by the administrator. However, according to this aspect, when the supply of power to the pachinko machine 10 from the outside is resumed, the administrator of the pachinko machine 10 does not perform an operation for executing the setting change mode again. However, since the setting change mode is started, it is possible to prevent the setting information of the lottery setting of the pachinko machine 10 from being overlooked in a state not intended by the administrator.

  Also, according to this aspect, the setting confirmation mode is started based on the reception of the operation for executing the setting confirmation mode, the setting confirmation flag is turned on when the setting confirmation mode is started, and the setting is confirmed. At the end of the confirmation mode, the setting confirmation flag is changed to an OFF state. The main RAM 64 can maintain the state of the setting confirmation flag even when the supply of power to the pachinko machine 10 is cut off from the outside. Therefore, for example, when the power supply to the pachinko machine 10 is cut off during the execution of the setting check mode due to, for example, the power switch of the pachinko machine 10 being turned off or a power failure occurring, the main RAM 64 The setting confirming flag stored in is maintained in the ON state.

  And according to this aspect, when the supply of the electric power to the pachinko machine 10 from the outside is started, the setting confirmation mode is started based on the determination that the setting confirmation flag is ON (FIG. 65 step S12011). That is, according to this aspect, when the supply of power to the pachinko machine 10 is cut off during execution of the setting check mode and the supply of power to the pachinko machine 10 is resumed, the setting check is performed. Even when the operation for executing the mode is not accepted, the setting confirmation mode is started.

  Therefore, when the power supply to the pachinko machine 10 is cut off from the outside during the execution of the setting check mode, in order to cause the pachinko machine 10 to start the setting check mode again, It is possible to save the trouble that the administrator has to perform an operation for executing the setting confirmation mode again after the supply of the data is resumed.

  Further, according to this aspect, at the start of the setting change mode, the setting information stored in the setting information storage area of the main RAM 64 is read, and the same information as the setting information is used as the update setting information. Are stored in the update setting information storage area. Then, by accepting an operation of pressing the setting change button, the setting information for updating stored in the setting information for updating in the main RAM 64 is updated, and the setting information for updating is updated at the end of the setting changing mode. The same information is stored in the setting information storage area of the main RAM 64 as setting information. Therefore, even when the external power supply is cut off during the execution of the setting change mode, the setting information stored in the setting information storage area of the main RAM 64 is transferred before the setting change mode is started. The value of can be maintained. As a result, it is possible to prevent the lottery setting setting information of the pachinko machine 10 from being different from the value intended by the administrator due to the interruption of the external power supply during the execution of the setting change mode. can do. This will be specifically described below.

  If the setting information for update is not used during the execution of the setting change mode, the setting information stored in the setting information storage area of the main RAM 64 is received by accepting an operation of pressing the setting change button. In the case of adopting a configuration that changes directly, power supply from outside is cut off at the timing when the setting information is different from the value intended by the administrator of the pachinko machine 10 during execution of the setting change mode. In such a case, the setting information for the lottery setting of the pachinko machine 10 is different from the value intended by the administrator.

  On the other hand, according to this aspect, the setting information stored in the setting information storage area of the main RAM 64 is not changed until the setting change mode ends, and the setting information storage for updating in the main RAM 64 is not changed. Since the setting information for updating stored in the area is changed, the setting information for updating is changed to a value different from the value intended by the administrator of the pachinko machine 10 during execution of the setting change mode. Even when the supply of power from is cut off, the setting information stored in the setting information storage area of the main RAM 64 is maintained at the value before the setting change mode is started. Therefore, it is possible to prevent the lottery setting setting information of the pachinko machine 10 from becoming a value different from the value intended by the administrator due to the interruption of the external power supply during the execution of the setting change mode. be able to.

  Further, according to the present aspect, the update setting information stored in the update information storage area of the main RAM 64 is displayed on the information display unit 45z during execution of the setting change mode. While confirming the update setting information displayed on the display unit 45z, an operation of pressing the setting change button can be performed.

  Moreover, according to this aspect, when the supply of electric power from the outside is started, it is determined whether or not the setting information is a numerical value within a predetermined range, and the setting information is not a numerical value within the predetermined range. If it is determined, the RAM abnormality flag is turned ON, and the game progress process (the process from step S12304 to step S12316 in FIG. 68) for proceeding with 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 main RAM 64 is not a numerical value within a predetermined range, thereby causing a problem in the progress of the game in the pachinko machine 10. can do. As a result, for example, it is possible to prevent an unexpected loss from being given to a player or a manager.

  Moreover, according to this aspect, when the supply of electric power from the outside is started, it is determined whether or not the setting information is a numerical value within a predetermined range, and the setting information is not a numerical value within the predetermined range. Is determined, the RAM abnormality flag is turned ON, and even when an operation for executing the first RAM clear process is accepted, the first RAM clear process is not executed. Therefore, it is possible to suppress the occurrence of problems due to the first RAM clear process being executed while the setting information is not a numerical value within a predetermined range. This will be specifically described below.

  Even if it is determined that the setting information is not a numerical value within a predetermined range, if the configuration for executing the first RAM clearing process is adopted, among the various information stored in the main RAM 64, the setting information is set. Even if the RAM abnormality flag, which is information indicating that the information is determined not to be a numerical value within the predetermined range, is erased (turned OFF), the setting information is not in a numerical value within the predetermined range. After the execution of the first RAM clear process, the game progress process (the process from step S12304 to step S12316 in FIG. 68) is executed on the assumption that the setting information is a numerical value within a predetermined range, resulting in a problem. There is a possibility that.

  On the other hand, according to this aspect, when it is determined that the setting information is not a numerical value within the predetermined range, even if an operation for executing the first RAM clear process is received, the first RAM Since the clear process is not executed, it is assumed that the first RAM clear process is executed even though the setting information is not a numerical value within the predetermined range, and the setting information is a numerical value within the predetermined range. It can suppress that the game progress process which was performed is performed. As a result, it is possible to suppress the occurrence of problems due to the first RAM clear process being executed while the setting information is not a numerical value within a predetermined range.

  Moreover, according to this aspect, when the supply of electric power from the outside is started, it is determined whether or not the setting information is a numerical value within a predetermined range, and the setting information is not a numerical value within the predetermined range. Is determined, the setting confirmation mode is not executed even when an operation for executing the setting confirmation mode is received. Accordingly, it is possible to prevent the setting confirmation mode for displaying the setting information from being executed even though the setting information stored in the main RAM 64 is not in a predetermined range. .

  Further, according to this aspect, when power supply from the outside is cut off, a predetermined calculation is executed based on a predetermined information group (including setting information in this aspect) stored in the main RAM 64. Then, a RAM determination value (hereinafter also referred to as a first RAM determination value) as a result of the predetermined calculation is stored in the main RAM 64. Then, when the supply of power from the outside is started, a predetermined calculation is performed based on a predetermined information group stored in the main RAM 64 (including setting information in this aspect and not including the first RAM determination value). To determine whether or not the RAM determination value (hereinafter also referred to as a second RAM determination value), which is the result of the predetermined calculation, matches the first RAM determination value stored in the main RAM 64. Further, in this aspect, when it is determined that the second RAM determination value matches the first RAM determination value, it is determined whether or not the setting information is a numerical value within a predetermined range. If it is determined that the second RAM determination value matches the first RAM determination value (step S12006 in FIG. 65: YES), and the setting information is determined to be a numerical value within a predetermined range (step S12007 in FIG. 65). : YES), the RAM abnormality flag is not turned ON, and the game progress process (the process from step S12304 to step S12316 in FIG. 68) is executed. In other words, it is determined that the second RAM determination value matches the first RAM determination value (step S12006: YES in FIG. 65), but when the setting information is determined not to be a numerical value within a predetermined range (FIG. 65). Step S12007: NO), the RAM abnormality flag is turned ON (Step S12015 in FIG. 65), and the game progress processing (Steps S12304 to S12316 in FIG. 68) is not executed. Accordingly, it is possible to prevent the game progress process from being executed even though the second RAM determination value and the first RAM determination value match but the setting information is not a numerical value within a predetermined range. Can do. As a result, it is possible to suppress the occurrence of a problem due to the game progress process being executed even though the setting information is not a numerical value within a predetermined range. This will be specifically described below.

  When the second RAM determination value matches the first RAM determination value, the contents of the predetermined information group stored in the main RAM 64 when the external power supply is started and the previous power supply Is likely to be the same as the content of the predetermined information group stored in the main RAM 64, and the predetermined information group stored in the main RAM 64 is supplied with power from the outside. There is a high possibility that it was maintained normally even if it was cut off. However, even if the predetermined information group stored in the main RAM 64 is not normally maintained, the second RAM determination value may coincide with the first RAM determination value by chance.

  For this reason, if a configuration is adopted in which it is determined whether or not the second RAM determination value matches the first RAM determination value, but it is not determined whether or not 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, the second RAM determination value and the first RAM determination value may coincide with each other, and the game progress process may be executed. As a result, there is a risk that a fatal problem may occur in the progress of the game.

  On the other hand, according to this aspect, the game progress is based on determining that the second RAM determination value and the first RAM determination value match, and determining that the setting information is a numerical value within a predetermined range. Execute the process. In other words, the game progress process is not executed when the second RAM determination value matches the first RAM determination value but the setting information is not a numerical value within a predetermined range. Accordingly, it is possible to prevent the game progress process from being executed even though the second RAM determination value and the first RAM determination value match but the setting information is not a numerical value within a predetermined range. Can do. As a result, it is possible to suppress the occurrence of a problem due to the game progress process being executed even though the setting information is not a numerical value within a predetermined range.

  Further, according to this aspect, the setting change mode is terminated based on the detection of the transition from the ON state to the OFF state of the setting key (keyhole) during execution of the setting change mode ( Step S12108 of FIG. 66: YES), it can be avoided that the setting change mode ends immediately after the start. This will be specifically described below.

  For example, a case will be described in which a configuration different from the present embodiment is adopted in which the configuration change mode is terminated when it is detected that the setting key (keyhole) is in an OFF state. When this configuration is adopted, when the setting change mode is started based on an operation for starting the setting change mode including that the setting key (keyhole) is ON. The setting change mode continues until the setting key (keyhole) shifts from the ON state to the OFF state. However, when the setting change mode is started based on the fact that the setting change flag is ON when the power supply is started, the setting change is performed with the setting key (keyhole) being OFF. The mode may be started. In this case, immediately after the setting change mode is started, it is detected that the setting key (keyhole) is in an OFF state, and the setting change mode ends. That is, the setting change mode ends immediately after the start, and it becomes difficult to change the lottery setting setting information in the setting change mode.

  On the other hand, according to this aspect, the setting change mode is terminated based on the detection of the transition from the ON state to the OFF state of the setting key (keyhole). Even when the setting change mode is started while the keyhole is in the OFF state, the administrator of the pachinko machine 10 shifts the setting key (keyhole) from the OFF state to the ON state, and again, Until the transition from the ON state to the OFF state, the setting change mode continues. Therefore, even if the setting change mode is started while the setting key (keyhole) is in an OFF state, the setting change mode is avoided from being terminated immediately after the setting change mode is started. be able to. As a result, it can be suppressed that it becomes difficult to change the setting information of the lottery setting because the setting change mode ends immediately after the start.

  Further, according to this aspect, even when the setting change mode is started based on the fact that the setting changing flag is ON when the supply of power is started, the setting key is held. Only the person who is present can end the setting change mode. Therefore, the security of the pachinko machine 10 can be improved.

  Further, according to this aspect, not only the setting change mode is started based on the operation for starting the setting change mode including that the setting key (keyhole) is in the ON state. When the power supply is started, the setting change mode is started based on the fact that the setting changing flag is ON. 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 that the RAM clear switch is pressed (ON state), and the setting key (key hole), the frame opening switch, and the door opening switch are operated. Although the operation of turning on the power switch is employed with all turned on, various operations can be employed as operations for executing the setting change mode. For example, as an operation for executing the setting change mode, the RAM clear switch is pressed (ON state), and the power switch is turned ON with the setting key (keyhole) turned ON. An operation may be employed.

  In this aspect, the operation for executing the setting confirmation mode is that the RAM clear switch is not pressed (set to the OFF state), and the setting key (key hole), the frame opening switch, and the door opening are performed. Although the operation of turning on the power switch is adopted with all the switches turned on, various operations can be adopted as operations for executing the setting confirmation mode. For example, as an operation for executing the setting confirmation mode, the power switch is turned on while the RAM clear switch is not pressed (OFF state) and the setting key (keyhole) is turned on. You may adopt the operation to make.

  In this embodiment, the operation for executing the first RAM clearing process is a state in which the RAM clear switch is pressed (ON state), a setting key (key hole), a frame opening switch, and a door opening switch. Although the operation of turning on the power switch is employed in a state where any of the above is turned off, various operations can be employed as operations for executing the first RAM clear process. For example, as an operation for executing the first RAM clear processing, the power switch is turned on while the RAM clear switch is pressed (ON state) and the setting key (keyhole) is turned off. You may adopt the operation to do.

  In this aspect, the setting information is included in the target for calculating the RAM determination value (checksum value). However, instead of this configuration, the setting information is included in the target for calculating the RAM determination value (checksum value). It is good also as a structure which is not included.

  In this aspect, the RAM determination value (checksum value) calculated when the power supply is cut off is stored in the main RAM 64. However, instead of this configuration, the power supply is cut off. The RAM determination value (checksum value) calculated at this time may be stored in a non-volatile storage means different from the main RAM 64.

  Further, in this aspect, at the start of the setting change mode, the same information as the setting information stored in the setting information storage area of the main RAM 64 is used as the update setting information in the update setting information storage area of the main RAM 64. Although the information is stored, the information stored as the update setting information may not be completely the same as the setting information, and may be information corresponding to the setting information. For example, when the setting information is “1”, “A” is stored as the setting information for update as a value corresponding to the setting information, and when the setting information is “2”, the value corresponds to the setting information. “B” may be stored as update setting information.

  Similarly, in this aspect, at the end of the setting change mode, the same information as the update setting information stored in the update setting information storage area of the main RAM 64 is used as the setting information, and the setting information storage area of the main RAM 64 However, the information stored as the setting information may not be completely the same as the setting information for update, and may be information corresponding to the setting information for update. For example, when the setting information for update is “A”, “1” is stored as the setting information corresponding to the setting information, and when the setting information for update is “B”, the setting information for update is stored. A configuration may be adopted in which “2” is stored as setting information as the corresponding value.

<Aspect 101>
Among the above-described aspects, in the configuration capable of executing the setting change mode and the setting confirmation mode, a configuration in which the sound emission control device 90 includes an RTC 97 (real time clock) capable of measuring the current date and time may be employed. This will be specifically described below.

  FIG. 69 is a block diagram illustrating mainly the electrical configurations of the sound emission control device 90 and the display control device 100 according to the aspect 101 of the first embodiment. A part of the configuration of the power supply device 85 and the like is omitted.

  The sound emission control board 91 provided in the sound emission control device 90 outputs the MPU 92 that is an arithmetic unit that controls the entire sound emission control device 90 and the current date and time information that can specify the current date and time. Possible RTC97 (real-time clock) is mounted. The MPU 92 and the RTC 97 are connected via a signal line so as to be able to communicate with each other.

  The MPU 92 is an element including 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 area of the ROM 93 is provided with various table storage areas in which an effect pattern table and the like are stored. The RAM 94 is a memory for temporarily storing various data when the CPU 92x executes the control program. For example, a part of the area of the RAM 94 is provided with various flag storage areas 94a for storing various flags, a start date / time information storage area 94b for storing start date / time information to be described later, and the like. Note that the CPU 92x, the ROM 93, and the RAM 94 are not necessarily configured as one chip, but may be configured as individual chips.

  The RTC 97 has a function of measuring the current date and time, and includes an RTC control unit 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 counting the current date and time. The register 97b has a register table composed of a plurality of registers, and this register table includes a clock register 97b1 and a start date / time information storage area 97b2.

  The time register 97b1 is a register for measuring the current date and time, and the register value as the current date and time information is updated every second. In this aspect, the current date and time information in the clock register 97b1 includes information that can specify the current “year”, “month”, “day”, “hour”, “minute”, and “second”.

  The activation date / time information storage area 97b2 is a storage area in which the current date / time information measured by the timing register 97b1 is written at the timing immediately after the pachinko machine 10 is activated. Hereinafter, the current date / time information read from the time register 97b1 and written in the activation date / time information storage area 97b2 is referred to as activation date / time information. In this aspect, the start date / time information stored in the start date / time information storage area 97b2 includes “year”, “month”, “day”, “hour” at a predetermined timing after the pachinko machine 10 is started, Information that can specify “minute” and “second” is included. Details of the process in which the current date and time information timed by the time register 97b1 is written as the start date and time information in the start date and time information storage area 97b2 will be described later.

  The RTC power source 97c is a power source dedicated to the RTC 97, which is different from the power source of the pachinko machine 10, and can supply power to the RTC control unit 97a and the register 97b even when the power source of the pachinko machine 10 is cut off. Therefore, the clock register 97b1 can update the current date and time information even when the power is interrupted, and the activation date and time information storage area 97b2 holds the stored activation date and time information even when the power is interrupted. Is possible. In this embodiment, a button type battery is used for the RTC power source 97c.

  The sound emission control board 91 is provided with input / output ports. The main control device 60 and the production operation button 24 are connected to the input side of the sound 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 sound emission control board 91 and a display control device 100 is connected.

  A display control board 101 provided in the display control apparatus 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 the work RAM 104 are made into one chip with respect to the MPU 102, and each may be made into a chip individually.

  The MPU 102 analyzes various commands received from the sound emission control device 90 or performs predetermined arithmetic processing based on the received various commands to control the VDP 105 (specifically, generation of an internal command for the VDP 105). .

  The program ROM 103 is a memory for storing various control programs executed by the MPU 102 and fixed value data, and also stores JPEG format image data for background images.

  The work RAM 104 is a memory for temporarily storing work data, flags, and the like used when the MPU 102 executes various programs.

  The VDP 105 is a kind of drawing circuit, and directly operates an image processing device as a liquid crystal display unit driver incorporated in the symbol display device 41. Since the VDP 105 is an IC chip, it is also referred to as a “drawing chip”, and is a kind of microcomputer chip that incorporates firmware dedicated to drawing processing. The VDP 105 adjusts the respective timings of the MPU 102, the video RAM 107, etc. to intervene in reading and writing data, and reads the image data to be stored in the video RAM 107 from the character ROM 106 at a predetermined timing and causes the symbol display device 41 to display it.

  The character ROM 106 serves as an image data library for storing character data such as symbols displayed on the symbol display device 41. The character ROM 106 stores bitmap format image data of various display patterns, a color palette table that is referred to when determining the expression color at each dot of the bitmap image, and the like. It is also possible to provide a plurality of character ROMs 106 and store the image data and the like in a shared manner with each character ROM 106. Further, it is possible to store the JPEG format image data for the background image stored in the program ROM 103 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 the display contents of the symbol display device 41 are changed by rewriting the contents of the video RAM 107.

  Hereinafter, the MPU 62, the ROM 63, and the RAM 64 of the main control device 60 are also referred to as the main side MPU 62, the main side ROM 63, and the main side RAM 64, respectively, and the MPU 92, ROM 93, and RAM 94 of the sound emission control device 90 are respectively referred to as the sound light side MPU 92 and sound light side. The ROM 93 and the sound light side RAM 94 are also called, and the MPU 102 of the display control apparatus 100 is also called the display side MPU 102.

  FIG. 70 is a flowchart illustrating a main process that is executed when the main MPU 62 (main CPU 62x) according to the aspect 101 of the first embodiment is powered on.

  In step S12401, an initial setting process associated with power-on is executed. Specifically, a predetermined value is set in advance in the stack pointer of the main CPU 62x, and the sub-side control devices (the sound emission control device 90, the display control device 100, the payout control device 70, etc.) are operable. In order to wait for the state to be reached, a wait process is executed for about 1 second, for example. Then, access to the main RAM 64 is permitted. Thereafter, the process proceeds to step S12402, and internal function register setting processing is executed. Thereafter, the process proceeds to step S12403.

  In step S12403, it is determined whether the power recovery flag is ON.

  Here, the power recovery flag will be described. In this aspect, when the power switch of the pachinko machine 10 is turned off or when a power failure occurs, various information (information indicating the game state, control information, etc.) stored in the register of the main CPU 62x is mainly used. Retreat to a predetermined area of the side RAM 64. Then, when the saving of these pieces of information to the main 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 RAM 64. A RAM determination value (for example, a checksum value) is calculated, and the calculated RAM determination value is stored in the main RAM 64. Note that after the supply of power from the commercial power supply is cut off, the power supply is switched from the backup power supply such as a capacitor. Thus, the power recovery flag is a flag for identifying at the time of power-on whether or not information for returning to the state when the power was turned off last time is stored in the main RAM 64.

  If it is determined in step S12403 that the power recovery flag is ON (step S12403: YES), the process proceeds to step S12404, and a predetermined calculation is executed based on a predetermined group of information stored in the main RAM 64. Thus, the RAM determination value is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. Thereafter, the process proceeds to step S12405, and whether or not the calculated RAM determination value (checksum value) is normal, that is, the calculated RAM determination value (checksum value) and the RAM determination value stored in the main RAM 64 ( It is determined whether or not the checksum value matches. If it is determined in step S12405 that the RAM determination value is normal (step S12405: YES), the process proceeds to step S12406.

  In step S12406, the lottery setting setting information stored in the main RAM 64 is read to determine whether the setting information is a numerical value within a predetermined range. In this aspect, since the setting information set in the pachinko machine 10 has six levels from “1” to “6”, when the setting information is a numerical value within the range from “1” to “6” When the setting information is determined to be a numerical value within a predetermined range, on the other hand, when “0” or “7” is stored as the setting information, or when information other than the numerical value is stored due to noise or the like 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 proceeds to step S12407.

  On the other hand, if it is determined in step S12403 that the power recovery flag is not ON (step S12403: NO), if it is determined in step S12405 that the RAM determination value is not normal (step S12405: NO), and If it is determined in step S12406 that the setting information is not a numerical value within the predetermined range (step S12406: NO), the process proceeds to step S12415, and the RAM abnormality flag is turned ON. That is, the RAM abnormality flag is a flag that is turned on when the power recovery flag is OFF, when the RAM determination 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 RAM 64 is not normal.

  Hereinafter, the flow of processing executed when the RAM abnormality flag is not turned on will be described, and then the processing flow executed when the RAM abnormality flag is turned on will be described.

  In step S12407, it is determined whether the setting changing flag is ON. The setting change flag is a flag that is turned on when a setting change process (setting change mode) described later is started and turned off when the setting change process (setting change mode) is ended. Here, the situation in which the setting change flag is ON in step S12407 means that a setting change process (setting change mode) described later is executed when the pachinko machine 10 is turned on last time, and the setting change process ( This is a situation in which the setting change flag is kept ON because the power switch of the pachinko machine 10 is turned off or a power failure occurs during execution of the setting change mode.

  If it is determined in step S12407 that the setting change flag is ON (step S12407: YES), the flow advances to step S12418 to execute setting change processing (setting change mode). In the setting change process (setting change mode), a process of displaying the lottery setting setting information on the information display unit 45z is executed and a process of accepting a change of the lottery setting information is executed. That is, the setting change mode is a mode in which an administrator or the like can change the lottery setting setting information 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 proceeds 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 to check whether all of the setting key, the frame opening switch, and the door opening switch are ON. judge. Note that “the setting key is ON” means that the setting key is inserted into the setting key hole and located on the ON side. The frame opening switch is a switch that is turned on when the inner frame 13 is open with respect to the outer frame 11, and the door opening switch is a state in which the front door frame 14 is open with respect to the inner frame 13. It is a switch that is sometimes turned on.

  If it is determined in step S12409 that at least one of the setting key, the frame opening switch, and the door opening switch is not ON (step S12409: NO), the process proceeds 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 when a setting confirmation process (setting confirmation mode) described later is started and turned off when the setting confirmation process (setting confirmation mode) ends. Here, the situation in which the setting confirmation flag is ON in step S12410 means that a setting confirmation process (setting confirmation mode) described later is executed when the pachinko machine 10 is turned on last time, and the setting confirmation process ( This is a situation in which the setting confirmation flag is kept ON because the power switch of the pachinko machine 10 is turned off or a power failure occurs during execution of the setting confirmation mode.

  If it is determined in step S12410 that the setting confirmation flag is not ON (step S12410: NO), the process proceeds to step S12411 and a normal activation command is transmitted to the sound emission control device 90. The normal activation command is not determined to be a RAM abnormality, and the pachinko machine 10 (main control device 60) is in a normal state in which none of the setting change process, the setting confirmation process, and the first RAM clear process described later is executed. Is a command indicating that has started. As will be described later, when receiving the normal activation command, the sound emission control device 90 performs a process of notifying that the pachinko machine 10 has been activated in a normal state. Specifically, in this embodiment, a sound such as “normally starts” is output from the speaker 46. After executing Step S12411, the process proceeds to Step S12413 described later.

  On the other hand, if it is determined in step S12409 that all of the setting key, the frame opening switch, and the door opening switch are ON (step S12409: YES), and the setting confirmation flag is ON in step S12410. If it is determined (step S12410: YES), the process proceeds to step S12412. That is, when the pachinko machine 10 is turned on, the RAM clear button is OFF, and all of the setting key, the frame opening switch, and the door opening switch are ON, and the previous power of the pachinko machine 10 is turned on. Setting confirmation processing (setting confirmation mode) is executed at the time of turning on, and the setting confirmation is being performed when the power switch of the pachinko machine 10 is turned off or a power failure occurs during execution of the setting confirmation processing (setting confirmation mode). If the flag remains ON, the process proceeds to step S12412.

  In step S12412, a setting confirmation process is executed. In the setting confirmation process (setting confirmation mode), a process of displaying the current lottery setting setting information on the information display unit 45z is executed. That is, the setting confirmation mode is a mode in which an administrator or the like can confirm the current lottery setting setting information of the pachinko machine 10. Details of the setting confirmation processing (setting confirmation mode) will be described later. After executing Step S12412, the process proceeds to Step S12413.

  In step S12413, a power recovery process for returning to the previous power-off state is executed. Specifically, in the power recovery process, the value of the stack pointer stored in the main RAM 64 is written into the stack pointer of the main CPU 62x, and the data saved in the main RAM 64 is restored to the register of the main CPU 62x. Then, the state of the register of the main CPU 62x is restored to the state before the power is shut off. After executing step S12413, the process proceeds to step S12414, and the power recovery flag of the main RAM 64 is turned OFF. Thereafter, the process proceeds to step S12423 described later.

  On the other hand, if it is determined in step S12408 that the RAM clear button is ON (step S12408: YES), the process proceeds to step S12417, and all of the setting key, frame opening switch, and door opening switch are ON. It is determined whether or not there is. If it is determined in step S12417 that all of the setting key, the frame opening switch, and the door opening switch are ON (step S12417: YES), the process proceeds to step S12418 described above, and the setting change processing (setting change described above) is performed. Mode). Then, it progresses to step S12423 mentioned later. On the other hand, if it is determined in step S12417 that at least one of the setting key, the frame opening switch, and the door opening switch is not ON (step S12417: NO), the process proceeds to step S12419.

  In step S12419, it is determined whether the above-described 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 proceeds to step S12420, and the first RAM clear process is executed. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main RAM 64 except for the lottery setting information. That is, when the first RAM clear process is executed, various flag information indicating various gaming states, various control information, and the like are erased, but the lottery setting information is not erased, and the setting information is maintained as it is. After executing step S12420, the process proceeds to step S12421, and a RAM clear command, which is a command indicating that the first RAM clear process has been executed, is transmitted to the sound emission control device 90. As will be described later, when receiving the RAM clear command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the first RAM clear process has been executed. Specifically, in this embodiment, a sound such as “the RAM of the main control device has been cleared” is output from the speaker 46. After executing Step S12421, the process proceeds to Step S12423 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 proceeds to step S12422, and a RAM abnormality command, which is a command indicating that the main RAM 64 is abnormal, is sounded. It transmits to the control apparatus 90. As will be described later, when the sound emission control device 90 receives the RAM abnormality command, the sound emission control device 90 outputs sound indicating that the main RAM 64 is abnormal from the speaker 46. Specifically, in this embodiment, a sound such as “RAM of main controller is abnormal. Please start in setting change mode” is repeatedly output from speaker 46. After executing Step S12422, the process proceeds to Step S12423. However, in the flow of this description, since the RAM abnormality flag is not ON, the process does not proceed to step S12422 described above.

  In step S12423, a lighting blinking process, which is a process of turning on and blinking all the light emitting units (segment light emitting units A to G and DP light emitting units) constituting the information display unit 45z, is executed. In the lighting / blinking process, all the light emitting units constituting the information display unit 45z are turned on for a predetermined time (for example, 3 seconds), and then flashed in synchronization for a predetermined time (for example, 2 seconds). After executing Step S12423, the process proceeds to Step S12424.

  In step S12424, an interrupt permission setting for permitting generation of timer interrupt processing is executed. After that, while repeating the infinite loop and waiting, a timer interrupt process described later is periodically executed (every 4 ms in this embodiment).

  Next, a 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 in step S12403 that the power recovery flag is not ON (step S12403: NO), if it is determined in step S12405 that the RAM determination value is not normal (step S12405: NO), and step If it is determined in S12406 that the setting information is not a numerical value within the predetermined range (step S12406: NO), the process proceeds to step S12415, and the RAM abnormality flag is turned ON. Thereafter, the process proceeds to step S12416.

  In step S12416, it is determined whether the RAM clear button is ON. If it is determined in step S12416 that the RAM clear button is ON (step S12416: YES), the process proceeds to step S12417, and whether or not all of the setting key, the frame opening switch, and the door opening switch are ON. Determine. If it is determined in step S12417 that all of the setting key, the frame opening switch, and the door opening switch are ON (step S12417: YES), the process proceeds to step S12418 described above, and the setting change processing (setting change described above) is performed. Mode). Thereafter, the process proceeds to step S12422. On the other hand, when it is determined in step S12416 that the RAM clear button is not ON (step S12416: NO), and in step S12417, it is determined that at least one of the setting key, the frame opening switch, and the door opening switch is not ON. In the case (step S12417: NO), the process proceeds to step S12419.

  In step S12419, it is determined whether the above-described 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 proceeds to step S12420, and the first RAM clear process described above is executed. After executing step S12420, the process proceeds to step S12421, and a RAM clear command, which is a command indicating that the first RAM clear process has been executed, is transmitted to the sound emission control device 90. After executing Step S12421, the process proceeds to Step S12422. However, in the flow of this description, 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 proceeds to step S12422, and a RAM abnormality command, which is a command indicating that the main RAM 64 is abnormal, is sounded. It transmits to the control apparatus 90. As will be described later, when the sound emission control device 90 receives the RAM abnormality command, the sound emission control device 90 outputs sound indicating that the RAM is abnormal from the speaker 46. Specifically, in this embodiment, a sound such as “RAM of main controller is abnormal. Please start in setting change mode” is repeatedly output from speaker 46. After executing Step S12422, the process proceeds to Step S12423.

  In step S12423, the above-described lighting blinking process is executed. After executing step S12423, the process proceeds to step S12424, and interrupt permission setting for permitting generation of timer interrupt processing is executed. Thereafter, the infinite loop process is repeated to wait, and a timer interrupt process described later is periodically executed (every 4 ms in this embodiment).

  As described above, in this aspect, the operation for executing the setting change process (setting change mode) is performed when the RAM clear switch is pressed (ON state) and the setting key (keyhole) is used. In this state, the power switch is turned on while all the frame opening switch and door opening switch are turned on. In addition, the operation for executing the setting confirmation processing (setting confirmation mode) is performed when the RAM clear switch is not pressed (set to the OFF state), and the setting key (key hole), the frame opening switch, and the door opening. This is an operation to turn on the power switch with all the switches turned on. In addition, the operation for executing the first RAM clear process is performed by pressing the RAM clear switch (ON state) and turning off any of the setting key (key hole), the frame opening switch, and the door opening switch. In this state, the power switch is turned on.

  Hereinafter, an example of a flow of processing realized by executing the above-described main processing will be described together.

  When the power supply is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S12403, step S12405, step S12406), but setting change processing (setting change mode) When the operation for executing the operation is performed, the setting change process is performed regardless of whether the condition for turning on the RAM abnormality flag is satisfied or not, and regardless of the state of the setting confirmation flag. (Setting change mode) is executed (step S12418).

  When the power supply is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S12403, step S12405, step S12406), and a condition for turning on the RAM abnormality flag. If it is determined that the setting change flag is ON (step S12407: YES), an operation for executing the setting change process (setting change mode), a setting confirmation process Regardless of whether or not an operation for executing (setting confirmation mode) and an operation for executing the first RAM clear process are performed, the setting change process (setting change mode) is executed (step S12418). .

  When the power supply is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S12403, step S12405, step S12406), and a condition for turning on the RAM abnormality flag. Is determined not to be established, it is determined that the setting change flag is not ON (step S12407: NO), and if an operation for executing the first RAM clear process has been performed (step S12408). : YES, step S12417: NO, step S12419: NO), regardless of the state of the setting confirmation flag, the first RAM clear process is executed (step S12420), and the RAM clear command is transmitted (step S12421).

  When the power supply is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S12403, step S12405, step S12406), and a condition for turning on the RAM abnormality flag. Is determined not to be established, it is determined that the setting change flag is not ON (step S12407: NO), and an operation for executing the setting confirmation processing (setting confirmation mode) is performed. (Step S12408: NO, step S12409: YES), a setting confirmation process (setting confirmation mode) is executed (step S12412).

  When the power supply is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S12403, step S12405, step S12406), and a condition 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 check process (setting check mode) is not performed. Even if the setting confirmation flag is ON (step S12410: YES), a setting confirmation process (setting confirmation mode) is executed (step S12412).

  When the power supply is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S12403, step S12405, step S12406), and a condition for turning on the RAM abnormality flag. If the RAM abnormality flag is turned on (step S12415), the first RAM clear process is performed even when an operation for executing the first RAM clear process is performed. The RAM abnormality command is transmitted without executing (step S12422).

  When the power supply is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S12403, step S12405, step S12406), and a condition for turning on the RAM abnormality flag. If the RAM abnormality flag is turned ON (step S12415), even if an operation for executing the setting confirmation process (setting confirmation mode) is performed, the setting is performed. The RAM abnormality command is transmitted without executing the confirmation process (setting confirmation mode) (step S12422).

  Next, details of the setting change process shown in step S12418 of FIG. 70 will be described.

  FIG. 71 is a flowchart illustrating a setting change process executed by the main MPU 62 (main CPU 62x) according to the aspect 101 of the first embodiment. This setting change process is executed as a subroutine of step S12418 of FIG.

  In step S12501, a setting change mode start command, which is a command indicating the start of the setting change mode, is transmitted to the sound emission control device 90. As will be described later, when receiving the setting change mode start command, the sound emission control device 90 executes a process of notifying that the setting change mode has been started. Specifically, in this embodiment, a sound such as “setting change mode has started” is output from the speaker 46, and then a sound “in the setting change mode” is repeatedly output from the speaker 46. In addition, when receiving the setting change mode start command, the sound emission control device 90 causes the symbol display device 41 to display information indicating that it is in the setting change mode. Specifically, in this aspect, the sound emission control device 90 transmits a command for causing the symbol display device 41 to display a character string such as “in setting change mode” to the display control device 100 and receives the command. The displayed control device 100 displays a character string such as “in setting change mode” on the symbol display device 41. In addition, when receiving the setting change mode start command, the sound emission control device 90 controls the various lamps 47 so as to blink repeatedly by alternately turning on and off at the maximum luminance.

  In addition, after transmitting the setting change mode start command to the sound emission control device 90, information indicating that the setting change mode has been started may be transmitted to the hall computer of the game hall via the 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 on the pachinko machine 10 in the setting change mode on the management screen. After executing step S12501, the process proceeds to step S12502.

  In step S12502, the setting changing flag in the main RAM 64 is turned ON. As described above, the setting change flag is a flag indicating that the setting change process (setting change mode) has been started, and a flag indicating that the setting change process (setting change mode) has not yet ended. It is. After executing step S12502, the process proceeds 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, an initial setting necessary for starting the setting change process is executed. In this mode, in the initial setting process at the start of setting change, it is determined whether or not the RAM abnormality flag is ON. If it is determined that the RAM abnormality flag is ON, the RAM abnormality flag is turned OFF. To. After executing Step S12503, the process proceeds to Step S12504.

  In step S12504, the lottery setting setting information stored in the main RAM 64 is read and saved as update setting information. Specifically, in this aspect, the lottery setting setting information stored in the setting information storage area of the main RAM 64 is read, and the read setting information is stored in an area other than the setting information storage area of the main RAM 64. To the update setting information storage area. After executing Step S12504, the process proceeds to Step S12505.

  In step S12505, the update setting information stored in the update setting information storage area of the main RAM 64 is read, and control for displaying the read update setting information on the information display unit 45z is started. Specifically, the setting information for update is lit and displayed on the information display unit 45z. Thereafter, the process proceeds to step S12506, and it is determined whether or not the update setting information is a numerical value within a predetermined range. In this aspect, since the setting information set in the pachinko machine 10 has six levels from “1” to “6”, is the update setting information a numerical value within the range from “1” to “6”? Determine whether or not. If it is determined in step S12506 that the update setting information is a numerical value within a predetermined range (step S12506: YES), the process proceeds to step S12508. On the other hand, when it is determined in step S12506 that the update setting information is not a numerical value within a predetermined range (step S12506: NO), for example, “0” or “7” is stored as the update setting information. If information other than a numerical value is stored due to noise or the like, the process advances to step S12507 to change the update setting information to an initial value. In this aspect, “1” is stored as the initial value in the update setting information. Thereafter, the process proceeds 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, during a period in which the setting key (keyhole) is on, the signal indicates a high level and the setting key (keyhole) is on the off side. The signal indicating the low level is monitored, and when the falling edge where the signal falls from the high level to the low level is detected, it is determined that the setting key (keyhole) has become 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 proceeds to step S12509, and whether or not the setting change button has been pressed. 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 to update the update setting information. Specifically, 1 is added to the numerical information stored as the update setting information. However, when the setting change button is pressed in a situation where the numerical information stored as the 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 or not 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 without executing the process of step S12510, and the update setting information is stored. It is determined whether the numerical value is within a predetermined range.

  If it is determined in step S12508 described above that the setting key (keyhole) has shifted from the ON side to the OFF side (step S12508: YES), the process proceeds 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 RAM 64 is read, and the read update setting information is copied to the setting information storage area of the main RAM 64. To do. After executing Step S12511, the process proceeds to Step S12512, and the control for displaying the update setting information on the information display unit 45z is terminated. Thereafter, the process proceeds to step S12513.

  In step S12513, a first RAM clear process is executed. In the first RAM clear process, information other than the lottery setting setting information stored in the setting information storage area of the main RAM 64 is erased. When the first RAM clear process is executed, the above-described setting change flag is also erased (turned OFF). After executing Step S12513, the process proceeds to Step S12514.

  In step S12514, a setting change mode end command, which is a command indicating the end of the setting change mode, is transmitted to the sound emission control device 90. As will be described later, when receiving the setting change mode end command, the sound emission control device 90 executes a process of notifying that the setting change mode has ended. Specifically, in this embodiment, the output of sound such as “setting change mode is in progress” from the speaker 46 is terminated, and sound such as “setting change mode is ended” is output from the speaker 46. Moreover, the control which notifies that it is in the setting change mode in the symbol display apparatus 41 and various lamps 47 is complete | finished.

  In addition, after transmitting the setting change mode end command to the sound emission control device 90, information indicating that the setting change mode is ended may be transmitted to the hall computer of the game hall via the 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, the setting change process is terminated. After executing the setting change notification end processing, the configuration information of the lottery setting after the change is transmitted to the hall computer of the game hall via the external terminal, and the hall computer that has received the information displays the management screen on the management screen. It is good also as a structure which displays the setting information of the lottery setting after the change of the pachinko machine 10. FIG.

  Next, details of the setting confirmation processing shown in step S12412 of FIG. 70 will be described.

  FIG. 72 is a flowchart illustrating a setting confirmation process executed by the main MPU 62 (main CPU 62x) according to the aspect 101 of the first embodiment. This setting confirmation process is executed as a subroutine of step S12412 of FIG.

  In step S12601, a setting confirmation mode start command, which is a command indicating that the setting confirmation mode has been started, is transmitted to the sound emission control device 90. As will be described later, when receiving the setting confirmation mode start command, the sound emission control device 90 executes a process of notifying that the setting confirmation mode has been started. Specifically, in this embodiment, a sound such as “setting confirmation mode has been started” is output from the speaker 46, and then a sound “in the setting confirmation mode” is repeatedly output from the speaker 46. In addition, when receiving the setting confirmation mode start command, the sound emission control device 90 causes the symbol display device 41 to display information indicating that it is in the setting confirmation mode. Specifically, in this aspect, the sound emission control device 90 transmits a command for causing the symbol display device 41 to display a character string such as “in the setting confirmation mode” to the display control device 100, and receives the command. The displayed control device 100 causes the symbol display device 41 to display a character string such as “in the setting confirmation mode”. In addition, when receiving the setting confirmation mode start command, the sound emission control device 90 controls the various lamps 47 so as to blink repeatedly by alternately turning on and off at the maximum luminance.

  In addition, after transmitting the setting confirmation mode start command to the sound emission control device 90, information indicating that the setting confirmation mode is started may be transmitted to the hall computer of the game hall via the 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 on the pachinko machine 10 in the setting confirmation mode on the management screen. After executing Step S12601, the process proceeds to Step S12602.

  In step S12602, the setting confirmation flag in the main RAM 64 is turned ON. As described above, the setting confirmation flag is a flag indicating that the setting confirmation processing (setting confirmation mode) has been started, and a flag indicating that the setting confirmation processing (setting confirmation mode) has not been completed yet. It is. After executing Step S12602, the process proceeds to Step S12603.

  In step S12603, control for displaying the lottery setting setting information stored in the setting information storage area of the main RAM 64 on the information display unit 45z is started. Specifically, the lottery setting information is blinked and displayed on the information display unit 45z. Thereafter, the process proceeds 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, during a period in which the setting key (keyhole) is on, the signal indicates a high level and the setting key (keyhole) is on the off side. When the signal indicating the low level is monitored and a falling edge that falls from the high level to the low level is detected, the setting key (keyhole) is 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 proceeds to step S12605. That is, the infinite loop is repeated until the setting key (keyhole) shifts from the ON side to the OFF side, and the process does not proceed to step S12605. When the setting key (keyhole) shifts from the ON side to the OFF side, the process proceeds to step S12605. move on.

  In step S12605, the control for displaying the lottery setting setting information on the information display unit 45z ends. Thereafter, the process proceeds to step S12606.

  In step S12606, the setting changing flag in the main RAM 64 is turned OFF. Thereafter, the process proceeds to step S12607.

  In step S12607, a setting confirmation mode end command, which is a command indicating the end of the setting confirmation mode, is transmitted to the sound emission control device 90. As will be described later, when receiving the setting confirmation mode end command, the sound emission control device 90 executes processing for notifying that the setting confirmation mode has ended. Specifically, in this embodiment, the output of sound such as “in the setting confirmation mode” from the speaker 46 is terminated, and the sound “the setting confirmation mode is terminated” is output from the speaker 46. Moreover, the control which notifies that it is in the setting confirmation mode in the symbol display apparatus 41 or various lamps 47 is complete | finished.

  In addition, after transmitting the setting confirmation mode end command to the sound emission control device 90, information indicating that the setting confirmation mode is ended may be transmitted to the hall computer of the game hall via the external terminal. In this case, the hall computer that has received the information indicating that the setting check mode has ended may be configured to display information indicating that the setting check mode of the pachinko machine 10 has ended on the management screen. After executing step S12607, the setting confirmation process is terminated.

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

  FIG. 73 is a flowchart illustrating timer interrupt processing executed by the main MPU 62 (main CPU 62x) according to the aspect 101 of the first embodiment. In this aspect, the main MPU 62 (main CPU 62x) executes timer interrupt processing at a cycle of 4 ms.

  In step S12701, various random number update processes are executed. In various random number update processing, the current numerical information is read from each counter (big hit random number counter C1, big hit type counter C2, reach random number counter C3, electric accessory release counter C4, etc.) in the main RAM 64, and the read numerical information is After executing the process of adding 1, the process of overwriting the numerical information after the addition to the reading source counter is executed. If the read numerical information is the maximum value of the counter, a process of overwriting 0 on the read source counter is executed. After executing Step S12701, the process proceeds to Step S12702.

  In step S12702, a power failure monitoring process is executed. In the power failure 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 falls below a predetermined value (for example, 10 volts), the power supply of the pachinko machine 10 It is determined that the switch has been turned off or a power failure has occurred, and various information (information indicating the game state, control information, etc.) stored in the register of the main CPU 62x is saved in a predetermined area of the main RAM 64. . Then, when the saving of these pieces of information to the main 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 RAM 64. A RAM determination value (for example, a checksum value) is calculated, and the calculated RAM determination value is stored in the main 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 becomes inoperable. Note that the power supply device 85 of this aspect is used as a drive voltage in a control system such as the main control device 60 even when the drive voltage supplied to the main control device 60 is lowered to a value lower than a predetermined value. A stabilized voltage of volt is output. As a time for which the stabilization voltage is output, a sufficient time for executing the processing until the above-described RAM determination value is stored in the main RAM 64 is secured.

  On the other hand, if it is determined in the power failure monitoring process in step S12702 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 proceeds 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 proceeds to step S12704. On the other hand, if it is determined in step S12703 that the RAM abnormality flag is ON (step S12703: YES), the timer interrupt process is terminated without executing the processes after step S12704. That is, when the RAM abnormality flag is ON, the process for enabling the progress of the game after step S12704 is not executed, and the game progress mode in which the game can be progressed is not shifted. Yes. Hereinafter, the process after step S12704 which is a process for enabling progress of the game will be described.

  In step S12704, port output processing is executed. In the port output process, when output information is set in the previous timer interrupt process, a process for performing output corresponding to the output information to the various drive units 36c and 34b is executed. For example, when the information for switching the special winning opening 36a to the open state is set, the output of the drive signal to the variable winning drive unit 36c is started, and when the information for switching to the closed state is set. The output of the drive signal is stopped. In addition, when the information for switching the electric accessory 34a of the second start port 34 to the open state is set, the output of the drive signal to the electric accessory driving unit 34b is started, and the information to be switched to the closed state is set. If set, output of the drive signal is stopped. Thereafter, the process proceeds to step S12705.

  In step S12705, read processing is executed. In the reading process, a signal other than the incoming ball signal is read and the read information is stored for use in future processing. Thereafter, the process proceeds to step S12706.

  In step S12706, a signal received from each of the entrance detection sensors 44a to 44h is read, and an entrance detection process for performing processing corresponding to the read information is executed. Since the incoming ball detection process is the same as the incoming ball detection process shown in FIG. 28, a detailed description thereof will be omitted. After executing Step S12706, the process proceeds to Step S12707.

  In step S12707, a timer update process for updating the numerical information of a predetermined timer counter provided in the main RAM 64 is executed. Thereafter, the process advances to step S12708 to execute a prize ball command output setting process. Thereafter, the process proceeds to step S12709.

  In step S12709, a start-up entrance process for entering the game balls into the first start-up opening 33 and the second start-up opening 34 is executed. In the starting ball entry processing, the big hit random number counter C1, the big hit type counter C2, and the reach random number counter C3 are determined based on the determination that the game ball has entered the first starting port 33 or the second starting port 34. The value is acquired and the acquired counter value is stored in the hold information storage area 64b of the RAM 64. After executing Step S12709, the process proceeds to Step S12710.

  In step S12710, a through gate entry process for entering (passing) a game ball into the through gate 35 is executed. In the through process for the through gate, the value of the variation type counter CS is acquired based on the determination that the game ball has entered (passed through) the through gate 35, and the acquired counter value is used as the power of the RAM 64. Store in the reserved area 64d. After executing Step S12710, the process proceeds to Step S12711.

  In step S12711, a game times control process for controlling a game in each game time is executed. In the game times control process, winning lottery, display control of the first symbol display unit 37a and the second symbol display unit 37b, and the like are performed. After executing Step S12711, the process proceeds to Step S12712.

  In step S12712, a game state transition process for shifting the game state is executed. In the game state transition process, a process of shifting the game state to an opening / closing execution mode, a high probability mode, a high frequency support mode, or the like is executed. After executing Step S12712, the process proceeds to Step S12713.

  In step S12713, a power combination support process for controlling the electric service article 34a is executed. In the electric utility support process, it is determined whether or not the electric accessory 34a is in an open state (electric accessory release lottery), and when it is determined to be in an open state, the electric accessory 34a is driven and controlled. After executing step S12713, the process proceeds to step S12714.

  In step S12714, a game ball launch control process is executed. In the game ball launch control process, a process for launching a game ball to the game area PA when the operation handle 25 is operated by the player is executed. After executing Step S12714, the process proceeds to Step S12715.

  In step S12715, external information setting processing is executed so as to control the start and end of output of an external signal according to the processing results of the various processing executed in the current timer interrupt processing. After executing Step S12715, the process proceeds to Step S12716.

  In step S12716, a game history process for calculating and displaying game history information is executed. Since the game history process is the same as the game history process shown in FIG. 29, a detailed description thereof will be omitted. After executing step S12716, the timer interrupt process is terminated.

  As described above, in this embodiment, when the power switch of the pachinko machine 10 is turned on and the pachinko machine 10 is activated, the above-described normal activation command, RAM abnormality command, RAM clear command, setting change mode start command, setting Any one of the five commands of the confirmation mode start command is transmitted from the main controller 60 to the sound emission controller 90. The sound emission control device 90 that has received one of these five commands determines in what manner the main control device 60 is activated based on the type of the received command (what type Can be grasped). That is, the above-described five commands of the normal startup command, the RAM abnormality command, the RAM clear command, the setting change mode start command, and the setting confirmation mode start command are commands indicating the types of startup processing executed by the main controller 60. Therefore, these five commands are collectively referred to as “activation type command”.

  Next, processing executed by the MPU 92 of the sound emission control device 90 will be described.

  FIG. 74 is a flowchart illustrating main processing executed by the sound light side MPU 92 (sound light side CPU 92x) according to the aspect 101 of the first embodiment. In step S12801, startup processing is executed. Specifically, initial setting processing associated with power-on, determination of whether or not the sound side RAM 94 functions normally, and the like are executed. After executing Step S12801, the process proceeds to Step S12802.

  In step S12802, an activation date information acquisition process is executed. In the startup date / time information acquisition process, a process of reading the startup date / time information from the startup date / time information storage area 97b2 of the RTC 97 and storing it in the startup date / time information storage area 94b of the main RAM 64 is executed. Details of the start date and time information acquisition process will be described later. After executing Step S12802, the process proceeds to Step S12803.

  In step S12803, activation type notification processing is executed. In the activation type notification process, the activation type of the main control device 60 is notified based on the activation type command received from the main MPU 62 of the main control device 60. Details of the activation type notification process will be described later. After executing Step S12803, the process proceeds to Step S12804.

  In step S12804, permission for timer interruption is set. As a result, execution of a timer interrupt process described later is permitted. Then enter an infinite loop.

  Next, details of the start date / time information acquisition process shown in step S12802 of FIG. 74 will be described.

  FIG. 75 is a flowchart showing start date / time information acquisition processing executed by the sound light side MPU 92 (sound light side CPU 92x) according to the aspect 101 of the first embodiment. In step S12901, it is determined whether an activation type command has been received from the main MPU 62 or not. Specifically, in this aspect, any one of the five commands of the normal startup command, the RAM abnormality command, the RAM clear command, the setting change mode start command, and the setting confirmation mode start command described above is sent from the main MPU 62. Determine whether a command has been received. If it is determined in step S12901 that any one of the above five commands has been received (step S12901: YES), the process proceeds 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 any one of the five commands described above has been received, and when it is determined that any 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 from the main MPU 62 as a startup type command is either a normal startup command or a RAM abnormal command. If it is determined in step S12902 that the command received as the activation type command from the main MPU 62 is either a normal activation command or a RAM abnormal command (step S12902: YES), the process proceeds to step S12903. Here, when the command received as the activation type command from the main MPU 62 is the normal activation command or the RAM abnormality command, the setting change process (setting change mode) is performed when the supply of power from the outside is started. This is a case where none of the operation for executing, the operation for executing the setting check process (setting check mode), and the operation for executing the first RAM clear process has been received. In such a case, the process proceeds to step S12903.

  In step S12903, the current date and time information is read from the clock register 97b1 of the RTC 97, and the read current date and time information is written (stored) in the activation date and time information storage area 97b2 of the RTC 97. Then, it progresses to step S12905 mentioned later.

  On the other hand, if it is determined in step S12902 that the command received as the activation type command from the main MPU 62 is neither a normal activation command nor a RAM abnormal command (step S12902: NO), that is, as an activation type command from the main MPU 62. If the received command is one of a RAM clear command, a setting change mode start command, and a setting confirmation mode start command, the process advances to step S12904. Here, when the command received from the main side MPU 62 as the activation type command is any one of the RAM clear command, the setting change mode start command, and the setting confirmation mode start command, When supply is started, an operation for executing the setting change process (setting change mode), an operation for executing the setting confirmation process (setting confirmation mode), and an operation for executing the first RAM clear process This is a case where any of the operations is accepted. In such a case, the process proceeds to step S12904.

  In step S12904, it is determined whether activation date information is stored in the activation date information storage area 97b2 of the RTC 97. Here, the case where the start date / time information is stored in the start date / time information storage area 97b2 of the RTC 97 is a case where the date / time can be read from the information stored in the start date / time information storage area 97b2. The case where the activation date / time information is not stored in the activation date / time information storage area 97b2 of the RTC 97 means, for example, when the pachinko machine 10 is turned on for the first time or when the information stored in the activation date / time information storage area 97b2 is stored. This is a case where the date and time cannot be read normally due to destruction by noise or the like. If it is determined in step S12904 that activation date / time information is stored in the activation date / time information storage area 97b2 of the RTC 97 (step S12904: YES), the processing in step S12903 described above (current date / time information is overwritten as activation date / time information). The process proceeds to step S12905 without executing (avoiding).

  In step S12905, activation date information is read from the activation date information storage area 97b2 of the RTC 97, and the read activation date information is written (stored) in the activation date information activation date information storage area 94b of the sound side RAM 94. Thereafter, the activation date and time information acquisition process is terminated.

  If it is determined in step S12904 that activation date / time information is not stored in the activation date / time information storage area 97b2 of the RTC 97 (step S12904: NO), the processing in step S12903 described above (reading the current date / time information) is performed. In step S12905, the process proceeds to step S12905 described above. The reason for this is that if the start date / time information is not stored in the start date / time information storage area 97b2 of the RTC 97 and the process proceeds to step S12905 described above, the start date / time information storage area 94b of the sound side RAM 94 should be written. This is because there is a problem that the target activation date information does not exist.

  Next, details of the activation type notification process shown in step S12803 of FIG. 74 will be described.

  FIG. 76 is a flowchart showing an activation type notification process executed by the sound light side MPU 92 (sound light side CPU 92x) according to the aspect 101 of the first embodiment. In step S13001, it is determined whether or not the command received as the activation type command from the main MPU 62 is a normal activation command. If it is determined in step S13001 that the command received as the activation type command from the main MPU 62 is a normal activation command (step S13001: YES), the process proceeds to step S13002.

  In step S13002, normal activation notification processing is executed. In the normal activation notification process, the main RAM 64 is not determined to be abnormal, and the pachinko machine 10 (the main pachinko machine 10 in the normal state in which none of the setting change process, the setting confirmation process, and the first RAM clear process described above is executed. A process for notifying that the control device 60) has started is executed. Specifically, in this embodiment, a sound such as “normally starts” is output from the speaker 46. After executing step S13002, the activation type notification process is terminated.

  On the other hand, if it is determined in step S13001 that the command received as the activation type command from the main MPU 62 is not a normal activation command (step S13001: NO), the process proceeds to step S13003 and is received as an activation type command from the main MPU 62. It is determined whether the received command is a RAM abnormal command. If it is determined in step S13003 that the command received as the activation type command from the main MPU 62 is a RAM abnormality command (step S13003: YES), the process proceeds to step S13004.

  In step S13004, RAM abnormality notification processing is executed. In the RAM abnormality notification process, a process of notifying that the main RAM 64 is abnormal is executed. Specifically, in this embodiment, control is performed so that a sound such as “RAM of the main control device is abnormal. Please start in the setting change mode” is repeatedly output from the speaker 46, and the system enters an infinite loop. That is, in the RAM abnormality notification process, the 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 supply of power is cut off.

  On the other hand, if it is determined in step S13003 that the command received as the activation type command from the main MPU 62 is not a RAM abnormality command (step S13003: NO), the process proceeds to step S13005, and is received as the activation type command from the main MPU 62. It is determined whether the received command is a RAM clear command. If it is determined in step S12005 that the command received as the activation type command from the main MPU 62 is a RAM clear command (step S13005: YES), the process proceeds to step S13006.

  In step S13006, a RAM clear notification process is executed. In the RAM clear notification process, a process of notifying the main RAM 64 that the RAM clear process has been executed is executed. Specifically, in this embodiment, a sound such as “the RAM of the main control device has been cleared” is output from the speaker 46. Thereafter, the activation type notification process is terminated.

  On the other hand, if it is determined in step S13005 that the command received as the activation type command from the main MPU 62 is not a RAM clear command (step S13005: NO), the process proceeds to step S13007 and is received from the main MPU 62 as the activation type command. It is determined whether the received command is a setting change mode start command. If it is determined in step S13007 that the command received as the activation type command from the main MPU 62 is the setting change mode start command (step S13007: YES), the process proceeds to step S13008.

  In step S13008, a setting change mode start notification process is executed. In the setting change mode start notification process, a process for notifying that the setting change mode has started is executed. Specifically, in this embodiment, a sound such as “setting change mode has started” is output from the speaker 46, and then a sound “in the setting change mode” is repeatedly output from the speaker 46. In the setting change mode start notification process, information indicating that the setting change mode is in effect is displayed on the symbol display device 41. Specifically, in this aspect, the display control device 100 that transmits a command for causing the symbol display device 41 to display a character string such as “in the setting change mode” is displayed on the display control device 100. A character string such as “in setting change mode” is displayed on the symbol display device 41. Further, in the setting change mode start notification process, the various lamps 47 are controlled to blink alternately by turning on and off at the maximum brightness. Thereafter, the process proceeds to step S13009 to determine whether a setting change mode end command has been received. If it is determined in step S13009 that a setting change mode end command has been received (step S13009: YES), the process proceeds 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 a setting change mode end command has been received, and when it is determined that a setting change mode end command has been received, the process proceeds to step S13010.

  In step S13010, a setting change mode end notification process is executed. In the setting change mode end notification process, a process for notifying that the setting change mode has ended is executed. Specifically, in this embodiment, the output of sound such as “setting change mode is in progress” from the speaker 46 is terminated, and sound such as “setting change mode is ended” is output from the speaker 46. Moreover, the control which notifies that it is in the setting change mode in the symbol display apparatus 41 and various lamps 47 is complete | finished. Thereafter, the activation type notification process is terminated.

  On the other hand, if it is determined in step S13007 that the command received as the activation type command from the main MPU 62 is not the setting change mode start command (step S13007: NO), in other words, the command received from the main MPU 62 as the activation type command. 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 for notifying that the setting confirmation mode has been started is executed. Specifically, in this embodiment, a sound such as “setting confirmation mode has been started” is output from the speaker 46, and then a sound “in the setting confirmation mode” is repeatedly output from the speaker 46. In the setting confirmation mode start notification process, information indicating that the setting confirmation mode is in effect is displayed on the symbol display device 41. Specifically, in this aspect, the display control apparatus 100 that has transmitted the command for causing the symbol display device 41 to display a character string such as “in the setting confirmation mode” to the display control apparatus 100 and receives the command, A character string such as “in setting confirmation mode” is displayed on the symbol display device 41. Also, in the setting confirmation mode start notification process, the various lamps 47 are controlled to blink by alternately repeating lighting and extinguishing at the maximum luminance. Thereafter, the process proceeds to step S13012 to determine whether a setting confirmation mode end command has been received. If it is determined in step S13012 that a setting confirmation mode end command has been received (step S13012: YES), the process proceeds 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 end command has been received, and when it is determined that the setting confirmation mode end command has been received, the process proceeds to step S13013.

  In step S13013, a setting confirmation mode end notification process is executed. In the setting confirmation mode end notification process, a process for notifying that the setting confirmation mode has ended is executed. Specifically, in this embodiment, the output of sound such as “setting change mode is in progress” from the speaker 46 is terminated, and sound such as “setting change mode is ended” is output from the speaker 46. Moreover, the control which notifies that it is in the setting confirmation mode in the symbol display apparatus 41 or various lamps 47 is complete | finished. Thereafter, the activation type notification process is terminated.

  FIG. 77 is a flowchart illustrating timer interrupt processing executed by the sound light side MPU 92 (sound light side CPU 92x) according to the aspect 101 of the first embodiment. The timer interrupt process is repeatedly executed at a relatively short cycle (2 msec in this embodiment). Hereinafter, the process of each step executed in the timer interrupt process will be described.

  In step S13101, command storage processing is executed. The command storage process is a process for storing the received command in the sound side RAM 94 when a command is received from the main MPU 62. The sound light side RAM 94 is provided with a ring buffer for enabling the command received from the main MPU 62 to be stored and read out. The commands received from the main MPU 62 are sequentially stored in the ring buffer. Are sequentially read according to the stored order. After executing Step S13101, the process proceeds to Step S13102.

  In step S13102, an RTC effect process is executed. In the RTC effect processing, after the pachinko machine 10 is activated (after power supply is started), the RTC effect is performed for a predetermined time (every hour in this mode) every predetermined time (5 minutes in this mode). Performs processing for execution. Details of the RTC effect processing will be described later. After executing Step S13102, the process proceeds to Step S13103.

  In step S13103, a game round effect process is executed. In the game times effect processing, processing related to effects executed in the game times from the start of the change of the symbol to the stop thereof is performed. After executing Step S13103, the process proceeds to Step S13104.

  In step S13104, an opening / closing execution mode effect process is executed. In the opening / closing execution mode effect process, processing related to the effect in the opening period, the effect in the opening / closing process period, and the effect in the ending period is performed. After executing Step S13104, the process proceeds to Step S13105.

  In step S13105, a customer waiting process is executed. In the customer waiting process, when the game times have not been executed for a predetermined time, a process for displaying a demo video on the symbol display device 41 is executed. After executing Step S13105, the process proceeds to Step S13106.

  In step S13106, a light emission control process for performing light emission control of the various lamps 47 is executed. In the light emission control process, the light emission control of the various lamps 47 is performed based on the light emission data read in each of the above-described effects processing. After executing Step S13106, the process proceeds to Step S13107.

  In step S13107, an audio output control process for performing audio output control of the speaker 46 is executed. In the sound output control process, sound output control of the speaker 46 is performed based on the sound data read in the BGM process and each effect process. After executing step S13107, the timer interrupt process is terminated.

  Next, details of the RTC effect processing shown in step S13102 of FIG. 77 will be described.

  FIG. 78 is a flowchart showing the RTC effect process executed by the sound light side MPU 92 (sound light side CPU 92x) according to the aspect 101 of the first embodiment.

  In step S13201, it is determined whether or not the RTC effect executing flag stored in the main RAM 64 is ON. The RTC effect execution flag is a flag for determining whether or not an RTC effect to be described later is being executed, and is turned ON when the RTC effect is started and turned OFF when the RTC effect is ended. If it is determined in step S 13201 that the RTC effect execution flag is not ON (step S 13201: NO), that is, if the RTC effect is not being executed, the process proceeds to step S 13202.

  In step S 13202, the current date / time information is read from the clock register 97 b 1 of the RTC 97. Thereafter, the process proceeds to step S 13203, which is the elapsed time from the start date / time to the current date / time based on the read current date / time information and the start date / time information stored in the start date / time information storage area 94 b of the sound 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 side RAM 94 Indicates "December 15, 2017 08:42:35", the startup elapsed time is "3 hours 11 minutes 10 seconds". If the calculated startup elapsed time exceeds 24 hours 00 minutes 00 seconds, the startup elapsed time is 24 hours 00 minutes 00 until the startup elapsed time reaches a value of 24 hours 00 minutes 00 seconds or less. Subtract the value corresponding to seconds. For example, when the calculated elapsed start time is “51 hours 35 minutes 24 seconds”, the value corresponding to 24 hours 00 minutes 00 seconds is subtracted twice to obtain a new start elapsed time “3 hours 35 minutes. 24 seconds ". The reason for adopting such processing will be described later. After executing Step S13203, the process proceeds to Step S13204.

  In step S13204, the RTC effect execution determination table stored in the sound side ROM 93 is referred to, and it is determined in step S13205 whether it is the timing to start the RTC effect. In the RTC effect execution determination table, the elapsed activation time and the type of the RTC effect are stored in association with each other.

  FIG. 79 is an explanatory diagram for explaining an RTC effect execution determination table. As described above, the activation elapsed time and the type of the RTC effect are stored in the RTC effect execution determination table in association with each other. Specifically, in this aspect, as shown in FIG. 79, different types of RTC effects are set for each hour of activation elapsed time. For example, “RTC effect A” is set corresponding to the activation elapsed time “1 hour 00 minute 00 second”, and “RTC effect B” is set corresponding to the activation elapsed time “2 hour 00 minute 00 second”. Has been. As described above, in this aspect, when the elapsed start time exceeds 24 hours, 00 minutes, 00 seconds, the start elapsed time starts from the start elapsed time until the start elapsed time reaches a value of 24 hours, 00 minutes, 00 seconds or less. The value corresponding to 24 hours 00 minutes 00 seconds is subtracted. Therefore, since the RTC effect execution determination table does not have to correspond to the portion where the elapsed start time exceeds 24 hours 00 minutes 00 seconds, the storage capacity of the sound side ROM 93 required for storing the RTC effect execution determination table Can be reduced.

  Returning to FIG. In step S13205, it is determined whether it is time to start the RTC effect. Specifically, if the elapsed start time calculated in step S13203 matches the elapsed start time set in the RTC effect execution determination table, it is determined that the start timing of the RTC effect is the same. If not, it is determined that it is not the start timing of the RTC effect. For example, when the elapsed start time calculated in step S13203 is “1 hour 00 minute 00 second”, it is determined that it is the start timing of the RTC effect A.

  If it is determined in step S13205 that it is not the time to start the RTC effect (step S13205: NO), this RTC effect process is terminated. On the other hand, if it is determined in step S13205 that it is time to start the RTC effect (step S13205: YES), the process proceeds to step S13206.

  In step S13206, a setting is made to start a type of RTC effect corresponding to the elapsed start time set in the RTC effect execution determination table. For example, when the startup elapsed time is “1 hour 00 minute 00 second”, the control of the speaker 46 and various lamps 47 is started so as to be an effect mode corresponding to the RTC effect A, and a moving image corresponding to the RTC effect A Is transmitted to the display control apparatus 100. In this aspect, the RTC effect A is an effect in which the character A appears and sings the music A for 5 minutes. The other RTC effects set in the RTC effect execution determination table are effects in which other characters appear and sing other songs for 5 minutes. That is, the characters and music appearing for each type of RTC effect are different. Thereafter, the process proceeds to step S13207.

  In step S13207, the RTC effect executing flag is set to ON. Thereafter, the process proceeds to step S13208, and “150,000” is set in the RTC effect timer counter Tr. The RTC effect timer counter Tr is a counter for managing the remaining time of the RTC effect, and is decremented by 1 every 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, “150,000” set in the RTC effect timer counter Tr corresponds to 5 minutes. Thereafter, the present RTC effect processing is terminated.

  If it is determined in step S13201 that the RTC effect execution flag is ON (step S13201: YES), that is, the timer interrupt process after the RTC effect execution flag is turned ON in step S13207 described above. If the process proceeds to step S13201, the process proceeds to step S13209.

  In step S13209, 1 is subtracted from the value set in the RTC effect timer counter Tr. Thereafter, the process proceeds to step S13210, and it is determined whether or not the value of the RTC effect timer counter Tr is zero. In step S13210, when it is determined that the value of the RTC effect timer counter Tr is not 0 (step S13210: NO), that is, when it is determined that the end timing of the RTC effect is not yet reached, this RTC effect process is performed. finish. On the other hand, when it is determined in step S13210 that the value of the timer counter Tr for RTC effect is 0 (step S13210: YES), that is, when it is determined that it is the end timing of the RTC effect, the process proceeds to step S13211. Set to end the RTC effect being executed. Thereafter, the process proceeds to step S13212, the RTC effect execution flag is turned OFF, and the RTC effect processing is ended.

  As described above, according to this aspect, in addition to the effects described in the other aspects described above, the following effects can be achieved.

  Prior to the description of the effect of this aspect, a game hall in which a plurality of pachinko machines 10 are installed will be described. In general, in the game hall, supply of electric power to a plurality of pachinko machines 10 is started simultaneously (simultaneously). Specifically, for example, a plurality of pachinko machines 10 are installed in a so-called island facility with their respective power switches turned on, and a power switch of the island facility (hereinafter also referred to as an island power switch) is used. When turned ON, the supply of power is started simultaneously (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 / time information from the time register 97b1 of the RTC 97 based on the start of the supply of electric power from the outside to the pachinko machine 10, and the read current date / time information. Is stored in the activation date / time information storage area 97b2 of the RTC 97 as the activation date / time information (the process shown in step S12903 in FIG. 75, hereinafter also referred to as “activation date / time information storage process”). Then, the startup date / time information storage process is executed based on the startup date / time information including the date and time when the startup date / time information storage process was executed, and the current date / time information measured by the clock register 97b1 of the RTC 97. The startup elapsed time, which is the elapsed time from the beginning, is calculated (step S13203 in FIG. 78), and the execution of the RTC effect is started based on the calculated startup elapsed time (step S13204 to step S13206 in FIG. 78). The effect of adopting this configuration will be described.

  Temporarily, a configuration in which the execution of the RTC effect is started based on the current date and time information measured in the time register 97b1 of the RTC 97, not the elapsed start time after the start date and time information storage process is executed (for example, in the current date and time information) The case where the configuration in which the RTC effect is started at the timing when the included time becomes 11:00:00 will be described. In this configuration, when the time included in the current date and time information of each pachinko machine 10 installed in the island facility is shifted (for example, included in the current date and time information of the pachinko machine 10A at a certain moment). When 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 effect is started is set for each pachinko machine 10 Each of the pachinko machines 10 installed in the island facility is different from each other, and there is a problem that it gives a sense of incongruity to the players who have been expected to start RTC effects simultaneously (simultaneously).

  On the other hand, according to this aspect, each pachinko machine 10 installed in the island facility, based on the start of the supply of electric power from the outside to the pachinko machine 10, the time register 97 b 1 of the RTC 97 The current date and time information is read from the current date and time, and the read current date and time information is stored as the date and time information in the activation date and time information storage area 97b2. Therefore, for example, when the administrator of the game hall turns on the island power switch, power supply to the plurality of pachinko machines 10 installed in the island facility is started simultaneously (simultaneously). The installed pachinko machines 10 execute activation date / time information storage processing all at once (simultaneously).

  And according to this aspect, each pachinko machine 10 installed in the island facility is timed in the start date and time information including the date and time when the start date and time information storage process is executed, and the time register 97b1 of the RTC 97. Based on the current date and time information, the activation elapsed time after the activation date and time information storage processing is executed is calculated. As described above, since each pachinko machine 10 installed in the island facility executes the start date / time information storage process all at once (simultaneously), the start date / time information storage process calculated in each pachinko machine 10 is executed. Even if there is a deviation in the time included in the current date and time information measured in the time register 97b1 of the RTC 97 of each pachinko machine 10, the startup elapsed time after that is the same (or substantially the same).

  And according to this aspect, since each pachinko machine 10 installed in the island facility starts the RTC effect based on the calculated startup elapsed time, the pachinko machines 10 installed in the island facility all together. It is possible to start the RTC effect (at the same time).

  Furthermore, the pachinko machine 10 according to this aspect is configured to be able to hold the start date and time information stored in the start date and time information storage area 97b2 of the RTC 97 even during a power interruption state in which the supply of power from the outside is cut off. In addition, the MPU 92 of the sound emission control device 90 avoids executing the above-described start date / time information storage processing when the type of the start processing executed by the MPU 62 of the main control device 60 is a specific start processing. (Step S12902 in FIG. 75). Specifically, in this aspect, when the MPU 92 of the sound emission control device 90 receives an activation type command of any one of the RAM clear command, the setting change mode start command, and the setting confirmation mode from the MPU 62 of the main control device 60. Avoids execution of the above-described startup date and time information storage process. The effect of adopting this configuration will be described.

  A case will be described in which a configuration that does not include a function for avoiding execution of the above-described startup date and time information storage process is employed. In this configuration, when the supply of power is started simultaneously (simultaneously) to the pachinko machines 10 installed in the island facility, the pachinko machines 10 installed in the island facility are simultaneously (simultaneously) ) Execute start date / time information storage processing. Thereafter, the administrator of the game hall performs a specific activation process (for example, a setting change mode, a setting confirmation mode, a RAM clear process) in one of the plurality of pachinko machines 10 installed in the island facility. ), The power switch of the one pachinko machine 10 is temporarily turned off, and then the one pachinko machine 10 is in a state in which a specific activation process is executed (for example, a setting change mode, a setting confirmation mode, There is a case where a specific start-up process is executed by turning on the power switch of the one pachinko machine 10 as a state in which an operation for executing the RAM clear process is accepted. In this case, the one pachinko machine 10 executes the activation date / time information storage process again based on the fact that the power switch is turned on and the supply of power is started. Then, the startup elapsed time calculated in the one pachinko machine 10 is different from the startup elapsed time calculated in the other pachinko machine 10, and the timing at which the RTC effect is started in the one pachinko machine 10 is There is a problem that the timing at which the RTC effect is started in the other pachinko machine 10 is different and the player playing the game in the one pachinko machine 10 feels uncomfortable.

  On the other hand, according to this aspect, even if the manager of the game hall turns off the power switch of the one pachinko machine 10 and puts it in the power-off state, the start date / time information storage of the RTC 97 of the one pachinko machine 10 The start date and time information stored in the area 97b2 is retained. Thereafter, when the administrator turns on the power switch with the one pachinko machine 10 in a state where a specific start process is executed, the specific start process is executed in the one pachinko machine 10 and the start date and time information storage process is performed. Since the execution is avoided, the start date / time information stored in the start date / time information storage area 97b2 of the RTC 97 of the one pachinko machine 10 is not overwritten, and power supply is performed simultaneously (simultaneously) with other pachinko machines 10. The startup date / time information stored in the startup date / time information storage process executed at the start is maintained. As a result, the startup elapsed time calculated in each pachinko machine 10 installed in the island facility including the one pachinko machine 10 is the same (or substantially the same).

  And according to this aspect, since each pachinko machine 10 installed in the island facility starts an RTC effect based on the calculated startup elapsed time, once the power switch is turned off, the power switch is turned on again. RTC effects can be started simultaneously (simultaneously) in each pachinko machine 10 installed in the island facility including the pachinko machine 10 that has been made.

  Further, according to this aspect, when the specific activation process is executed by the main control device 60, information on the type of the activation process to be executed at the start of the next power supply is notified. Specifically, in this aspect, when the start process including the process of transmitting the RAM abnormality command (step S12422 in FIG. 70) is executed by the main controller 60, the sound emission controller 90 determines that “RAM abnormality is present. "Please start in the setting change mode." Therefore, the administrator can grasp the type of the activation process to be executed at the start of the next power supply, and after the power supply to the pachinko machine 10 is terminated, the administrator again sends the power to the pachinko machine 10. When starting the power supply, it is possible to execute the notified type of startup process (in this aspect, the setting change mode).

  In particular, in this aspect, after the power supply to the pachinko machine 10 in which the RAM abnormality flag is turned on in step S12415 in FIG. 70 is terminated, the notification is made when the power supply to the pachinko machine 10 is started again. If the start processing (setting change mode) of the specified type is not executed, it is determined again that the RAM is abnormal, and the main controller 60 transmits a RAM abnormality command to the sound emission controller 90 (FIG. 70 step S12422). Then, the MPU 92 of the sound emission control device 90 executes the above-described start date / time information storage process (step S12903 in FIG. 75) again, and the start timing of the RTC effect executed in the pachinko machine 10 is different from the above. The timing of the start of the RTC effect executed in the pachinko machine 10 is shifted. However, in this aspect, since information on the type of activation process to be executed at the start of the next power supply is notified, the administrator may cause the pachinko machine 10 to execute another type of activation process. As a result, it is possible to prevent the start timing of the RTC effect in the pachinko machine 10 from deviating from that of the other pachinko machines 10.

  Further, in this aspect, notification of information regarding the type of activation process to be executed at the start of the next power supply is made until the power supply from the outside to the pachinko machine 10 is cut off (for example, the power switch is It is configured to continue (until it is turned off). The effect by having such a structure is demonstrated.

  If it is configured that the notification of information regarding the type of activation process to be executed at the start of the next power supply is terminated in a predetermined time (for example, 10 seconds), for example, in a wide game hall, the administrator After the island power switch of the island facility is turned on and power supply from the outside to the pachinko machine 10 is started, the notification is ended before the administrator reaches the pachinko machine 10, and the next time The administrator may not be able to grasp the type of activation process to be executed when starting the power supply.

  On the other hand, according to this aspect, the notification of the information regarding the type of the activation process to be executed at the start of the next power supply is continued until the power supply from the outside to the pachinko machine 10 is cut off. Therefore, the notification ends before the administrator reaches the pachinko machine 10, and the administrator cannot grasp the type of activation process to be executed at the start of the next power supply. Occurrence can be avoided.

  In this aspect, in step S12905 of FIG. 75, the activation date / time information is read from the activation date / time information storage area 97b2 of the RTC 97, and the read activation date / time information is written in the activation date / time information storage area 94b of the sound side RAM 94 (stored). The processing is executed, but the processing in step S12905 may be omitted. In this case, the start date / time information storage process is performed based on the current date / time information read from the clock register 97b1 of the RTC 97 and the start date / time information read from the start date / time information storage area 97b2 of the RTC 97 in step S13203 of FIG. What is necessary is just to set it as the structure which calculates the starting elapsed time which is the elapsed time from the date and time when it was performed to the present date and time. However, the configuration in which the process of step S12905 is executed can reduce the frequency of access to the RTC 97 by the sound light side MPU 92, so that the processing load on the sound light side MPU 92 can be reduced.

  In this embodiment, the current date / time information is obtained by reading the current date / time information from the time register 97b1 of the RTC 97 in step S13220 in FIG. 78. Instead of this configuration, the RTC 97 is activated when the pachinko machine 10 is started. The current date and time information may be read from the clock register 97b1 and thereafter the current date and time may be grasped by counting the elapsed time from the current date and time information read at the time of activation based on the internal clock. According to such a configuration, since the frequency of access to the RTC 97 can be reduced, the processing load on the sound light side MPU 92 can be reduced.

  Further, in this aspect, the setting change mode is not limited to the case where the setting change mode is executed based on the fact that the operation for executing the setting change mode is accepted, but the setting change mode is set based on the fact that the setting change flag is ON. Even when executed, the configuration is such that execution of the startup date / time information storage process is avoided, but when the setting change mode is executed based on accepting an operation for executing the setting change mode. As long as the start date and time information storage process is executed, the configuration may be avoided. According to such a configuration, the administrator of the game hall turns on the island power switch, and power supply is started simultaneously (simultaneously) to the plurality of pachinko machines 10 installed in the island facility. In this case, each pachinko machine 10 installed in the island facility is in a situation where the start date / time information storage process should be executed simultaneously (simultaneously), but the pachinko machine whose setting change flag is ON. It can be suppressed that 10 avoids execution of the start date / time information storage process.

  Similarly, the configuration may be such that the execution date and time information storage process is avoided only when the setting confirmation mode is executed based on the reception of an operation for executing the setting confirmation mode. According to such a configuration, the administrator of the game hall turns on the island power switch, and power supply is started simultaneously (simultaneously) to the plurality of pachinko machines 10 installed in the island facility. In this case, the pachinko machines 10 installed in the island facility are in a situation where the start date and time information storage processing should be executed simultaneously (simultaneously), but the setting confirmation flag is ON. It can be suppressed that 10 avoids execution of the start date / time information storage process.

<Aspect 102>
The start date / time information acquisition process shown in FIG. 75 of the above-described aspect 101 may be replaced with the following start date / time information acquisition process shown in FIG. This will be specifically described below.

  FIG. 80 is a flowchart showing start date / time information acquisition processing executed by the sound light side MPU 92 (sound light side CPU 92x) according to the aspect 102 of the first embodiment. In step S 13301, it is determined whether an activation type command has been received from the main MPU 62. Specifically, in this aspect, any one of the five commands of the normal startup command, the RAM abnormality command, the RAM clear command, the setting change mode start command, and the setting confirmation mode start command described above is sent from the main MPU 62. 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 proceeds 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 any one of the five commands described above has been received, and if it is determined that any one of the five commands described above has been received, the process proceeds to step S13302. move on.

  In step S 13302, it is determined whether activation date information is stored in the activation date information storage area 97 b 2 of the RTC 97. Here, the case where the start date / time information is stored in the start date / time information storage area 97b2 of the RTC 97 is a case where the date / time can be read from the information stored in the start date / time information storage area 97b2. The case where the activation date / time information is not stored in the activation date / time information storage area 97b2 of the RTC 97 means, for example, when the pachinko machine 10 is turned on for the first time or when the information stored in the activation date / time information storage area 97b2 is stored. This is a case where the date and time cannot be read normally due to destruction by noise or the like. If it is determined in step S1332 that the activation date / time information is stored in the activation date / time information storage area 97b2 of the RTC 97 (step S13302: YES), the process proceeds to step S13303.

  In step S 13303, activation date information is read from the activation date information storage area 97 b 2 of the RTC 97, and current date information is read from the time register 97 b 1 of the RTC 97. Then, it is determined whether or not the current date and time indicated by the current date and time information has passed 30 minutes or more from the date and time indicated by the start 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 activation date and time information is the next date “2017 12 If it is “Monday 9th 08:15:11”, it is determined that the current date and time indicated by the current date and time information has passed 30 minutes or more from the date and time indicated by the start 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 start date and time information is “December 8, 2017 08:25:21” In the case of “second”, 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 start date and time information. If it is determined in step S 13303 that the current date and time indicated by the current date and time information has passed 30 minutes or more from the date and time indicated by the start date and time information (step S 13303: YES), the process proceeds to step S 13304.

  In step S13304, the current date and time information is read from the clock register 97b1 of the RTC 97, and the read current date and time information is written (stored) in the activation date and time information storage area 97b2 of the RTC 97. Then, it progresses to step S13305 mentioned later. That is, when the current date and time indicated by the current date and time information has passed 30 minutes or more from the date and time indicated by the activation date and time information, information (current date and time information) indicating the date and time of the timing when the pachinko machine 10 is activated is activated. It is stored in the startup date / time information storage area 97b2 as date / time information. Then, it progresses to step S13305 mentioned later.

  On the other hand, if it is determined in step S 13303 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 start date and time information (step S 13303: NO), the process of step S 13304 described above ( The process proceeds to step S13305 without executing (avoiding) the process of reading the current date / time information and overwriting it as the startup date / time information.

  In step S13305, the activation date information stored in the activation date information storage area 97b2 of the RTC 97 is read, and the read activation date information is written (stored) in the activation date information storage area 94b of the sound side RAM. Thereafter, the activation date and time information acquisition process is terminated.

  If it is determined in step S13302 that activation date information is not stored in the activation date information storage area 97b2 of the RTC 97 (step S13302: NO), the processing in step S13303 (present date information is indicated). The process proceeds to step S13304 by avoiding the process of determining whether or not the current date and time has passed 30 minutes or more from the date and time indicated by the startup date and time information. The reason for this is that if there is a configuration in which the startup date / time information is not stored in the startup date / time information storage area 97b2 of the RTC 97 and the process proceeds to step S13303, the startup date / time information to be compared with the current date / time information exists. This is because the trouble of not doing will occur. Also, the reason for executing the process of step S13304 is that if the configuration proceeds to step S13305 without starting date / time information stored in the starting date / time information storage area 97b2 of the RTC 97, the sound light side RAM 94 is started. This is because there is a problem that there is no activation date information to be written in the date information storage area 94b.

  As described 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 / time information from the time register 97b1 of the RTC 97 based on the start of the supply of electric power from the outside to the pachinko machine 10, and the read current date / time information. Is stored in the activation date / time information storage area 97b2 of the RTC 97 as the activation date / time information (the process shown in step S13304 in FIG. 79, hereinafter also referred to as “activation date / time information storage process”). Then, the startup date / time information storage process is executed based on the startup date / time information including the date and time when the startup date / time information storage process was executed, and the current date / time information measured by the clock register 97b1 of the RTC 97. The startup elapsed time, which is the elapsed time from the beginning, is calculated (step S13203 in FIG. 78), and the execution of the RTC effect is started based on the calculated startup elapsed time (step S13204 to step S13206 in FIG. 78). The effect obtained by adopting this configuration is the same as the effect described in the above aspect 102, and thus the description thereof is omitted.

  Furthermore, the pachinko machine 10 according to this aspect is configured to be able to hold the start date / time information stored in the start date / time information storage area 97b2 of the RTC 97 even during a power interruption state. When the MPU 92 receives the activation type command from the MPU 62 of the main controller 60, the date and time included in the current date and time information in the time register 97b1 of the RTC 97 is included in the activation date and time information stored in the activation date and time information storage area 97b2. When the predetermined time (30 minutes in this aspect) has not elapsed since the date and time when the start date and time are set, the above-described start date and time information storage process is avoided (step S13303 in FIG. 79). The effect of adopting this configuration will be described.

  A case will be described in which a configuration that does not include a function for avoiding execution of the above-described startup date and time information storage process is employed. In this configuration, when the supply of power is started simultaneously (simultaneously) to the pachinko machines 10 installed in the island facility, the pachinko machines 10 installed in the island facility are simultaneously (simultaneously) ) Execute start date / time information storage processing. Thereafter, the manager of the game 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 again the one The power switch of the pachinko machine 10 may be turned on. Specifically, for example, in order to change the lottery setting of the pachinko machine 10 by executing the setting change mode, the power switch of one pachinko machine 10 among the plurality of pachinko machines 10 installed in the island facility Is turned off, and the setting change mode is executed by turning on the power switch of the one pachinko machine 10 in a state where the operation for causing the one pachinko machine 10 to execute the setting change mode is accepted. is there. In this case, the one pachinko machine 10 executes the activation date / time information storage process again based on the fact that the power switch is turned on and the supply of power is started. Then, the startup elapsed time calculated in the one pachinko machine 10 is different from the startup elapsed time calculated in the other pachinko machine 10, and the timing at which the RTC effect is started in the one pachinko machine 10 is There is a problem that the timing at which the RTC effect is started in the other pachinko machine 10 is different and the player playing the game in the one pachinko machine 10 feels uncomfortable.

  On the other hand, according to this aspect, even if the manager of the game hall turns off the power switch of the one pachinko machine 10 and puts it in the power-off state, the start date / time information storage of the RTC 97 of the one pachinko machine 10 The start date and time information stored in the 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), the execution date and time information storage process is avoided. In the startup date / time information storage process executed when the startup date / time information stored in the startup date / time information storage area 97b2 of the RTC 97 is not overwritten and the supply of power is started simultaneously (simultaneously) with other pachinko machines 10 The stored start date / time information is maintained. As a result, the startup elapsed time calculated in each pachinko machine 10 installed in the island facility including the one pachinko machine 10 is the same (or substantially the same).

  And according to this aspect, since each pachinko machine 10 installed in the island facility starts an RTC effect based on the calculated startup elapsed time, once the power switch is turned off, the power switch is turned on again. The RTC effects can be started simultaneously (simultaneously) in each of the pachinko machines 10 installed in the island facility including the pachinko machine 10.

  That is, the administrator turns on the island power switch of the island facility and starts supplying power to the plurality of pachinko machines 10 installed in the island facility at the same time (simultaneously). Within 30 minutes in this embodiment, among the plurality of pachinko machines 10 installed in the island facility, the power switch of the one pachinko machine 10 whose lottery setting is to be changed is once turned off, and then the one If the pachinko machine 10 is accepting an operation for executing the setting change mode and the power switch of the one pachinko machine 10 is turned on to execute the setting change mode, the lottery setting of the one pachinko machine 10 is performed. Can be changed, and once installed on the island facility including the one pachinko machine 10 in which the power switch is turned off and then turned on again. It is possible to start simultaneously (concurrently) RTC effect in dick machine 10.

  In this aspect, in step S13303 in FIG. 80, the time used as a criterion for determining whether to avoid the execution date and time information storage process (step S13304) is set to 30 minutes. It is good also as a structure which can change the length of time to become. According to such a configuration, the length of time used as the determination criterion can be changed as appropriate according to the number and size of the pachinko machines 10 installed in the game hall. It is possible to suppress the occurrence of a situation in which the time used as the determination criterion elapses before the lottery setting change operation for the plurality of pachinko machines 10 installed in the hall is completed.

<Aspect 103>
Of the above aspects, in the configuration in which the lottery setting of the winning lottery can be changed, it is determined whether the setting information for determining the lottery setting is a numerical value within a predetermined range after the game has started. It is good also as a structure performed also in. For example, in the case of the pachinko machine 10 that can take any value from “1” to “6” as setting information for determining the lottery setting, the setting information is abnormal other than “1” to “6” due to the influence of noise or the like. It is good also as a structure which performs the determination whether it is not a right value (for example, 7 or B etc.) also in the stage after the progress of a game is started.

  In this aspect, the determination of the setting information is performed when the game ball enters the first start port 33 or the second start port 34 and at the start of the change of the symbol (more precisely, immediately before the winning lottery is performed). To do. Hereinafter, the determination about the setting information executed when the game ball enters the first starting port 33 or the second starting port 34 is referred to as “setting information determination at the time of entering the ball”. The determination regarding the setting information executed immediately before the execution) is referred to as “variation start setting information determination”. Hereinafter, the configuration of this aspect will be specifically described.

  First, the setting information determination at the time of entering performed in this aspect will be described.

  When the main 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) when the game ball enters the first start port 33 or the second start port 34, Prior to the execution of the predetermination process (so-called prefetching) based on the acquired special information, the setting information stored in the setting information storage area of the main RAM 64 is a numerical value within a predetermined range (1 to 6 in this embodiment). Whether or not). In addition, as described later, the pre-determination process is based on the reserved special information before the special information (holding information) that is held becomes a target of the winning lottery (winning determination process described later). This is a process for determining whether or not the jackpot is present, the type of jackpot and the presence or absence of reach.

  And when it determines with the setting information memorize | stored in the setting information storage area of the main side RAM64 being a numerical value within the predetermined range, a destination determination process is performed based on the acquired special information, The said destination determination A hold command including the processing result is set as a command to be transmitted to the sound emission control device 90.

  On the other hand, when it is determined that the setting information stored in the setting information storage area of the main RAM 64 is not a numerical value within a predetermined range, that is, the setting information is an abnormal value other than 1 to 6 due to the influence of noise or the like ( For example, if it is determined that it is 7 or B), the execution of the first determination process is avoided, and the abnormal hold command is set as a command to be transmitted to the sound emission control device 90. The abnormal hold command indicates that the setting information is determined to be an abnormal value at the timing when the game ball enters the first start port 33 or the second start port 34 and that the execution of the first determination process is avoided. It is a command to show.

  Next, the change start time setting information determination executed in this aspect will be described.

  The main 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 the game ball enters the first start port 33 or the second start port 34. When a winning lottery (a winning determination process described later) is executed, whether the setting information stored in the setting information storage area of the main RAM 64 is a numerical value within a predetermined range prior to the execution of the winning lottery. Determine whether or not.

  And when it determines with the setting information memorize | stored in the setting information storage area of the main side RAM64 being a numerical value within the predetermined range, similarly to the normal pachinko machine 10, the winning lottery is performed based on the special information. Execute.

  On the other hand, when it is determined that the setting information stored in the setting information storage area of the main RAM 64 is not a numerical value within a predetermined range, that is, the setting information is an abnormal value other than 1 to 6 due to the influence of noise or the like ( For example, when it is determined that the game is 7 or B), a game stop command indicating that the progress of the game is stopped is issued on the sub-side of the sound emission control device 90 or the like while avoiding the execution of the winning lottery. A process for stopping the progress of the game is transmitted to the control device. As a result, the progress of the game is stopped, and the pachinko machine 10 is in a state where the player cannot continue the game. The sound emission control device 90 that has received the game stop command is for notifying that the game has been stopped due to an abnormality in the setting information and that the pachinko machine 10 is to be restarted in the setting change mode. Execute the process.

  As described above, according to this aspect, when 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 entry, the execution of the first determination process is avoided. It is possible to suppress the occurrence of a problem in the result of the previous determination process because the previous determination process is executed while the abnormal value is not a numerical value within a predetermined range and the result table cannot be referred to. Can do.

  In addition, according to this aspect, when it is determined that the setting information is not a numerical value within the predetermined range in the setting information determination at the start of variation, the winning lottery is avoided, so the setting information is within the predetermined range. It is possible to suppress the fact that the winning lottery is executed in a state where the result is an abnormal value that is not a numerical value and the result table cannot be referred to, and a defect occurs in the winning lottery result.

  Also, according to this aspect, when the setting information is determined not to be a numerical value within a predetermined range in the variation start setting information determination, the progress of the game is stopped, so the setting information is a numerical value within the predetermined range. It is possible to suppress the game from proceeding with an abnormal value that is not, and increasing the player's disadvantage.

  Also, according to this aspect, when the setting information is determined not to be a numerical value within a predetermined range in the variation start setting information determination, the progress of the game is stopped, while the setting information is determined in the setting information determination at the time of entry. When it is determined that the numerical value is not within the predetermined range, the progress of the game is not stopped. The reason for adopting such a configuration will be described.

  First, unlike the present 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 that the setting information is not a numerical value within a predetermined range in the setting information determination at the time of entry. In this configuration, for example, a game ball enters the first start port 33 or the second start port 34 while the symbol is changing or the open / close execution mode (round game) is being executed, and the ball is triggered by the ball. If it is determined that the setting information is not a numerical value within the predetermined range in the time setting information determination, the fluctuation of the symbol or the open / close execution mode (round game) being executed is interrupted and the game is stopped, which is large for the player. It will cause discomfort and disadvantage.

  On the other hand, according to this aspect, since the progress of the game is not stopped even when it is determined that the setting information is not a numerical value within the predetermined range in the determination of the setting information at the time of entering the game, The variation of the symbols already being executed and the opening / closing execution mode (round game) are not interrupted before the game ball that has entered the information determination. And as in this mode, even if the progress of the game is stopped when it is determined that the setting information is not a numerical value within the predetermined range in the setting information determination at the start of change, the symbol is changing or the opening / closing is executed. Since the mode is not being executed, the discomfort and disadvantage given to the player is more than when the setting information is not a numerical value within the predetermined range in the setting information determination at the time of entering the game and the game is stopped. Is not big. Therefore, according to this aspect, it is possible to stop the progress of the game while reducing discomfort and disadvantage given to the player. And it can suppress that a game advances with an abnormal value which is not a numerical value within a predetermined range, and a player's disadvantage increases.

  Next, an effect that is executed in cooperation with the display control device 100 when the sound emission control device 90 of this aspect receives a hold command or an abnormal hold command will be described.

In the pachinko machine 10 according to this embodiment, special information (such as the value of the big hit random number counter C1) acquired based on the game ball entering the first start port 33 or the second start port 34 is a target for the lottery. In the situation where the special information is held, a hold image indicating that the special information is held is displayed on the first hold display area Ds1 or the second hold display area Ds2 (FIG. 4) of the display surface 41a of the symbol display device 41. Let The pachinko machine 10 according to this aspect is configured to be able to display the following five types of hold images as the hold image display mode.
Type 1 reserved image (blue reserved image in this mode)
Type 2 reserved image (green reserved image in this mode)
Type 3 reserved image (red reserved image in this mode)
Type 4 reserved image (golden reserved image in this mode)
Type 5 reserved image (rainbow-colored reserved image in this mode)
In this aspect, the first type reserved image, the second type reserved image, the third type reserved image, the fourth type reserved image, and the fifth type reserved image are arranged in descending order of expectation. Note that the degree of expectation means a high probability that special information corresponding to the reserved image is won in a big win when the reserved image of the display mode is displayed. In this aspect, the fifth type reserved image is configured to be displayed only when the corresponding special information is won in the jackpot, and is not displayed in the case of losing. That is, in the pachinko machine 10 according to this aspect, the fifth type reserved image is a reserved image that suggests that it has been confirmed that the jackpot is won, and when the fifth type reserved image is displayed, The winner will be confirmed.

  Then, when receiving the hold command from the main control device 60, the sound emission control device 90 sets the hold effect pattern based on the result of the destination determination process included in the hold command. In the hold effect pattern, what kind of hold image is displayed first at the timing when the hold command is received, and what display mode (type) of the hold image is displayed until it becomes the target of the winning lottery. Information such as whether to change with a pattern is included.

In this aspect, various holding effect patterns are set. Below, an example of the holding | maintenance effect pattern which can be set in this aspect is shown.
・ The hold type pattern that displays the first type hold image with the lowest expectation at the timing when the hold command is received and maintains the first type hold image without change thereafter. After displaying the lowest type 1 reserved image, after executing a hold change suggesting effect that suggests that the first type reserved image may change to another type of reserved image, the first type reserved image is displayed. A hold image (for example, type 3) having high expectation from the beginning at the timing of receiving a hold effect pattern / hold command for executing a hold change effect for changing the image to a hold image with higher expectation (for example, type 2 reserved image). After holding a hold image (for example, type 3 hold image) with high expectation from the beginning at the timing of receiving a hold effect pattern / hold command for displaying the hold image), the hold image Change is made to change the hold image to a hold image with higher expectation (for example, the fourth type hold image) after executing a hold change suggesting effect that suggests that there is a possibility of changing to another type of hold image A hold image with a high degree of expectation (for example, type 3 hold image) is displayed from the beginning at the timing of receiving the hold effect pattern / hold command for executing the effect, and then the hold image can be changed to another type of hold image. Holding effect pattern for executing a holding change effect for changing the holding image to a holding image with a lower expectation (for example, the first type holding image) after executing the holding change suggestion effect suggesting that there is a hold In the effect pattern, a hold change suggesting effect is executed that suggests that the displayed hold image may be changed to another type of hold image. On-hold effect pattern that maintains without changing the image Note that the on-hold change effect that changes (promotes) an on-hold image with a low expectation level to a highly-expected on-hold image is also called a hold promotion effect, and a high-expected hold image is expected. A hold change effect for changing (demotion) to a hold image with a low degree is also called a hold demotion effect.

  In this aspect, since the hold effect pattern as described above is set, the player plays the game while expecting to display a hold image with a higher expectation. In addition, when the player recognizes the hold change suggestion effect, the player expects to change to a hold image with a higher expectation level, but does not want to change to a hold image with a lower expectation level. I will embrace it.

  Next, a case where the voice light emission control device 90 receives an abnormal hold command will be described.

  When the sound emission control device 90 receives the abnormal hold command, the first hold image having the lowest expectation is displayed on the display screen 41a of the symbol display device 41 as the first hold display area Ds1 or the second hold display area Ds2 (FIG. 4). ) And whether or not the second or more types of reserved images are included in the already displayed reserved images is determined. And when it determines with the 2nd type or more hold image being displayed, the hold change suggestion effect and the hold change effect can be executed within the period until the variation of the currently executed symbol is completed. It is determined whether or not. In this aspect, since the time required from the start to the end of the hold change suggestion effect and the hold change effect is 5 seconds, if the remaining time of the current symbol change is 5 seconds or more, the hold change suggestion effect and the hold change effect Is determined to be executable. If it is determined that the hold change suggestion effect and the hold change effect can be executed, the hold change suggestion effect is executed, and then the displayed second or more type of hold images (for example, gold hold) are displayed. A hold change effect (hold demotion effect) for changing (demotion) to a first type hold image (for example, blue hold) is executed.

  As described above, the fact that the abnormal hold command has been transmitted from the main control device 60 means that the game ball to the first start port 33 or the second start port 34 that has triggered the transmission of the abnormal hold command is transmitted. This means that the setting information is determined to be abnormal (not a numerical value within a predetermined range) at the time of entry. Therefore, the setting information is within a predetermined range at the timing immediately before the symbol that is currently fluctuating stops and the special information that is reserved for the next winning lottery is subject to the winning lottery and the symbol variation starts. It is determined that it is not a numerical value of, and the progress of the game is stopped as it is.

  Here, in this aspect, the reason why the configuration for executing the above-described hold change suggestion effect and hold change effect (hold demotion effect) when an abnormal hold command is received will be described.

  First, unlike the present embodiment, a case will be described in which a configuration in which the above-described hold change suggestion effect and hold change effect (hold demotion effect) are not executed even when an abnormal hold command is received is described. In this configuration, for example, when an abnormal hold command is received in a situation where the design is changing and a hold image with a high expectation is displayed as a target for the next lottery, Despite having a strong expectation for the lottery of special information corresponding to the high-expected reserved image, the special information corresponding to the high-expected reserved image is stopped due to the suspended symbol The game stops at the moment when the target is selected for the lottery or when the special information corresponding to the reserved image that is the target of the lottery is the target of the lottery before the reserved image with high expectation Therefore, the player is strongly angry that the game has been stopped without winning the lottery based on the special information corresponding to the reserved image with a high expectation that had a strong expectation. And disappointment, it becomes to entertain and thus distrust. When the game hall manager restarts the pachinko machine 10 as the above-described setting change mode in order to return the pachinko machine 10 to a state in which the game can be progressed after the game is stopped, it is stored in the main RAM 64. Various information is erased, and special information corresponding to a reserved image with a high degree of expectation in which the player has 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 hold image with high expectation that the player has had a strong expectation will not be executed. His anger and disappointment are further strengthened.

  On the other hand, when the configuration for executing the above-described hold change suggestion effect and the hold change effect when the abnormal hold command is received as in this aspect, a special corresponding to a hold image with a high expectation is employed. Before the information is subject to lottery, that is, before the change of the pattern based on the special information corresponding to the reserved image with high expectation starts, the reserved image with the highest expectation is the reserved image with the lowest expectation. To change. Therefore, the player initially had a strong expectation for the reserved image with a high expectation, but the reserved image with the high expectation changes to a reserved image with a low expectation. The special information corresponding to is not so highly expected. Thereafter, the moment when the special information corresponding to the reserved image is the target of the lottery, or the special information corresponding to the reserved image that is the target of the lottery prior to the reserved image is the target of the lottery Even if the game stops, the player does not already have a strong expectation for the special information corresponding to the reserved image, so that the special information corresponding to the reserved image becomes a target for the lottery. Even if the game stops at the moment when the special information corresponding to the reserved image that is the subject of the lottery wins before the reserved image, or when the game stops at the moment of the lottery, there is so much anger or disappointment You don't have to hold it. Therefore, according to this aspect, it is possible to reduce the player's disappointment that the game has stopped, and the special information corresponding to the hold image is erased by restarting the pachinko machine 10. It is possible to reduce the player's anger and disappointment.

  Further, in this aspect, at the timing when the special information corresponding to the reserved image is the target of the lottery, the reserved image is the first reserved display area Ds1 or the second reserved display area Ds2 on the display surface 41a of the symbol display device 41. Is moved to a different display area (also referred to as a changing hold display area), and the display of the hold image is continued. In this aspect, the fifth-type reserved image having the highest degree of expectation (in this aspect, the rainbow-colored reserved image) is displayed when the reserved image after moving to the changing-holding display area is the object of winning lottery. When the hold image is displayed in the first hold display area Ds1 or the second hold display area Ds2, the fifth type hold image is not displayed. As the hold effect pattern in which the fifth type hold image with the highest expectation is displayed, for example, it is displayed as the fourth type hold image in the first hold display area Ds1 or the second hold display area Ds2. An example in which the hold change suggestion effect and the hold change effect are executed after moving to the changing hold display area as a lottery target, and the fourth type hold image changes to the fifth type hold image with the highest expectation. Can be mentioned. The reason for adopting such a configuration will be described.

  First, unlike the present embodiment, a case will be described in which a configuration in which a hold image with the highest expectation is displayed in the first hold display area Ds1 or the second hold display area Ds2 is used. In this configuration, in a situation in which a hold image with the highest expectation is displayed in the first hold display area Ds1 or the second hold display area Ds2, the sound emission control device 90 receives an abnormal hold command to indicate a hold change. When the effect is executed, the player who has recognized the reserved change suggestion effect has no room for the reserved image with the highest expectation to change to the reserved image with the higher expectation, and therefore after the reserved change suggestion effect. The hold change effect to be executed can be predicted to change the hold image with the highest expectation to a hold image with a low expectation, and the player's expectation for the hold change suggesting effect The feeling will be reduced. In addition, in a situation where a hold image with the highest expectation and that is determined to win the jackpot is displayed in the first hold display area Ds1 or the second hold 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 hold image that is determined to win the jackpot changes to the hold image with the lowest expectation, the player wins the jackpot The hold image that should have been confirmed has changed to the hold image with the least expectation has occurred, an incredible event has occurred, and the hold image that should have been confirmed to win the jackpot Based on the special information corresponding to, the game is stopped without winning the winning lottery, and very angry and disappointed.

  On the other hand, when the configuration of the present aspect described above is adopted, the hold image displayed in the first hold display area Ds1 or the second hold display area Ds always changes to a hold image with higher expectation. Since there is room, the player who has recognized the hold change suggestion effect even if the voice light emission control device 90 receives the abnormal hold command and executes the hold change suggestion effect, It cannot be determined that the hold change effect executed after the hold change suggestion effect is changed to a hold image with low expectation. Therefore, according to this aspect, it is possible to suppress a decrease in the player's expectation for the hold change suggestion effect. Further, in this aspect, the first hold display area Ds1 or the second hold display area Ds2 is configured such that the hold image with the highest expectation and confirmed to win the jackpot is not displayed. Even if the sound emission control device 90 receives the abnormal hold command and the hold change effect is executed, the hold image with the highest expectation displayed in the first hold display area Ds1 or the second hold display area Ds2 is the most. An event of changing to a reserved image with low expectation cannot occur. Therefore, according to this aspect, the reserved image that should have been confirmed to win the jackpot will be changed to the reserved image with the lowest expectation level, or the winning of the jackpot should be confirmed. It is possible to avoid the occurrence of an event that the game is stopped without winning the lottery based on the special information corresponding to the held image, so that the player is greatly angry and disappointed Can be suppressed. In this aspect, when the variation of the symbol starts with the special information being the target of the winning lottery, the lottery result of the winning lottery is displayed even if the setting information becomes an abnormal value after the start of the variation of the symbol. Until the next special information becomes the target of the winning lottery, or when the lottery result of the winning lottery is a big win, the opening / closing execution mode executed based on the big win is finished and the next special information is The game does not stop until the winning lottery is selected. Therefore, even if a hold image (type 5 hold image) that indicates that it is confirmed that the jackpot is won is displayed as a hold image after moving to the changing hold display area, the player The above-mentioned great anger and disappointment will not occur. Therefore, according to this aspect, the hold image that suggests that it has been confirmed that the player wins the big hit in the changing hold display area while suppressing the player from feeling great anger and disappointment. By displaying, a great sense of expectation and joy can be given to the player.

  Further, 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. Cancel the hold effect pattern setting. Specifically, when an abnormal hold command is received, it is determined whether there is a hold change suggestion effect or a hold change effect that has already been set to be executed but has not yet been executed, and is still executed. When it is determined that there are pending change suggestion effects and pending change effects, the execution schedules of the pending change suggestion effects and the pending change effects are canceled. According to this configuration, despite the increase in the player's expectation for the hold image that has changed by executing the hold change suggestion effect and the hold change effect, the special information corresponding to the hold image It is possible to prevent the game from being stopped because the winning lottery is not executed and causing the player to feel distrust.

  Next, an example of processing executed by the main MPU 62 of this aspect will be described. The main side MPU 62 of this aspect 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 side MPU 62 of this aspect is the same as the main process (FIG. 70) described in aspect 101, and thus the description thereof is omitted.

[Timer interrupt processing]
FIG. 81 is a flowchart showing timer interrupt processing executed by the main MPU 62 according to the aspect 103. As described above, the timer interrupt process is started periodically (for example, at a cycle of 4 msec) by the MPU 62 of the main controller 60.

  In step S20101, various random number update processes are executed. In various random number update processing, the current numerical information is read from each counter (big hit random number counter C1, big hit type counter C2, reach random number counter C3, electric accessory release counter C4, etc.) in the main RAM 64, and the read numerical information is After executing the process of adding 1, the process of overwriting the numerical information after the addition to the reading source counter is executed. If the read numerical information is the maximum value of the counter, a process of overwriting 0 on the read source counter is executed. After executing step S20101, the process proceeds to step S20102.

  In step S20102, a power failure monitoring process is executed. In the power failure 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 falls below a predetermined value (for example, 10 volts), the power supply of the pachinko machine 10 It is determined that the switch has been turned off or a power failure has occurred, and various information (information indicating the game state, control information, etc.) stored in the register of the main CPU 62x is saved in a predetermined area of the main RAM 64. . Then, when the saving of these pieces of information to the main 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 RAM 64. A RAM determination value (for example, a checksum value) is calculated, and the calculated RAM determination value is stored in the main RAM 64. Thereafter, without proceeding to step S20103 to be described later, the infinite loop process is repeated until the supplied drive voltage decreases and becomes inoperable. Note that the power supply device 85 of this aspect is used as a drive voltage in a control system such as the main control device 60 even when the drive voltage supplied to the main control device 60 is lowered to a value lower than a predetermined value. A stabilized voltage of volt is output. As a time for which the stabilization voltage is output, a sufficient time for executing the processing until the above-described RAM determination value is stored in the main RAM 64 is secured.

  On the other hand, if it is determined in the power failure monitoring process in step S20102 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 proceeds to step S20103 as it is.

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 process executed when the power is turned on. As will be described later, the game stop flag is a flag that is turned ON to stop the progress of the game when it is determined that the setting information is not normal before the winning lottery is executed. If it is determined in step S20103 that both the RAM abnormality flag and the game stop flag are not ON (step S20103: NO), the process proceeds 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), the timer interrupt process is terminated without executing the processes after step S20104. To do. That is, when at least one of the RAM abnormality flag and the game stop flag is ON, the processing for enabling the progress of the game after step S20104 is not executed, and the game progress mode in which the progress of the game is possible is set. Is configured not to migrate. Hereinafter, the process after step S20104 which is a process for enabling progress of a game is demonstrated.

  In step S20104, port output processing is executed. In the port output process, when output information is set in the previous timer interrupt process, a process for performing output corresponding to the output information to the various drive units 36c and 34b is executed. For example, when the information for switching the special winning opening 36a to the open state is set, the output of the drive signal to the variable winning drive unit 36c is started, and when the information for switching to the closed state is set. The output of the drive signal is stopped. In addition, when the information for switching the electric accessory 34a of the second start port 34 to the open state is set, the output of the drive signal to the electric accessory driving unit 34b is started, and the information to be switched to the closed state is set. If set, output of the drive signal is stopped. Thereafter, the process proceeds to step S20105.

  In step S20105, read processing is executed. In the reading process, a signal other than the incoming ball signal is read and the read information is stored for use in future processing. Thereafter, the process proceeds to step S20106.

  In step S20106, a signal received from each of the entrance detection sensors 44a to 44h is read, and an entrance detection process for executing a process corresponding to the read information is executed. Since the incoming ball detection process is the same as the incoming ball detection process shown in FIG. 28, a detailed description thereof will be omitted. After executing step S20106, the process proceeds to step S20107.

  In step S20107, a timer update process for updating the numerical information of a predetermined timer counter provided in the main RAM 64 is executed. Thereafter, the process proceeds to step S20108.

  In step S20108, a ball entering process for the start port accompanying the game ball entering the first start port 33 and the second start port 34 is executed. In the starting ball entry processing, the big hit random number counter C1, the big hit type counter C2, and the reach random number counter C3 are determined based on the determination that the game ball has entered the first starting port 33 or the second starting port 34. The value is acquired and the acquired counter value is stored in the hold information storage area 64b of the RAM 64. After executing Step S20108, the process proceeds to Step S20109.

  In step S20109, a through gate entry process for entering (passing) a game ball into the through gate 35 is executed. In the entry process for the through gate, the value of the electric accessory release counter C4 is acquired based on the determination that the game ball has entered (passed) the through gate 35, and the acquired counter value is stored in the RAM 64. It memorize | stores in the telephone role reservation area 64d. After executing step S20109, the process proceeds to step S20110.

  In step S20110, a game times control process for controlling a game in each game time is executed. In the game times control process, winning lottery, display control of the first symbol display unit 37a and the second symbol display unit 37b, and the like are performed. After executing step S20110, the process proceeds to step S20111.

  In step S20111, a game state transition process for shifting the game state is executed. In the game state transition process, a process of shifting the game state to an opening / closing execution mode, a high probability mode, a high frequency support mode, or the like is executed. After executing Step S20111, the process proceeds to Step S20112.

  In step S20112, the electric combination support process for controlling the electric combination 34a is executed. In the electric utility support process, it is determined whether or not the electric accessory 34a is in an open state (electric accessory release lottery), and when it is determined to be in an open state, the electric accessory 34a is driven and controlled. After executing Step S20112, the process proceeds to Step S20113.

  In step S20113, a game ball launch control process is executed. In the game ball launch control process, a process for launching a game ball to the game area PA when the operation handle 25 is operated by the player is executed. After executing step S20113, the process proceeds to step S20114.

  In step S20114, a command output process for outputting (transmitting) the command set as a transmission target in the current timer interrupt process to each control device on the sub-side is executed. For example, when commands relating to effects such as a change command, a type command, and a hold command are set, these are transmitted to the sound emission control device 90. After executing step S20114, the process proceeds to step S20115.

  In step S20115, a game history process for calculating and displaying game history information is executed. Since the game history process is the same as the game history process shown in FIG. 29, a detailed description thereof will be omitted. After executing step S20115, the timer interrupt process is terminated.

[Initialization for starter]
Next, the ball entering process for the start port will be described. The starting ball entry process is executed by the MPU 62 of the main controller 60 as a subroutine (FIG. 81: S20108) of the timer interrupt process.

  FIG. 82 is a flowchart showing a ball entry process for a start port. In step S <b> 20201, whether or not a game ball has entered the first start port 33 (start start ball) is determined based on the detection state of the detection sensor corresponding to the first start port 33. If it is determined in step S20201 that a game ball has entered the first start port 33 (S20201: YES), the process proceeds to step S20202, and a prize ball for causing the payout control device 70 to pay out four game balls. Set the command. Thereafter, the process proceeds to step S20203.

  In step S20203, an external signal setting process is performed to output a signal to the management control device on the game hall side that a game ball has entered the first start port 33. Thereafter, the process proceeds to step S20204.

  In step S20204, the start hold number RaN (hereinafter also referred to as the first start hold number RaN) that is a value stored in the hold number storage area of the first hold area Ra is read, and the first start hold number RaN will be described later. Set as the target of processing. The first start reservation number RaN indicates the number of reservations based on a game ball entering the first start port 33. Thereafter, the process proceeds to step S20209.

  If it is determined in step S20201 that the game ball has not entered the first start port 33 (S20201: NO), the process proceeds to step S20205, and whether or not the game ball has entered the second start port 34. Is determined by the detection state of the detection sensor corresponding to the second start port 34.

  If it is determined in step S20205 that a game ball has entered the second start port 34 (S20205: YES), the process proceeds to step S20206, and a prize ball for causing the payout control device 70 to pay out one game ball. Set the command. Thereafter, the process proceeds to step S20207. On the other hand, if it is determined in step S20205 that the game ball has not entered the second start port 34 (S20205: NO), the start processing for the start port is terminated.

  In step S20207, an external signal setting process is performed in order to output a signal indicating that a game ball has entered the second start port 34 to the management control device on the game hall side. Thereafter, the process proceeds to step S20208.

  In step S20208, the start hold number RbN (hereinafter also referred to as the second start hold number RbN), which is a value stored in the hold number storage area of the second hold area Rb, is read, and the second start hold number RbN will be described later. Set as the target of processing. The second start reserved number RbN indicates the reserved number based on the game ball entering the second start port 34. Thereafter, the process proceeds to step S20209.

  In step S20209, it is determined whether the number N of start suspensions (RaN or RbN) set in step S20204 or step S20208 described above is less than an upper limit value (4 in this embodiment). In step S20209, when the number of reserved start N is not less than the upper limit value (S20209: NO), that is, when the number of reserved start N is equal to or greater than the upper limit value, the ball entry process for the start port is terminated.

  On the other hand, in step S20209, when the number N of starting suspension is less than the upper limit value (S20209: YES), the process proceeds to step S20210, and 1 is added to the number N of starting suspensions in the corresponding suspension area, and then the process proceeds to step S20211. 1 is added to the value stored in the total reserved number storage area (hereinafter referred to as the total reserved number CRN). The total reserved number CRN indicates the total value of the first start reserved number RaN and the second start reserved number RbN. Thereafter, the process proceeds to step S20212.

  In step S20212, the values of the jackpot random number counter C1, the jackpot type counter C2 and the reach random number counter C3 updated in step S20101 (FIG. 81) are used as the first storage area among the free storage areas of the corresponding reserved area, ie, step. In step S20210, the number is stored in the storage area corresponding to the reserved number obtained by adding 1. Specifically, when the first start reserved number RaN is set as a processing target, each of the big hit random number counter C1, the big hit type counter C2, and the 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 obtained by adding 1 in step S20210. When the second start hold number RbN is set as a processing target, the values of the jackpot random number counter C1, the jackpot type counter C2 and the reach random number counter C3 updated in step S20103 (FIG. 81) are The first storage area among the empty storage areas of the second reserved area Rb, that is, the storage area corresponding to the second start reserved number RbN obtained by adding 1 in step S20210. After executing Step S20212, the process proceeds to Step S20213.

  In step S20213, it is determined whether or not the setting information stored in the setting information storage area of the main 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 has six stages from “1” to “6”, the setting information is “1”, “2”, “3”, “4”, “5”. ”Or“ 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 proceeds to step S20214.

  In step S20214, a destination determination process is executed. The pre-determination process is based on the information (holding information) of each value of the jackpot random number counter C1, the jackpot type counter C2 and the reach random number counter C3, whether or not the winning lottery determination result (lottery result), the jackpot type, and the occurrence of reach This is a process in which the determination of the presence or absence or the like is executed before the hold information is subject to a lottery by the main control device 60. Details of the destination determination process will be described later. After executing Step S20214, the process proceeds to Step S20215.

  In step S20215, processing for setting a hold command is executed. Specifically, the determination result of the destination determination process executed based on the information (holding 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 hold command.

  The hold command indicates that the game ball has entered the first start port 33 or the second start port 34 and the determination result based on the previous determination process based on the hold information acquired based on the input ball This is a command for causing the control device on the sub-side to confirm before the information is subject to the winning lottery by the main control device 60. The hold command is transmitted to the sound emission control device 90 in the command output process (FIG. 81: step S20114) described above.

  In addition, when receiving the hold command transmitted based on the game ball entering the first start port 33, the sound emission control device 90 displays the display in the first hold display area Ds1 of the symbol display device 41. A command for changing in accordance with the increase in the number of reserved items is transmitted to the display control apparatus 100. The display control apparatus 100 that has received the command changes the display in the first hold display area Ds1 of the symbol display apparatus 41 in accordance with the increase in the number of holds. On the other hand, when the hold command transmitted based on the ball entering the second start port 34 is received, the sound emission control device 90 displays the display in the second hold display area Ds2 of the symbol display device 41 as the number of hold. A command for changing in accordance with the increase is transmitted to the display control apparatus 100. The display control apparatus 100 that has received the command changes the display in the second hold display area Ds2 of the symbol display apparatus 41 in accordance with the increase in the number of holds.

The main side MPU62 After executing step S2021 5, and ends the ball entrance process for the start-up hole.

  On the other hand, if it is determined in step S20213 that the setting information is not a numerical value within a predetermined range, for example, setting information such as “7” or “B” in the setting information storage area of the main RAM 64 due to the influence of noise or the like. If it is determined that an irretrievable value is stored (step S20213: NO), the process proceeds to step S20216 without executing the above-described step S20214, and an abnormal hold command is set. The abnormal hold command is a command indicating that the setting information is not a numerical value within a predetermined range at the time when a game ball enters the first start port 33 or the second start port 34. The abnormal hold command is transmitted to the sound emission control device 90 in the command output process (FIG. 81: step S20114) described above. After step S20216 is executed, the ball entry process for the start port is terminated.

[First judgment processing]
Next, the destination determination process will be described. The pre-determination process is executed by the MPU 62 of the main controller 60 as a start-up entrance ball processing subroutine (FIG. 82: S20214).

  FIG. 83 is a flowchart showing the destination determination process. As described above, the pre-determination processing is based on the hold information, and the determination results such as whether or not the winning lottery is determined, whether the jackpot type is determined, whether or not the reach is generated, and the hold information is determined by the main controller 60. This process is executed before the lottery target.

  In step S20301, the value of the big hit random number counter C1 stored in the storage area is read by entering the game ball into the start port in the start port entrance process (FIG. 82). Thereafter, the process proceeds to step S20302, and the lottery mode at the time when the winning lottery by the current entry is executed as the game time is determined. Specifically, whether or not there is a probable big hit that occurs before the winning lottery by the current entry by reading the judgment result of the previous judgment process executed by the entry before the current entry from the corresponding storage area To determine the lottery mode at the time when the winning lottery by the current entry is executed as the game time.

  If it is determined in step S20302 that the lottery mode at the time when the winning lottery by the current entry is executed as a game time is a low probability mode (S20302: YES), the process proceeds to step S20303 and corresponds to the setting information. Refer to the success / failure table for the low probability mode. As described above, the main control device 60 of the pachinko machine 10 according to this aspect determines whether or not the six types of low-probability modes corresponding to each of the six lottery settings from “lottery setting 1” to “lottery setting 6”. A main table MPU 62 refers to a low probability mode success / failure table corresponding to the setting information indicating the lottery setting. Specifically, for example, when the value of the setting information stored in the setting information storage area of the main RAM 64 is “1”, the success / failure table for the low probability mode corresponding to the lottery setting 1 is referred to. . Thereafter, the process proceeds to step S20305, and it is determined whether or not the information on the value of the jackpot random number counter C1 read this time corresponds to the jackpot as a result of referring to the success / failure table for the low probability mode. Note that an example of the six types of low-probability mode success / failure tables has already been described in the aspect 57, and thus the description thereof is omitted here.

  On the other hand, if it is determined in step S20302 that the lottery mode at the time when the winning lottery by the current entry is executed as a game time is not the low probability mode (S20302: NO), the process proceeds to step S20304 and is used for the high probability mode. Refer to the success / failure table. Thereafter, the process proceeds to step S20305, and it is determined whether or not the value of the jackpot random number counter C1 read this time corresponds to the jackpot as a result of referring to the high-probability mode success / failure table. In this aspect, the configuration is such that one type of high-probability mode success / failure table is referenced regardless of the lottery setting. However, as with the low-probability mode success / failure table, the number of high-probability modes corresponding to the lottery setting is used. It is good also as a structure which prepares the success / failure table for this, and refers to the success / failure table for high probability modes corresponding to lottery setting.

  In step S20305, when it is determined that the value of the jackpot random number counter C1 read this time corresponds to the jackpot (S20305: YES), the process proceeds to step S20306 and is stored in the storage area by entering the current start port. The value of the hit jackpot type counter C2 is read. Thereafter, the process proceeds to step S20307, and the distribution table stored in the distribution table storage area 63b is referred to. Specifically, when the jackpot type counter C2 that is the distribution target this time is acquired based on the game ball entering the first start port 33, the first start port distribution table. When the game ball is acquired based on the game ball entering the second start port 34, the second start port distribution table is referred to. After executing Step S20307, the process proceeds to Step S20308.

  In step S20308, as a result of referring to the allocation table, it is determined whether or not the value of the jackpot type counter C2 read this time corresponds to the probability variation jackpot. If it is determined in step S20308 that the probability variation jackpot is supported (S20308: YES), the process proceeds to step S20309, and the probability variation jackpot information is stored in the previous determination processing result storage area 64f. Thereafter, the destination determination process is terminated. On the other hand, if it is determined in step S20308 that the probability variation jackpot is not supported (S20308: NO), the process proceeds to step S20310, and the normal jackpot information is stored in the previous determination processing result storage area 64f. Thereafter, the destination determination process is terminated.

  In step S20305, when it is determined that the value of the jackpot random number counter C1 read this time does not correspond to the jackpot (S20305: NO), the process proceeds to step S20311, and the current start position enters the storage area. The stored value of the reach random number counter C3 is read. Thereafter, the process proceeds to step S20312, and the reach determination table stored in the reach determination table storage area 63c is referred to. Thereafter, the process proceeds to step S20313, where it is determined whether or not the value of the reach random number counter C3 read this time corresponds to the occurrence of reach as a result of referring to the reach determination table.

  If it is determined in step S20313 that the generation corresponds to the reach occurrence (S20313: YES), the process proceeds to step S20314, and the reach occurrence information is stored in the destination determination process result storage area 64f. Thereafter, the destination determination process is terminated. On the other hand, if it is determined in step S20313 that the generation of the reach is not supported (S20313: NO), the destination determination process is terminated as it is.

[Through gate entry processing]
Next, a through gate entry process for the through gate will be described. The through gate entry process is executed by the MPU 62 of the main controller 60 as a timer interrupt process subroutine (FIG. 81: S20109).

  FIG. 84 is a flowchart showing a ball entry process for a through gate. In step S20401, it is determined whether or not the game ball has entered (passed) the through gate 35. If it is determined in step S20401 that a game ball has entered the through gate 35 (S20401: YES), the process proceeds to step S20402, and whether or not the number of reserved items SN is less than the upper limit value (4 in the present embodiment). Determine whether or not. It should be noted that the accessory reserve number SN is a value indicating the number of balls entering the through gate 35 that is reserved for performing the electric accessory release lottery. In the present embodiment, the maximum value of the number of reserved items SN is 4. On the other hand, if it is determined in step S20401 that a game ball has not entered the through gate 35 (S20401: NO), the through process for this through is ended.

  In step S20402, when it is determined that it is less than the upper limit value (less than 4) of the accessory reservation number SN (S20402: YES), the process proceeds to step S20403, and 1 is added to the accessory reservation number SN. Thereafter, the process proceeds to step S20404.

  In step S20404, the value of the motor combination release counter C4 updated in step S20101 (FIG. 81) is stored in the first storage area among the free storage areas of the power combination holding area 64c of the RAM 64. Subsequently, the through gate entry process is terminated.

  On the other hand, when it is determined in step S20402 that the value of the reserved item number SN is not less than the upper limit value (S20402: NO), that is, when it is determined that the value of the reserved item number SN is greater than or equal to the upper limit value, The through entry process is terminated without storing the value of the electric accessory release counter C4.

[Game control process]
Next, the game times control process will be described. The game times control process is executed by the MPU 62 of the main control device 60 as a subroutine of the timer interrupt process (FIG. 81: step S2011 0 ).

  FIG. 85 is a flowchart showing the game times control process. In step S20501, it is determined whether the open / close execution mode is in effect. Specifically, it is determined whether or not the open / close execution mode flag of the various flag storage areas 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 symbol variation in the winning game is finished, the transition to the opening / closing execution mode is finished, and turned off at the timing when the opening / closing execution mode is finished.

  If it is determined in step S20501 that the opening / closing execution mode flag is ON (S20501: YES), it is determined that the opening / closing execution mode is being performed, and the game is not executed without executing any of the processes in and after step S20502. The control process ends. That is, when the opening / closing execution mode is in progress, the game round is not started regardless of whether or not a game ball has entered the first start port 33 or the second start port 34. . On the other hand, if it is determined in step S20501 that the mode is not in the opening / closing execution mode (S20501: NO), the process proceeds to step S20502.

  In step S20502, it is determined whether or not the main display unit 45 is in a variable display. Specifically, it is determined whether or not any one of the first symbol display part 37a or the second symbol display part 37b is in a variable display. This determination is performed by determining whether or not the variable display flag in the various flag storage areas 64e of the RAM 64 is ON. The variable display flag is turned on when the variable display is started for either the first symbol display unit 37a or the second symbol display unit 37b, and is turned off when the variable display is finished.

  If it is determined in step S20502 that the main display unit 45 is not in a variable display (S20502: NO), the process proceeds to a game turn start process in steps S20503 to S20505. In step S20503, it is determined whether the total reserved number CRN is “0”. The case where the total reserved number CRN is “0” means that the start reserved number is “0” for both the first start port 33 and the second start port 34. Therefore, when it is determined in step S20503 that the total number of reserved pieces CRN is “0” (S20503: YES), this game number control process is terminated. On the other hand, if it is determined in step S20503 that the total reserved number CRN is not “0” (S20503: NO), the process proceeds to step S20504.

  In step S20504, a hold information shift process for setting the data stored in the first hold area Ra or the second hold area Rb to the state after the start of fluctuation is executed, and the process proceeds to step S20505. Details of the hold information shift processing will be described later.

  In step S20505, a change start process for starting change display on the main display unit 45 and change display on the symbol display device 41 is executed. Details of the variation start process will be described later. Thereafter, the process proceeds to step S20506.

  In step S20506, 1 is subtracted from the value of the game number counter PNC. The game number counter PNC is a counter for counting the number of game times executed in the high frequency support mode. After executing step S20506, the game times control process is terminated.

  On the other hand, if it is determined in step S20502 that the main display unit 45 is in a variable display (S20502: YES), the process proceeds to step S20507.

  In step S20507, it is determined whether or not the variation time of the current game time has elapsed. As described above, the variation time is the time from when the symbol sequence starts to vary until all the symbol sequences are stopped, and is a part of the unit game time. Specifically, in step S20507, it is determined whether or not the value of the variation time information stored in the variation time counter area (various counter area 64d) of the RAM 64 has become “0”. The value of the variation time information is set in a variation time setting process (FIG. 89) described later. The value of the set variation time information is decremented by 1 every time the timer interrupt process is started.

  If it is determined in step S20507 that the variation time has not elapsed (S20507: NO), the process proceeds to step S20508, and the variation display process is executed. The variable display process is a process of changing the display mode in the result display unit related to the current game round. After executing step S20508, the game times control process is terminated.

  If it is determined in step S20507 that the variation time has elapsed (S20507: YES), the process proceeds to step S20509, and the variation end process is executed. In the variation end process, the stop symbol determined in the hit determination process (FIG. 88) described later is stopped and displayed on the main display unit 45 as a result of the current game round. After executing step S20509, the process proceeds 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 a hit determination process (FIG. 88) described later. If it is determined in step S20510 that any one of the big hit flags is ON (S20510: YES), the process proceeds to step S20511 and the open / close execution mode flag is turned ON. Then, this game times control process is complete | finished. On the other hand, if it is determined in step S20510 that none of the jackpot flags is ON (S20510: NO), the process proceeds to step S20512.

  In step S20512, it is determined whether or not the total reserved number CRN is “0”. If it is determined in step S20512 that the total reserved number CRN is “0” (S20512: YES), the process proceeds to step S20513, and a customer waiting command is set. The wait-for-customer command causes the sub-side control device 90 to recognize that no hold information is stored in the hold information storage area 64b when the symbol change (game times) ends. It is a command that contains the information. The customer waiting command set in step S20513 is transmitted to the sound emission control device 90 in the command output process (FIG. 81: step S20114) described above. On the other hand, if it is determined in step S20512 that the total reserved number CRN is not “0” (S20512: NO), this game number control process is terminated.

[Hold information shift processing]
Next, the hold information shift process will be described. The hold information shift process is executed by the MPU 62 of the main control device 60 as a subroutine (FIG. 85: S20504) of the game times control process.

  FIG. 86 is a flowchart showing the hold information shift process. In step S20601, it is determined whether or not the holding area that is the processing target for executing the holding information shift process is the first holding area Ra. Specifically, among the hold information stored in time series in the first hold area Ra (FIG. 6), the hold information stored first (the hold stored in the first area of the first hold area Ra) Information) is stored first in the hold information stored in the second hold area Rb (FIG. 6) in time series (stored in the first area of the second hold area Rb). If it is stored in the holding area prior to the holding information), the holding area to be processed is determined to be the first holding area Ra. On the other hand, the hold information stored first in the first hold area Ra (FIG. 6) is stored in the second hold area Rb (FIG. 6) in time series more than the hold information stored first. When the hold information stored first in the hold information is stored in the hold area first, it is determined that the hold area to be processed is the second hold area Rb. That is, by executing the process of step S20601, the hold information can be processed in the order stored in the first hold area Ra or the second hold area Rb.

  If it is determined in step S20601 that the processing target holding area is the first holding area Ra (step S20601: YES), the holding information shift process for the first holding area in steps S20602 to S20607 is executed. On the other hand, when it is determined in step S20601 that the processing target holding area is not the first holding area Ra, that is, when it is determined that the processing target holding area is the second holding area Rb (step S20601: NO). ), The hold information shift process for the second hold area in steps S20608 to S20613 is executed.

  In step S20602, 1 is subtracted from the first start hold number RaN in the first hold area Ra, and then the process proceeds to step S20603, where 1 is subtracted from the total hold number CRN. Thereafter, the process proceeds to step S20604. In step S20604, the data stored in the first area of the first holding area Ra is moved to the execution area AE. Thereafter, the process proceeds to step S20605.

  In step S20605, a process of shifting data stored in the storage area of the first reservation area Ra is executed. This data shift process is a process for sequentially shifting data stored in the first to fourth areas to the lower area side. Specifically, the data in the first area is cleared, and the data in each area is shifted such as second area → first area, third area → second area, and fourth area → third area. After executing Step S20605, the process proceeds to Step S20606.

  In step S20606, when the second symbol display portion flag of the various flag storage areas 64e is ON, the flag is turned OFF, and when it is not ON, the state is maintained. The second symbol display unit flag is information for specifying whether the target of the start of the current variation display is the first symbol display unit 37a or the second symbol display unit 37b. Thereafter, the process proceeds to step S20607.

  In step S20607, a shift command is set. The shift command is a command including information for causing the audio emission control device 90 which is the sub-side control device to recognize that the data in the holding area has been shifted. In this case, from the command information storage area 63f of the ROM 63, corresponding to the information indicating that the reserved area to which the current data is shifted corresponds to the first reserved area Ra, that is, the first start port 33. A command at the time of shift including information indicating that the command is present is selected, and the selected command at the time of shift is set as a command to be transmitted to the sound emission control device 90. Thereafter, the hold information shift process is terminated.

  The shift time command set in step S20607 is transmitted to the sound emission control device 90 in the command output process (FIG. 81: step S20114) described above. Based on the received shift command, the sound emission control device 90 transmits a command for changing the display in the first hold display area Ds1 of the symbol display device 41 corresponding to the decrease in the number of hold to the display control device 100. To do. The display control apparatus 100 that has received the command changes the display in the first hold display area Ds1 of the symbol display apparatus 41 in accordance with the decrease in the number of holds.

  When it is determined in step S20601 that the processing target holding area is not the first holding area Ra, that is, when it is determined that the processing target holding area is the second holding area Rb (step S20601: NO), The process proceeds to step S20608.

  In step S20608, 1 is subtracted from the second start hold number RbN of the second hold area Rb. Thereafter, the process proceeds to step S20609. In step S20609, 1 is subtracted from the total reserved number CRN, the process proceeds to step S20610, and the data stored in the first area of the second reserved area Rb is moved to the execution area AE. Thereafter, the process proceeds to step S20611.

  In step S20611, a process of shifting data stored in the storage area of the second reservation area Rb is executed. This data shift process is a process for sequentially shifting data stored in the first to fourth areas to the lower area side. Specifically, the data in the first area is cleared, and the data in each area is shifted such as second area → first area, third area → second area, and fourth area → third area. After executing Step S20611, the process proceeds to Step S20612.

  In step S20612, when the second symbol display section flag in the various flag storage areas 64e is not ON, the flag is turned ON, and when it is ON, the state is maintained. Thereafter, the process proceeds to step S20613.

  In step S20613, a shift command is set. The shift command is a command including information for causing the audio emission control device 90 which is the sub-side control device to recognize that the data in the holding area has been shifted. In this case, from the command information storage area 63f of the ROM 63, corresponding to the information indicating that the reserved area to which the current data is shifted corresponds to the second reserved area Rb, that is, the second start port 34. A command at the time of shift including information indicating that the command is present is selected, and the selected command at the time of shift is set as a command to be transmitted to the sound emission control device 90. Thereafter, the hold information shift process is terminated.

  The shift command set in step S20613 is transmitted to the sound emission control device 90 in the command output process (FIG. 81: step S20114) described above. Based on the received shift command, the sound emission control device 90 gives a command to the display control device 100 to change the display in the second hold display area Ds2 of the symbol display device 41 in accordance with the decrease in the number of hold. Send. The display control apparatus 100 that has received the command changes the display in the second hold display area Ds2 of the symbol display apparatus 41 in accordance with the decrease in the number of holds.

[Variation start processing]
Next, the fluctuation start process will be described. The variation start process is executed by the MPU 62 of the main control device 60 as a subroutine of the game times control process (FIG. 85: S20505).

  FIG. 87 is a flowchart showing the change start process. In step S20701, it is determined whether or not the setting information stored in the setting information storage area of the main 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 proceeds to step S20702.

  In step S20702, a hit determination process is executed. The winning determination process is a process of determining whether or not a big hit is won based on the value of the big hit random number counter C1 shifted to the execution area AE in the hold information shift process. Details of the hit determination process will be described later. After executing step S20702, the process proceeds to step S20703.

  In step S20703, variable time setting processing is executed. In the variation time setting process, the variation time, which is the time required for the current game play in the first symbol display unit 37a or the second symbol display unit 37b, is set based on the presence or absence of a jackpot or the occurrence of reach. Details of the variable time setting process will be described later. After executing step S20703, the process proceeds to step S20704.

  In step S20704, it is determined whether the 2nd symbol display part flag of RAM64 is ON. If it is determined in step S20704 that the second symbol display unit flag of the RAM 64 is not ON (S20704: NO), the process proceeds to step S20705, and the first variation command is set. The first change command includes information indicating that the current game time relates to the hold information acquired based on the winning at the first start port 33, and whether or not a reach has occurred. And information on the variation time set in step S20703. On the other hand, if it is determined in step S20704 that the second symbol display unit flag is ON (S20704: YES), the process proceeds to step S20706, and a second variation command is set. The second change command includes information indicating that the current game round is related to the hold information acquired based on the winning at the second start port 34, and whether or not a reach has occurred. And information on the variation time set in step S20703. After executing Step S20705 or Step S20706, the process proceeds to Step S20707.

  In step S20707, a type command is set. The type command includes information on the presence / absence of jackpot and the result of the distribution determination. In other words, the type command includes 16R probability variation jackpot information, 8R probability variation jackpot information, 16R normal jackpot information, 8R ordinary jackpot information, or outage result information as jackpot type information.

  The change command and type command set in steps S20705 to S20707 are transmitted to the sound emission control device 90 in the command output process (FIG. 81: step S20114) described above. Based on the received change command and type command, the sound emission control device 90 determines the contents of the effect at the game time and controls various devices so that the determined contents of the effect are executed. After executing Step S20707, the process proceeds to Step S20708.

  In step S20708, the symbol display unit corresponding to the current game time in the first symbol display unit 37a and the second symbol display unit 37b is caused to start the variable display of symbols. Specifically, when the second symbol display unit flag of the RAM 64 is not ON, the symbol display unit corresponding to the current game time is identified as the first symbol display unit 37a, and the variable display is started. When the 2nd symbol display part flag is ON, it specifies that the symbol display part corresponding to this game time is the 2nd symbol display part 37b, and starts a variable display. After executing step S20708, the variation start process is terminated.

On the other hand, if it is determined in step S20701 described above that the setting information stored in the setting information storage area of the main RAM 64 is not a numerical value within the predetermined range, the process proceeds to step S20709, and a game stop command is sent to the sub-side. Are transmitted to the payout control device 70 and the sound emission control device 90 which are the control devices. The game stop command is a command for causing the payout control device 70 and the sound emission control device 90, which are control devices on the sub-side, to stop the progress of the game. After executing step S20709, the process proceeds to step S20710, and the game stop flag is turned ON. As a result, when the next timer interruption process (FIG. 81) is executed, the execution of the treatment groups for advancing the game (treatment group in step S20104~ Step S2011 5 in FIG. 81) is avoided, the progress of a game Is stopped. After executing step S20710, the variation start process is terminated.

[Winning judgment process]
Next, the hit determination process will be described. The hit determination process is executed by the MPU 62 of the main controller 60 as a subroutine for the fluctuation start process (FIG. 87: S20702).

  FIG. 88 is a flowchart showing the hit determination process. In step S20801, it is determined whether or not the lottery mode is a high probability mode. Specifically, it is determined whether or not the high probability mode flag in the various flag storage areas of the RAM 64 is ON. The high probability mode flag is a flag for specifying in the MPU 62 whether or not the lottery mode is the high probability mode. In the present embodiment, the high probability mode flag is turned on when the open / close execution mode related to the winning of the probable big hit is completed. Then, when the jackpot is won and the opening / closing execution mode is started, it is turned OFF. If it is determined in step S20801 that the mode is the high probability mode (S20801: YES), the process proceeds to step S20802.

  In step S20802, the success / failure determination is performed with reference to the success / failure table for high probability mode. Specifically, it is determined whether or not the value of the jackpot random number counter C1 stored in the execution area AE matches the value set as the jackpot winning in the winning table for the high probability mode. Thereafter, the process proceeds to step S20804. On the other hand, if it is determined in step S20801 that the mode is not the high probability mode (S20801: NO), the process proceeds to step S20803.

  In step S20803, the success / failure determination is performed with reference to the availability table for the low probability mode corresponding to the setting information. Specifically, for example, when the value of the setting information stored in the setting information storage area of the main RAM 64 is “1”, the success / failure table for the low probability mode corresponding to the lottery setting 1 is referred to. To determine whether or not to win. In the success / failure 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 the jackpot winning in the low probability mode success / failure table corresponding to the setting information. To do. Thereafter, the process proceeds to step S20804.

  In step S20804, it is determined whether the determination result in step S20802 or step S20803 is a big win. In step S20804, when the result of the determination of whether or not the game is won is a big win (S20804: YES), in step S20805 to step S20812, a process for setting a game result in the case of a big win is set and a stop result are set. Execute the process.

  In step S20805, it is determined whether the 2nd symbol display part flag of RAM64 is ON. If it is determined in step S20805 that the second symbol display unit flag is not ON (S20805: NO), the process proceeds to step S20806, and the first start port allocation table (see FIG. 8A) is referred to. To make a distribution decision. Specifically, the value of the jackpot type counter C2 stored in the execution area AE is any of a numerical range per 16R probability variation jackpot, a numerical range per 8R probability variation jackpot, a numerical range per 16R normal jackpot, or a numerical range per 8R normal jackpot Is included.

  On the other hand, if it is determined in step S20805 that the second symbol display unit flag is ON (S20805: YES), the process proceeds to step S20807, and the distribution table for the second start port (see FIG. 8B). Referring to, perform the distribution determination. Specifically, the value of the jackpot type counter C2 stored in the execution area AE is any of a numerical range per 16R probability variation jackpot, a numerical range per 8R probability variation jackpot, a numerical range per 16R normal jackpot, or a numerical range per 8R normal jackpot Is included. After executing the process of step S20806 or step S20807. The process proceeds to step S20808.

  In step S20808, it is determined whether the jackpot type distributed in step S20806 or step S20807 is a probable jackpot. If it is determined in step S20808 that the game result is a probable big hit (S20808: YES), the process proceeds to step S20809.

  In step S20809, a stop result setting process for probability variation big hit is executed. The stop result setting process for the probable jackpot is a change in the state in which any stop result is displayed on the first symbol display unit 37a or the second symbol display unit 37b in the current game round that will be won for the probable jackpot. This is a process for setting whether to end the display. Specifically, the address information of the stop result data corresponding to the type of jackpot distributed in step S20806 or step S20807 is obtained by referring to the stop result table for probability variation jackpot stored in the stop result table storage area 63e. The address information is acquired and stored in the stop result address storage area of the RAM 64. After executing Step S20809, the process proceeds to Step S20810.

  In step S20810, the flag corresponding to the jackpot type distributed in step S20806 or step S20807 (big jackpot type flag) is turned ON. Specifically, the 16R probability variation flag is turned ON when it is a 16R probability variation big hit, and the 8R probability variation flag is turned ON when it is an 8R probability variation big hit. Thereafter, the hit determination process is terminated.

  On the other hand, if it is determined in step S20808 that the jackpot type assigned in step S20806 or step S20807 is not a probable big hit (S20808: NO), that is, if the assigned jackpot type is a normal jackpot, The process proceeds to S20811.

  In step S20811, a normal jackpot stop result setting process is executed. The normal jackpot stop result setting process varies in a state in which any stop result is displayed on the first symbol display portion 37a or the second symbol display portion 37b in the current game round in which the normal jackpot is won. This is a process for setting whether to end the display. Specifically, by referring to the normal jackpot stop result table stored in the stop result table storage area 63e, the address information of the stop result data corresponding to the jackpot type distributed in step S20806 or step S20807 is obtained. The address information is acquired and stored in the stop result address storage area of the RAM 64. After executing Step S20811, the process proceeds to Step S20812.

  In step S20812, the flag corresponding to the jackpot type distributed in step S20806 or step S20807 (big jackpot type flag) is turned ON. Specifically, the 16R normal flag is turned ON when it is a 16R normal big hit, and the 8R normal flag is turned ON when it is an 8R normal big hit. Thereafter, the hit determination process is terminated.

  In step S20804, if the winning lottery result in step S20802 or step S20803 is not a big win, the process proceeds to step S20813, and a stop result setting process for losing is executed. The stop result setting process for off time is to end the variable display in a state where any stop result is displayed on the first symbol display unit 37a or the second symbol display unit 37b in the current game round that results in a loss. This is a process for setting. Specifically, the stop result data address information corresponding to the value of the jackpot random number counter C1 stored in the execution area AE is acquired by referring to the stop result table for outage in the stop result table storage area 63e. 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 is terminated.

[Variation time setting process]
Next, the variable time setting process will be described. The variation time setting process is executed by the MPU 62 of the main controller 60 as a variation start process subroutine (FIG. 87: S20703).

  FIG. 89 is a flowchart showing the change time setting process. In step S20901, the value of the variation type counter CS stored in the variation type counter buffer in the lottery counter buffer 64a of the RAM 64 is acquired. Thereafter, the process proceeds to step S20902.

  In step S20902, it is determined whether or not the winning lottery for the current game round is a win. Specifically, it is determined whether or not the probability variation jackpot flag or the normal jackpot flag in the RAM 64 is ON. If any flag is ON (S20902: YES), the process proceeds to step S20903.

  In step S20903, referring to the big hit fluctuation time table stored in the fluctuation time table storage area 63d of the ROM 63, the fluctuation time information corresponding to the value of the current fluctuation type counter CS is acquired. In the pachinko machine 10 of this embodiment, the variation time of the game times won in the winning lottery is constant. Thereafter, the process proceeds to step S20904, and the obtained variation time information is set in the variation time counter area provided in the various counter areas 64d of the RAM 64. Thereafter, the process for setting the variation time is terminated.

  If it is determined in step S20902 that the winning lottery related to the current game round is not a win (S20902: NO), the process proceeds 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 relating to the current game round is not won in the above step S20902, in step S20905, a reach occurs among the gaming rounds not won in 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 the reach, it is determined that the reach occurs (S20905: YES), and the process proceeds to step S20906. Note that the reach determination table stored in the reach determination table storage area of the ROM 63 is referred to when the occurrence of reach using the value of the reach random number counter C3 is specified.

  In step S20906, the fluctuation time information corresponding to the value of the current fluctuation type counter CS is acquired with reference to the reach generation fluctuation time table stored in the fluctuation time table storage area 63d of the ROM 63. In the pachinko machine 10 of the present embodiment, the fluctuation time for generating reach is constant. Thereafter, the process proceeds to step S20904, and the obtained variation time information is set in the variation time counter area provided in the various counter areas 64d of the RAM 64. Thereafter, the process for setting the variation time is terminated.

  If it is determined in step S20905 that no reach occurs in the current game round (S20905: NO), the process proceeds to step S20907, and the reach non-occurrence variable time table stored in the variable time table storage area 63d is referred to. Then, the fluctuation time corresponding to the value of the current fluctuation type counter CS is acquired. Thereafter, the process proceeds to step S20904, and the obtained variation time information is set in the variation time counter area provided in the various counter areas of the RAM 64. Thereafter, the process for setting the variation time is terminated.

  In the pachinko machine 10 according to the present embodiment, the variation time information stored in the reach non-occurrence variation time table is set so that the variation time becomes shorter as the total number of reservations CRN increases. However, the present invention is not limited to this. For example, a configuration that does not depend on the total reserved number CRN may be used. The smaller the total reserved number CRN, the shorter the variation time may be set. When the second start hold number RbN is “0”, the variation time becomes shorter as the first start hold number RaN is larger, and the second start hold number RbN is “1” or more. May be set so that the variation time becomes shorter as the number of the second start hold numbers RbN is larger. When the second start hold number RbN is “0”, the variation time becomes longer as the first start hold number RaN is larger, and the second start hold number RbN is “1” or more. May be set such that the larger the number of the second start reserved number RbN, the longer the variation time or the constant number without depending on each of the reserved numbers RaN and RbN.

  Also, in the situation where the support mode is the high frequency support mode, reach is not generated so that a shorter fluctuation time is selected compared to the case where the number of pending information is the same as in the situation where the low frequency support mode is used. A variable time table for use may be set. However, the present invention is not limited to this, and the selected variation times may be the same, and may be opposite to the above relationship.

  Furthermore, the above configuration may be applied to the variation time at the time of reach occurrence, and the variation time that is easy to select and the variation time that is difficult to select at the time of jackpot winning and out of reach reach may be different Good. Further, a variation time table for probability variation jackpot, a variation time table for normal jackpot, a variation time table for outreach and a variation time table for complete losing may be set individually.

[Game state transition processing]
Next, the game state transition process will be described. The game state transition process is executed by the MPU 62 of the main control device 60 as a subroutine of the timer interrupt process (FIG. 81: S20111).

  FIG. 90 is a flowchart showing gaming state transition processing. 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 an ending effect in the opening / closing execution mode.

  If it is determined in step S21001 that the ending period flag is not ON (S21001: NO), the process proceeds to step S21002, and it is determined whether the opening / closing process period flag is ON. The open / close process period flag is turned on at the start of the open / close process period and turned off at the end of the open / close process period.

  If it is determined in step S21002 that the opening / closing process 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 executing the opening effect in the opening / closing execution mode.

  If it is determined in step S21003 that the opening period flag is not ON (S21003: NO), the process proceeds to step S21004, and the timing at which the symbol variation display on the first symbol display unit 37a or the second symbol display unit 37b ends. It is determined whether or not. In step S21004, when it is determined that it is not the timing when the variable display is finished (S21004: NO), the gaming state transition process is finished as it is.

  If it is determined in step S21004 that it is the timing when the variable display is finished (S21004: YES), the process proceeds to step S21005, and the result of the current game round winning lottery corresponds to the transition to the opening / closing execution mode. It is determined whether or not there is. Specifically, it is determined whether or not 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 gaming state transition process is terminated.

  If it is determined in step S21005 that the result of the current game winning lottery corresponds to the transition to the opening / closing execution mode (S21005: YES), the process proceeds to step S21006, where the high probability mode flag and the high frequency are set. Among the support mode flags, the flag that is ON is turned OFF. Thereafter, the process proceeds to step S21007. If it is determined in step S21006 that both the high probability mode flag and the high frequency support mode flag are OFF, the process directly proceeds to step S21007.

  In step S21007, an opening time setting process is executed. The opening time setting process is a process for setting the time 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 for determining the opening time. In the present embodiment, “1500” (that is, 6 sec) is set in the third timer counter area T3. The third timer counter area T3 is provided in various timer counter areas 64d of the RAM 64. After executing step S21007, the process proceeds to step S21008.

  In step S21008, an opening command is set. The set opening command is transmitted to the sound emission control device 90 in the command output process (FIG. 81: step S20114) described above. The sound emission control device 90 is set to execute the opening effect and the right-handed notification effect based on the reception of the opening command, and starts controlling various devices so that these effects are sequentially executed. After executing step S21008, the process proceeds to step S21009, and the opening period flag is turned ON. Thereafter, the gaming state transition process is terminated.

  If it is determined in step S21003 that the opening period flag is ON (S21003: YES), the process proceeds to step S21010.

  In step S21010, it is determined whether the opening period has ended. Specifically, it is determined whether or not the value of the third timer counter area T3 is “0”. If it is determined in step S21010 that the opening period has ended (S21010: YES), the process proceeds to step S21011, and the opening period flag is turned OFF. Thereafter, the process proceeds to step S21012.

  In step S21012, a round display start process for informing the type of the current opening / closing execution mode is executed. Specifically, the address information stored in the stop result address storage area of the RAM 64 is confirmed. Then, based on the confirmed address information, the stop result data corresponding to the address information is specified from 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. Check. Thereafter, the content of the confirmed number of rounds is output to the round display unit 39 in the main display unit 45. As a result, the round display unit 39 displays the round information related to the output. After executing Step S21012, the process proceeds to Step S21013.

  In step S21013, the number of rounds in the current open / close execution mode is set. Specifically, the jackpot type flag (16R probability change flag, 8R probability change flag, 16R normal flag, 8R normal flag) stored in the RAM 64 is confirmed, and the number of rounds corresponding to the flag is set in various counter areas 64f of the RAM 64. Is set in the first round counter area RC1. 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 proceeds to Step S21014.

  In step S21014, the open / close processing period flag is set to ON. Thereafter, the process proceeds to step S21015, and an opening start command is set. The set release start command is transmitted to the sound emission control device 90 in the command output process (FIG. 81: step S20114) described above. 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 sound emission control device 90 is set to execute a round effect with the content corresponding to the number of rounds, and controls various devices so that the set round effect is executed. Start. After executing step S21015, the gaming state transition process is terminated.

  If it is determined in step S21002 that the opening / closing process period flag is ON (S21002: YES), the process proceeds to step S21016, and the big prize opening / closing process is executed. Specifically, when the grand prize winning opening 36a is closed, the variable prize driving unit 36c is set in the driving state on condition that the first round counter area RC1 is “1” or more. The mouth 36a is opened. In addition, when the grand prize winning opening 36a is being opened, on condition that the opening limit time has elapsed since the opening of the special winning prize opening 36a or that the opening limit number of game balls have entered, The driving state of the variable winning drive unit 36c is stopped, and the special winning opening 36a is closed. Details of the big prize opening / closing process will be described later. After executing Step S21016, the process proceeds to Step S21017.

  In step S21017, it is determined whether or not the value of the first round counter area RC1 is “0”. When it is determined that the value of the first round counter area RC1 is not “0” (S21017: NO), the gaming state transition process is terminated as it is. On the other hand, when it is determined that the value of the first round counter area RC1 is “0” (S21017: YES), the process proceeds to step S21018, and the open / close processing period flag is turned OFF. After executing Step S21018, the process proceeds to Step S21019.

  In step S21019, a round display end process is executed. In this process, the display control of the round display unit 39 is terminated so that the round display unit 39 in the main display unit 45 is turned off. After executing Step S21019, the process proceeds to Step S21020.

  In step S21020, an ending time setting process is executed. The ending time setting process is a process for setting the time 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 for determining the ending time. In the present embodiment, “1500” (that is, 6 sec) is set in the fourth timer counter area T4. The fourth timer counter area T4 is provided in various timer counter areas 64d of the RAM 64. After executing Step S21020, the process proceeds to Step S21021.

  In step S21021, an ending command is set. The set ending command is transmitted to the sound emission control device 90 in the command output process (FIG. 81: step S20114) described above. The sound emission control device 90 is set to execute the ending effect based on the reception of the ending command, and starts controlling various devices so that the ending effect is executed. After executing Step S21021, the process proceeds to Step S21022.

  In step S21022, the ending period flag is turned ON. Thereafter, the gaming state transition process is terminated.

  If it is determined in step S21001 that the ending period flag is ON (S21001: YES), the process proceeds to step S21023.

  In step S21023, it is determined whether or not the ending period has ended. Specifically, in the ending time setting process (S21020), it is determined whether or not the value of the fourth timer counter area T4 set as the ending time is “0”. If it is determined in step S21023 that the value of the fourth timer counter area T4 set as the ending time is not “0” (S21023: NO), the gaming state transition process is terminated as it is. 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 proceeds to step S21024.

  In step S21024, the ending period flag is turned OFF. Thereafter, the process proceeds to step S21025, and a transition process 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 of game times after the end of the current ending period. Details of the transition process at the end of the ending period will be described later. After executing step S21025, the process proceeds to step S21026, and the open / close execution mode flag is turned OFF. Thereafter, the process proceeds to step S21027.

  In step S21027, it is determined whether or not the total reserved number CRN is “0”. If it is determined in step S21027 that the total reserved number CRN is “0” (S21027: YES), the process proceeds to step S21028, and a customer waiting command is set. The customer waiting command includes information for causing the audio light emission control device 90, which is a sub-side control device, to recognize that no hold information is stored in the hold 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 sound emission control device 90 in the command output process (FIG. 81: step S20114) described above. On the other hand, if it is determined in step S21027 that the total reserved number CRN is not “0” (S21027: NO), the gaming state transition process is terminated.

[Big prize opening and closing processing]
Next, the prize winning opening / closing process will be described. The big prize opening / closing process is executed by the MPU 62 of the main controller 60 as a subroutine (FIG. 89: S21016) of the game state transition process.

  FIG. 91 is a flowchart showing the special winning opening / closing process. In step S21101, it is determined whether or not the special winning opening 36a is being opened. Specifically, the determination is made based on the driving state of the variable prize driving unit 36c. If it is determined in step S21101 that the special winning opening 36a is not open (S21101: NO), the process proceeds to step S21102, and it is determined whether or not the value of the first round counter area RC1 is “0”. If it is determined in step S21102 that the value of the first round counter area RC1 is “0” (S21102: YES), the main prize winning opening / closing process is terminated. 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 proceeds to step S21103.

  In step S21103, it is determined whether or not 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 special winning opening 36a. If it is determined in step S21103 that the value of the first timer counter area T1 is not “0” (S21103: NO), the main prize winning opening / closing process is terminated. On the other hand, if it is determined in step S21103 that the value of the first timer counter area T1 is “0” (S21103: YES), the process proceeds to step S21104, and the variable prize driving unit is opened to open the big prize opening 36a. Let 36c be a driving state. Thereafter, the process proceeds to step S21105.

  In step S21105, setting processing for each round is executed. In the case of the pachinko machine 10 according to the present embodiment, since all of the set winning modes are high-frequency winning modes, “7500” (that is, 30 sec) is set in the first timer counter area T1. Furthermore, in order to count the number of winning game balls to the big winning opening 36 a, “10” is set in the winning counter area PC provided in the various counter areas 64 d of the RAM 64. The count value set in the first timer counter area T1 is decremented by 1 every 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 proceeds to Step S21106.

  In step S21106, an open command is set. Thereafter, the main prize winning opening / closing process is terminated. The release command is a command including information for causing the audio emission control device 90 and the display control device 100 as the control devices on the sub side to recognize that the opening of the special winning opening 36a is started. In the output process (FIG. 81: step S20114), it is transmitted to the sound emission control device 90. Based on the received opening command, the sound emission control device 90 specifies that the opening of the large winning opening 36a for one round has been started, and the effect contents on the various lamps 47 and the speaker 46 are displayed on the large winning opening 36a. Is updated to the content corresponding to the start of the release of. The sound emission control device 90 transmits the release command to the display control device 100 while maintaining the information form. Based on the received release command, the display control device 100 specifies that the opening of the large winning opening 36a for one round has been started, and the display contents of the effect on the symbol display device 41 indicate that the large winning opening 36a has been opened. Update to the content corresponding to the start.

  If it is determined in step S21101 that the special winning opening 36a is open (step S21101: YES), the process proceeds to step S21107, and it is determined whether or not the value of the first timer counter area T1 is “0”. To do. In this case, the first timer counter area T1 is used as a parameter for measuring the opening continuation time of the special winning 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 proceeds 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 special winning opening 36a. If it is determined in step S21108 that no entry has occurred (S21108: NO), the main prize winning opening / closing process is terminated. On the other hand, if it is determined in step S21108 that a winning has occurred (S21108: YES), the process proceeds to step S21109, and 1 is subtracted from the value of the winning counter area PC. Thereafter, the process proceeds to step S21110.

  In step S21110, it is determined whether or not the value of the winning counter area PC is “0”. If it is determined in step S21110 that the value of the winning counter area PC is not “0” (S21110: NO), the large winning opening / closing process is terminated.

  When it is determined in step S21107 that the value of the first timer counter area T1 is “0” (S21107: YES), or when the value of the winning counter area PC is determined to be “0” in step S21110 (S21110: YES), the process proceeds to step S21111 to execute a special winning opening closing process. Specifically, in order to close the special winning opening 36a, the variable winning drive unit 36c is set in a non-driven state. Thereafter, the process proceeds to step S2112.

  In step S21112, 1 is subtracted from the value of the first round counter area RC1. Thereafter, the process proceeds to step S21113, and it is determined whether or not the value of the first round counter area RC1 is “0”. In Step S21113, when it is determined that the value of the first round counter area RC1 is “0” (S21113: YES), the main prize winning opening / closing process is ended as it is. 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 proceeds to step S21114, and “500” (ie, 2 sec) 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 continuation time of the special winning opening 36a. After executing step S21114, the process proceeds to step S2115 to set a close command. Thereafter, the special prize opening / closing process is terminated.

  The set closing command is a command including information for causing the audio emission control device 90 and the display control device 100 which are the control devices on the sub side to recognize that the opening of the special winning opening 36a has been completed. In the command output process (FIG. 81: step S20114), it is transmitted to the sound emission control device 90. Based on the received closing command, the sound emission control device 90 specifies that the opening of the one-round large winning opening 36a has been completed, and the contents of the effects on the various lamps 47 and the speaker 46 are displayed on the large winning opening 36a. Update to the content corresponding to the end of opening. Further, the sound emission control device 90 transmits the close command to the display control device 100 while maintaining the information form. Based on the received closing command, the display control device 100 specifies that the opening of the big winning opening 36a for one round has been completed, and the effect on the symbol display device 41 is ended with the opening of the large winning opening 36a. Update to the content corresponding to what you did.

[Transition process at the end of the ending period]
Next, the transition process at the end of the ending period will be described. The transition process at the end of the ending period is executed by the MPU 62 of the main control device 60 as a subroutine of the game state transition process (FIG. 90: S21025).

  FIG. 92 is a flowchart showing the transition process at the end of the ending period. In step S22101, it is determined whether or not the flag corresponding to the probability variation jackpot as the jackpot type flag is ON. That is, it is determined whether the 16R probability change flag or the 8R probability change flag of the RAM 64 is ON.

  If it is determined in step S2211 that the 16R probability variation flag or the 8R probability variation flag in the RAM 64 is ON (S22101: YES), the process proceeds to step S2212 to execute flag erasure processing. Specifically, when the 16R probability variation flag, the 8R probability variation flag, the 16 normal flag, the 8R normal flag, and the high frequency support mode flag are ON, the flag is turned OFF, and when it is not ON, the state is maintained. . After executing Step S21202, the process proceeds to Step S2203.

  In step S21203, the high probability mode flag is set to ON, and then the process proceeds to step S21204 to set the high frequency support mode flag to ON. As a result, after the opening / closing execution mode is ended, the game state is shifted to a gaming state in which the success / failure lottery mode is the high probability mode and the support mode is the high frequency support mode. Note that these high probability mode and high frequency support mode are maintained at least until the next big win is won. Thereafter, the process proceeds to step S21205.

  In step S21205, a high probability mode command, which is a command including information for causing the sub-side control device to recognize that the success / failure lottery mode is the high probability mode, is set as a command to be transmitted to the sound emission control device 90. To do. Then, it progresses to step S21210 mentioned later.

  On the other hand, if it is determined in step S21201 that the 16R normal flag or the 8R normal flag in the RAM 64 is ON (S21201: NO), the process proceeds to step S21206 to execute flag erasure processing. Specifically, when the 16R probability variation flag, the 8R probability variation flag, the 16 normal flag, the 8R normal flag, and the high frequency support mode flag are ON, the flag is turned OFF, and when it is not ON, the state is maintained. . Thereafter, the process proceeds to step S21207.

  In step S21207, the high frequency support mode flag is turned ON, and then the process proceeds to step S21208, where 100 is set to the game number counter PNC provided in the various counter areas 64d of the RAM 64. The value set in the game number counter PNC is a value indicating the number of games when the high frequency support mode is executed with the number of games limited. Thereafter, the process proceeds to step S21209.

  In step S21209, a low probability mode command, which is a command including information for causing the sub-side control device to recognize that the success / failure lottery mode is the low probability mode, is set as a command to be transmitted to the sound emission control device 90. To do. Thereafter, the process proceeds to step S21210.

  In step S21210, the high frequency support mode command, which is a command including information for causing the sub-side control device to recognize that the support mode is the high frequency support mode, is transmitted as a command to be transmitted to the sound emission control device 90. Set. Thereafter, the transition process at the end of the ending period is terminated.

[Telephone support processing]
Next, the power combination support process will be described. The electric role support process is executed by the MPU 62 of the main control device 60 as a subroutine of the timer interrupt process (FIG. 81: S20112).

  FIG. 93 is a flowchart showing the power combination support process. In step S2301, it is determined whether support is being performed. Specifically, it is determined whether or not the support flag in the various flag storage areas 64e of the RAM 64 is ON. The in-support flag is a flag that is turned on when the electric accessory 34a of the second start port 34 is opened and turned off when the electric accessory 34a is returned to the closed state. If it is determined in step S2301 that the supporting flag is not ON (S2301: NO), the process proceeds to step S21302.

  In step S21302, it is determined whether the support winning flag in the various flag storage areas 64e of the RAM 64 is ON. The support winning flag is set to ON when the electrified object opening lottery for determining whether or not the electric accessory 34a is to be opened is turned ON, and is turned OFF when the supporting flag is ON. It is. If it is determined in step S21302 that the support winning flag is not ON (S21302: NO), the process proceeds to step S21303.

  In step S21303, it is determined whether or not 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 every time the timer update process (step S20107) of the timer interrupt process is executed, that is, at a cycle of 4 msec.

  If it is determined in step S21303 that the value of the second timer counter area T2 is not “0” (S21303: NO), the main role support process is terminated. On the other hand, if it is determined that the value of the second timer counter area T2 is “0” (S2303: YES), the process proceeds to step S21304.

  In step S21304, it is determined whether it is the end timing of the symbol change display in the normal unit 38. If it is determined in step S21304 that it is the end timing of the variable display (S21304: YES), the process proceeds to step S21305, and after setting the out-of-display, the main role support process is terminated. By setting the out-of-display, the symbol change display in the general-purpose unit 38 is terminated in a state where the out-of-display is stopped and displayed. On the other hand, when it is determined in step S21304 that it is not the end timing of the variable display (S21304: NO), the process proceeds to step S21306.

  In step S21306, it is determined whether or not the value of the accessory reservation number SN is greater than “0”. If it is determined in step S21306 that the value of the number of reserved items SN is “0” (S21306: NO), the main role support process is terminated. On the other hand, if it is determined in step S21306 that the value of the number of reserved items SN is greater than “0” (S21306: YES), the process proceeds to step S21307.

  In step S21307, it is determined whether or not the open / close execution mode is in effect, and then the process proceeds to step S21308 to determine whether or not the high frequency support mode is in effect. 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 proceeds to step S21309, and the electric accessory release lottery is performed. Specifically, when the value stored in the electric utility reservation area 64c is shifted and the value of the electric accessory release counter C4 shifted to the execution area is 0 to 461, the electric accessory release lottery is performed. Winning. At the same time as the opening of the electric accessory release lottery, “375” (ie, 1.5 sec) is set in the second timer counter area T2. The second timer counter area T2 is decremented by 1 every time the timer interrupt process is started. Then, it progresses to step S21310.

  In step S21310, it is determined whether or not the result of the electric accessory release lottery in step S21309 is a support win. In step S21310, if it is determined that the result of the electric-powered object opening lottery is support winning (S21310: YES), the process proceeds to step S21311, the support winning flag is turned on, and the counter 64 is provided in various counter areas 64d of the RAM 64. Then, “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 that the electric accessory 34a is opened. Thereafter, the process proceeds to step S21312. On the other hand, if it is determined in step S21310 that the result of the electric-power-item release lottery is not a support winning (S21310: NO), the process proceeds to step S21312 without executing the process of step S21311.

  In step S21312, it is determined whether or not the lottery mode is the low probability mode. If it is determined in step S21312 that the success / failure lottery mode is the low probability mode (S21312: YES), the process proceeds to step S21313. On the other hand, when it is determined in step S21312 that the success / failure lottery mode is not the low probability mode (S21312: NO), the main role support process is terminated as it is.

  In step S21313, it is determined whether or not the game number counter area is “0”. The game number counter is decremented by 1 every time one game time is completed in the low probability mode and the high frequency support mode. If it is determined in step S21313 that the game number counter area is not “0” (S21313: NO), the main role support process is terminated. On the other hand, if it is determined in step S21313 that the game number counter area is “0” (S21313: YES), the process proceeds to step S21314, and the high-frequency support mode flag is turned OFF. Thereafter, the process proceeds to step S21315.

  In step S21315, the low-frequency support mode command, which is a command including information for causing the sub-side control device to recognize that the support mode is the low-frequency support mode, is transmitted as a command to be transmitted to the sound emission control device 90. Set. Thereafter, the electronic role support process is terminated.

  The low frequency support mode command set in step S21315 is transmitted to the sound emission control device 90 in the command output process (FIG. 81: step S20114) described above. The sound emission control device 90 specifies that the support mode is the low frequency support mode based on the reception of the low frequency support mode command, and executes processing corresponding to the support mode.

  If it is determined in step S21307 that the opening / closing execution mode is set (S21307: YES), or if it is determined in step S21318 that the mode is not the high-frequency support mode (S21308: NO), the process proceeds to step S21316, and the electric accessory opening lottery is performed. I do. Specifically, when the value stored in the electric utility reservation area 64c is shifted and the value of the electric accessory release counter C4 shifted to the execution area is 0 or 1, the electric accessory release lottery is performed. Winning. In addition, “7375” (that is, 29.5 sec) is set in the second timer counter area T2 simultaneously with the lottery for opening the electric accessory. Thereafter, the process proceeds to step S21317.

  In step S21317, it is determined whether or not the result of the electric accessory release lottery in step S21316 is a support win. If it is determined in step S21317 that the support is not won (S21317: NO), the main role support process is terminated. On the other hand, if it is determined in step S21317 that the support win is selected (S21317: YES), the process proceeds to step S21318, the support win flag is set to ON, and “2” is set in the second round counter area RC2. Then, the main power support process is terminated.

  If it is determined in step S21302 that the support winning flag is ON (S21302: YES), the process advances to step S21319 to determine 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. If it is determined in step S21319 that the value of the second timer counter area T2 is not “0” (S21319: NO), since the variation display of the pattern in the normal map unit 38 is being performed, the main role support process is continued. Exit. 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 proceeds to step S21320.

  In step S21320, a win display is set. Thereby, the variation display of the pattern in the general map unit 38 is terminated in a state where the hit display is stopped. Thereafter, the process proceeds to step S21321 where the supporting flag is turned ON and the support winning flag is turned OFF. Thereafter, the main role support processing is terminated.

  If it is determined in step S23101 that the supporting flag is ON (S21301: YES), the process advances to step S21322 to execute the electric combination opening / closing control process for opening / closing the electric combination 34a. Thereafter, the main role support processing is terminated.

[Electronic switch control processing]
Next, the electric role opening / closing control process will be described. The power combination opening / closing control process is executed by the MPU 62 of the main control device 60 as a subroutine of the power combination support process (FIG. 93: S21322).

  FIG. 94 is a flowchart showing the electrical combination opening / closing control process. In step S21401, it is determined whether or not the electric accessory 34a is being opened. Whether or not the electric accessory 34a is being opened is determined by whether or not the electric accessory driving unit 34b is in a driving state. If it is determined that the electric accessory 34a is opened (S21401: YES), the process proceeds 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 opening duration of the electric accessory 34a. If it is determined in step S21402 that the value of the second timer counter area T2 is not “0” (S21402: NO), the main utility opening / closing control process is terminated. In other words, when the opening duration of the electric accessory 34a has not ended, the main electric switch opening / closing control process is ended.

  If it is determined in step S21402 that the value of the second timer counter area T2 is “0” (S21402: YES), the process proceeds to step S21403, and a closing process for controlling the electric accessory 34a to a closed state is performed. “250” (that is, 0.5 sec) is set in the second timer counter area T2. That is, when the second timer counter area T2 as the means for measuring the duration of opening of the electric accessory 34a is “0”, the electric accessory 34a is closed and the second timer counter area T2 is now electrically operated. As a parameter for measuring the closing duration of the accessory 34a, “250” is set in the second timer counter area T2. After executing Step S21403, the process proceeds to Step S21404.

  In step S21404, after 1 is subtracted from the value of the second round counter area RC2, the process proceeds to step S21405, and it is determined whether or not the value of the second round counter area RC2 is “0”. If it is determined in step S21405 that the value of the second round counter area RC2 is not “0” (S21405: NO), the main utility opening / closing control process is terminated. 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 proceeds to step S21406, and the supporting flag is turned OFF. Thereafter, the main role opening / closing control process is terminated.

  If it is determined in step S21401 that the electric accessory 34a is not open (S21401: NO), the process proceeds to step S21407, and it is determined whether or not 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. If it is determined in step S21407 that the second timer counter area T2 is not “0” (S21407: NO), the main utility opening / closing control process is terminated. On the other hand, if it is determined in step S1507 that the second timer counter area T2 is “0” (S21407: YES), the process proceeds to step S21408, and an opening process for controlling the electric accessory 34a to the opened state is executed. . Thereafter, the process proceeds to step S21409.

  In step S21409, it is determined whether or not it is in the opening / closing execution mode. If it is determined that it is not in the opening / closing execution mode (S21409: NO), the process proceeds to step S21410, and it is determined whether or not it is the high-frequency support mode. To do.

  If it is determined in step S21410 that the high-frequency support mode is in effect (S21410: YES), the process proceeds to step S21411, and “400” (that is, 1.6 sec) is set in the second timer counter area T2. Thereafter, the main role opening / closing control process is terminated.

  On the other hand, if it is determined in step S21409 that the mode is the opening / closing execution mode (S21409: YES), or if it is determined in step S21410 that the mode is not the high-frequency support mode (S21410: NO), the process proceeds to step S21412. “50” (that is, 0.2 sec) is set in the timer counter area T2. Thereafter, the main role opening / closing control process is terminated.

  Next, an example of processing executed by the sound light side MPU 92 of the sound emission control device 90 of this aspect will be described.

[Timer interrupt processing]
First, timer interrupt processing executed by the sound light side MPU 92 will be described.

  FIG. 95 is a flowchart showing timer interrupt processing executed in the sound light side MPU 92. The timer interrupt process is repeatedly executed with a relatively short cycle (for example, 2 msec). Hereinafter, the process of each step executed in the timer interrupt process will be described.

  In step S23101, command storage processing is executed. The command storage process is a process for storing the received command in the sound side RAM 94 when a command is received from the main MPU 62. The sound light side RAM 94 is provided with a ring buffer for enabling the command received from the main MPU 62 to be stored and read out. The commands received from the main MPU 62 are sequentially stored in the ring buffer. Are sequentially read according to the stored order. After executing Step S23101, the process proceeds to Step S23102.

  In step S23102, a hold effect process is executed. In the hold effect process, a process related to an effect that is executed when a hold command or an abnormal hold command is received is performed. Details of the hold effect processing will be described later. After executing Step S23102, the process proceeds to Step S23103.

  In step S23103, a game round effect process is executed. In the game times effect processing, processing related to effects executed in the game times from the start of the change of the symbol to the stop thereof is performed. After executing Step S23103, the process proceeds to Step S23104.

  In step S23104, an opening / closing execution mode effect process is executed. In the opening / closing execution mode effect process, processing related to the effect in the opening period, the effect in the opening / closing process period, and the effect in the ending period is performed. After executing Step S23104, the process proceeds to Step S23105.

  In step S23105, a customer waiting process is executed. In the customer waiting process, when the game times have not been executed for a predetermined time, a process for displaying a demo video on the symbol display device 41 is executed. After executing Step S23105, the process proceeds to Step S23106.

  In step S23106, a light emission control process for performing light emission control of the various lamps 47 is executed. In the light emission control process, the light emission control of the various lamps 47 is performed based on the light emission data read in each of the above-described effects processing. After executing Step S23106, the process proceeds to Step S23107.

  In step S23107, an audio output control process for performing audio output control of the speaker 46 is executed. In the sound output control process, sound output control of the speaker 46 is performed based on the sound data read in the BGM process and each effect process. After executing step S23107, the timer interrupt process is terminated.

[Holding effect processing]
Next, the hold production process will be described. The hold effect process is executed by the MPU 92 of the sound emission controller 90 as a timer interrupt process subroutine (FIG. 95: S23102).

  FIG. 96 is a flowchart showing the hold effect process. In step S23201, it is determined whether a hold command has been received. If it is determined in step S23201 that a hold command has not been received (step S23201: NO), the process proceeds to step S23203 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 proceeds to step S23202.

  In step S23202, a hold effect pattern setting process is executed. In the hold effect pattern setting process, first, a hold effect pattern determining random number is acquired from the counter of the sound side RAM 94. Then, with reference to the hold effect pattern table stored in the sound side ROM 93, the determination result (presence / absence of jackpot, type of jackpot, presence / absence of reach) included in the hold command received this time, A holding effect pattern corresponding to the acquired random number for determining the holding effect pattern is selected. Then, the selected hold effect pattern is set as the hold effect pattern to be executed. More specifically, the hold change suggestion effect included in the hold effect pattern set as the execution target so that the hold image included in the hold effect pattern set as the execution target is displayed, Set so that the hold change effect is executed. After executing Step S23202, the process proceeds to Step S23203.

  In step S23203, it is determined whether an abnormal hold command has been received. If it is determined in step S23203 that an abnormal hold command has not been received (S23203: NO), the hold effect processing ends. On the other hand, if it is determined in step S23203 that an abnormal hold command has been received (S23203: YES), the process proceeds to step S23204.

  In step S23204, the first type hold image is set to be displayed in the first hold display area Ds1 or the second hold display area Ds2. Thereafter, the process proceeds to step S23204.

  In step S23205, it is determined whether there is a hold change suggestion effect and a hold change effect that have already been set to be executed but have not yet been executed. If it is determined in step S23205 that there is a pending change suggestion effect and a pending change effect that have already been set to be executed but have not yet been executed (step S23205: YES), the process proceeds to step S23206. The setting of execution of the hold change suggestion effect and the hold change effect is canceled. As a result, the hold change suggestion effect and the hold change effect set to be executed are not executed. Then, it progresses to step S23207 mentioned later. On the other hand, if it is determined in step S23205 that there is no hold change suggestion effect and hold change effect that have already been set to be executed but have not yet been executed (step S23205: NO), the above step S23206 is performed. Without proceeding to step S23207.

  In step S23207, it is determined whether or not a hold image with the second or higher type of expectation is displayed. If it is determined in step S23207 that a hold image with the second or higher type of expectation is displayed (step S23207: YES), the process proceeds to step S23208, and the above-described hold change suggestion effect and hold change effect (hold demotion). It is determined whether or not (production) can be executed. Specifically, it is determined whether or not the above-described hold change suggestion effect and hold change effect (hold demotion effect) can be executed in the remaining change time of the currently changing symbol. If it is determined in step S23208 that the above-described hold change suggestion effect and hold change effect (hold demotion effect) can be executed (step S23208: YES), the process proceeds to step S23209, and the above-described hold change suggestion effect and hold are held. It is set to execute a change effect (holding demote effect). As a result, the hold change suggestion effect is executed, and then the hold change effect (hold change effect) is executed, and the hold image having the second or higher type of expectation changes to the first type hold image.

  On the other hand, if it is determined in step S23207 that a hold image with the second or higher type of expectation is not displayed (step S23207: NO), and the hold change suggestion effect and the hold change effect (hold demotion effect) described above in step S23208. ) Is not feasible (step S23208: NO), the on-hold effect process is terminated without executing step S23209 described above.

  Heretofore, an example of processing executed by the main MPU 62 and the sound light MPU 92 according to this aspect has been described.

  In this aspect, when the sound emission control device 90 receives an abnormal hold command, the normal type 1 hold image is displayed, but instead of this configuration, a normal hold command is received. In some cases, a reserved image that is not displayed (for example, a black X-marked reserved image) may be displayed. According to this configuration, it is possible for the player to recognize at an early stage that some abnormality has occurred in the game. Further, in this configuration, when the sound emission control device 90 receives an abnormal hold command, the hold image that is already displayed is not displayed when the above-described normal hold command is received (for example, black). It is also possible to change the image to a reserved image marked with an X.

  Also, in this aspect, when the sound emission control device 90 receives an abnormal hold command, the hold change suggesting effect that has been set to be executed before receiving the abnormal hold command but has not yet been executed, It is determined whether there is a pending change effect, and if it is determined that there is a pending change suggestion effect or a pending change effect that has not yet been executed, the execution schedule of the pending change suggestion effect or the pending change effect is canceled. Although the configuration is adopted, the hold change effect for which the execution schedule is canceled may be only the hold promotion effect. Even with such a configuration, the hold promotion effect that would give the player discomfort if it is executed before the game is stopped is not executed, so that the discomfort of the player can be reduced.

  In this aspect, the reserved image is displayed on the symbol display device 41. However, instead of this structure, a lamp indicating that special information is reserved is provided, and the light emission mode (for example, lighting) of the lamp is provided. The expectation of the special information corresponding to the lamp may be determined by the color of the hour, the blinking interval, and the like. Also with this configuration, the above-described hold change effect can be executed by changing the light emission mode of the lamp.

  Further, in this aspect, when it is determined that the setting information is not a numerical value within a predetermined range in the variation start setting information determination, the game stop flag is set to ON after the execution of the winning lottery (win determining process) is avoided. However, instead of this configuration, the game may be stopped by turning on the game stop flag after executing the winning lottery (winning determination process). Even in such a configuration, similarly to this aspect, it is possible to prevent the game from proceeding with an abnormal value that is not a numerical value within a predetermined range, thereby increasing the disadvantage of the player. be able to. However, as in this aspect, when it is determined that the setting information is not a numerical value within a predetermined range, it is expected that the configuration in which the execution of the winning lottery (winning determination process) is avoided by the execution of the winning lottery. It is possible to suppress the occurrence of a state (freeze state or runaway state).

  Further, in this aspect, in the first hold display area Ds1 or the second hold display area Ds2, the hold image (the fifth type hold image) having the highest expectation and determined to win the jackpot is not displayed. Although it is configured, even if the hold image with the highest expectation is displayed, if it is a pachinko machine 10 that is likely to come off, that is, even if the hold image with the highest expectation is displayed, the jackpot In the case of the pachinko machine 10 that is not determined to win, the hold image with the highest expectation may be displayed in the first hold display area Ds1 or the second hold display area Ds2. According to such a configuration, for a player who initially had a strong expectation with respect to the most anticipated reserved image, the most anticipated reserved image becomes a reserved image with a low expectation. Even if it changes, it is possible to change the recognition that the special information corresponding to the reserved image is not highly expected.

<Aspect 104>
In the variation start setting information determination executed in the above-described aspect 103, the setting information stored in the setting information storage area of the main RAM 64 is a numerical value within a predetermined range (for example, 1 to 6) due to the influence of noise or the like. Although it is possible to detect that an abnormal value (for example, 7 or B) other than the predetermined range is rewritten from the numerical value), the setting information is changed from a normal numerical value within the predetermined range to another normal numerical value. If the setting information has been rewritten, for example, if the setting information has been rewritten from “1” to “6”, the rewriting of the setting information cannot be detected, and the setting information that has been rewritten There is a problem that the winning lottery (winning determination process) is executed based on the above.

  Therefore, in this aspect, the configuration described below is adopted to solve this problem.

  First, the setting information determination at the time of entering performed in this aspect will be described. The entering time setting information determination executed in this aspect is the same as the entering time setting information determination executed in aspect 103 described above.

  That is, the main side MPU 62 of the main control device 60 of this aspect, like the above-described aspect 103, receives special information (a big hit random number counter) triggered by a game ball entering the first start port 33 or the second start port 34. When the C1 value is acquired, the setting information stored in the setting information storage area of the main RAM 64 is within a predetermined range prior to the execution of the pre-determination process (so-called prefetching) based on the acquired special information. It is determined whether it is a numerical value of (a numerical value from 1 to 6 in this embodiment).

  And when it determines with the setting information memorize | stored in the setting information storage area of the main side RAM64 being a numerical value within the predetermined range, a destination determination process is performed based on the acquired special information, The said destination determination A hold command including the processing result is set as a command to be transmitted to the sound emission control device 90.

  On the other hand, when it is determined that the setting information stored in the setting information storage area of the main RAM 64 is not a numerical value within a predetermined range, that is, the setting information is an abnormal value other than 1 to 6 due to the influence of noise or the like ( For example, if it is determined that it is 7 or B), the execution of the first determination process is avoided, and the abnormal hold command is set as a command to be transmitted to the sound emission control device 90. Since the process (effect) executed by the sound emission control device 90 that has received the abnormal hold command is the same as the above-described aspect 103, the description thereof is omitted.

  Next, the change start time setting information determination executed in this aspect will be described.

  The main MPU 62 of the main control device 60 according to this aspect acquires special information (such as the value of the big hit random number counter C1) and holds it when the game ball enters the first start port 33 or the second start port 34. When storing the information in the information storage area 64b, the setting information stored in the setting information storage area of the main RAM 64 is read out, and the read setting information is stored in the hold information storage area 64b together with the special information. Hereinafter, the setting value stored together with the special information when the game ball enters the first start port 33 or the second start port 34 is also referred to as “entrance setting information”.

  When the winning lottery is executed based on the acquired special information (such as the value of the big hit random number counter C1), the settings stored in the setting information storage area of the main RAM 64 prior to the winning lottery execution. It is determined whether or not the information coincides with the setting information at the time of entry stored in the execution area AE (FIG. 6) together with the special information that is the target of the lottery.

  When it is determined that the setting information matches the setting information at the time of entering the ball, a winning lottery is executed based on the special information as in the case of the normal pachinko machine 10.

  On the other hand, if it is determined that the setting information does not match the setting information at the time of entering the game, a game stop command indicating that the progress of the game is to be stopped after avoiding the execution of the winning lottery is sent to the sound emission control device A process for stopping the progress of the game is executed by transmitting it to the sub-side control device such as 90. As a result, the progress of the game is stopped, and the pachinko machine 10 is in a state where the player cannot continue the game. The sound emission control device 90 that has received the game stop command is for notifying that the game has been stopped due to an abnormality in the setting information and that the pachinko machine 10 is to be restarted in the setting change mode. Execute the process.

  As described above, according to the present aspect, since it is determined whether or not the setting information matches the setting information at the time of entering in the variation start time setting information determination, the setting information is within a predetermined range due to the influence of noise or the like. Even when a normal numerical value is rewritten to another normal numerical value, rewriting of the setting information can be detected. Specifically, it is set between the timing at which the game ball enters the first start port 33 or the second start port 34 and the timing at which the special information acquired based on the pitch is the target of the lottery. When the information has been rewritten from a normal value within a predetermined range to another normal value, the setting information at the start of variation does not match the setting information at the time of entry. Rewriting can be detected.

  In addition, according to this aspect, when rewriting of the setting information is detected in the setting information determination at the start of change, the winning lottery is avoided, so that the setting information is another normal value not intended by the administrator. It is possible to suppress the fact that the winning lottery is executed in the state that has been rewritten.

  Also, according to this aspect, when the rewriting of the setting information is detected in the setting information determination at the time of starting the change, the progress of the game is stopped, so that the setting information is set to another normal value not intended by the administrator. It is possible to prevent the game from continuing in the rewritten state.

  In addition, according to this aspect, when it is determined that the setting information is not a numerical value within the predetermined range in the setting information determination at the time of entering the ball, the setting information is within the predetermined range because execution of the first determination process is avoided. It can be suppressed that the destination determination process is executed with an abnormal value that is not a numerical value of the above, and a problem occurs in the result of the destination determination process.

  Further, according to this aspect, when the rewrite of the setting information is detected in the setting information determination at the start of change, the progress of the game is stopped, while the setting information is a numerical value within a predetermined range in the setting information determination at the time of entering the ball. If it is determined that it is not, 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 described in the above-described aspect 103, and thus the description thereof is omitted.

  Next, an example of processing executed by the main MPU 62 of this aspect will be described. In the following, processing different from the processing described in aspect 103 will be described, and description of the same processing as in aspect 103 will be omitted. As will be described below, in this aspect, the contents of the starting ball entry process and the fluctuation start process are different from those of the above-described aspect 103.

[Initialization for starter]
A starting entrance ball entering process executed by the main MPU 62 of the embodiment 104 will be described.

  FIG. 97 is a flowchart showing the entrance entrance ball entry processing executed by the main MPU 62 of the embodiment 104. Since the processing from step S20201 to step S20211 is the same as the starting ball entry processing in the aspect 103 shown in FIG. 82, the description thereof is 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 set to the first storage area of the corresponding free storage areas, that is, 1 in step S20210. Store in the storage area corresponding to the added hold number. Specifically, when the first start reserved number RaN is set as a processing target, 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 set to the first information. The first storage area in the free storage area of the reservation area Ra, that is, the storage area corresponding to the first start reservation number RaN obtained by adding 1 in step S20210. When the second start hold number RbN is set as a processing target, 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 used as the second hold area Rb. Is stored in the first storage area, that is, in the storage area corresponding to the second start reserved number RbN obtained by adding 1 in step S20210. After executing Step S20212a, the process proceeds to Step S20213. Since the processing after step S20213 is the same as the starting ball entry processing in the aspect 103 shown in FIG. 82, the description thereof is omitted.

[Variation start processing]
Next, the variation start process executed by the main MPU 62 of the aspect 104 will be described.

  FIG. 98 is a flowchart showing the variation start process executed by the main MPU 62 of the aspect 104. In step S20701a, the setting information stored in the setting information storage area of the main RAM 64 and the setting information at the time of entry shifted to the execution area AE together with special information such as the value of the jackpot random number counter C1 in the hold information shift process It is determined whether or not. If it is determined that the setting information matches the setting information at the time of entering the ball (step S20701a: YES), the process proceeds to step S20702. The processing from step S20702 to step S20708 is the same as the change start processing in the aspect 103 shown in FIG.

  On the other hand, in step S20701a, the setting information stored in the setting information storage area of the main RAM 64 and the setting at the time of entry shifted to the execution area AE together with special information such as the value of the jackpot random number counter C1 in the hold information shift processing If it is determined that the information does not match (step S20701a: NO), the process proceeds to step S20709, and a game stop command is transmitted to the payout control device 70 and the sound emission control device 90, which are sub-side control devices. After executing step S20709, the process proceeds 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 (the process group of steps S20104 to S20116 in FIG. 81) for advancing the game is avoided, and the game progresses. Stopped. After executing step S20710, the variation start process is terminated.

<Aspect 105>
In the variation start setting information determination executed in the above aspect 104, it is detected that the setting information has been rewritten depending on the timing at which the setting information is rewritten from a normal numerical value within a predetermined range to another normal numerical value. May not be possible. For example, when the setting information is rewritten during a period in which the symbol does not change, there is a problem that the rewriting of the setting information cannot be detected.

  Therefore, in this aspect, the configuration described below is adopted to solve the above-described problem.

  First, the setting information determination at the time of entering performed in this aspect will be described. The entering time setting information determination executed in this aspect is the same as the entering time setting information determination executed in aspect 103 described above.

  That is, the main side MPU 62 of the main control device 60 of this aspect, like the above-described aspect 103, receives special information (a big hit random number counter) triggered by a game ball entering the first start port 33 or the second start port 34. When the C1 value is acquired, the setting information stored in the setting information storage area of the main RAM 64 is within a predetermined range prior to the execution of the pre-determination process (so-called prefetching) based on the acquired special information. It is determined whether it is a numerical value of (a numerical value from 1 to 6 in this embodiment).

  And when it determines with the setting information memorize | stored in the setting information storage area of the main side RAM64 being a numerical value within the predetermined range, a destination determination process is performed based on the acquired special information, The said destination determination A hold command including the processing result is set as a command to be transmitted to the sound emission control device 90.

  On the other hand, when it is determined that the setting information stored in the setting information storage area of the main RAM 64 is not a numerical value within a predetermined range, that is, the setting information is an abnormal value other than 1 to 6 due to the influence of noise or the like ( For example, if it is determined that it is 7 or B), the execution of the first determination process is avoided, and the abnormal hold command is set as a command to be transmitted to the sound emission control device 90. Since the process (effect) executed by the sound emission control device 90 that has received the abnormal hold command is the same as the above-described aspect 103, the description thereof is omitted.

  Next, the change start time setting information determination executed in this aspect will be described.

  The main MPU 62 of the main control device 60 according to this aspect acquires special information (such as the value of the big hit random number counter C1) and holds it when the game ball enters the first start port 33 or the second start port 34. When storing the information in the information storage area 64b, the setting information stored in the setting information storage area of the main RAM 64 is read out, and the read setting information is stored in the hold information storage area 64b together with the special information. Hereinafter, the setting value stored together with the special information when the game ball enters the first start port 33 or the second start port 34 is also referred to as “entrance setting information”.

  When the winning lottery is executed based on the acquired special information, prior to the execution of the winning lottery, the entry information stored in the execution area AE (FIG. 6) is stored together with the special information that is the subject of the winning lottery. It is determined whether or not the ball time setting information matches the previous hit determination processing time setting information stored in the main RAM 64 as setting information at the time when the previous winning lottery (winning determination processing) is executed.

  When it is determined that the setting information at the time of entering and the setting information at the time of the previous hit determination process do not match, a game stop command indicating that the progress of the game is stopped after the execution of the winning lottery is avoided Is transmitted to a sub-side control device such as the sound emission control device 90, and processing for stopping the progress of the game is executed. As a result, the progress of the game is stopped, and the pachinko machine 10 is in a state where the player cannot continue the game. The sound emission control device 90 that has received the game stop command is for notifying that the game has been stopped due to an abnormality in the setting information and that the pachinko machine 10 is to be restarted in the setting change mode. Execute the process.

  On the other hand, if it is determined that the setting information at the time of entering and the setting information at the time of the previous hit determination process are the same, the setting information is read from the setting information storage area after performing a winning lottery (winning determination process) The read setting information is written in the previous hit determination process setting information storage area. The setting information (previous hit determination process setting information) written in the previous hit determination process setting information storage area includes the determination (setting information and previous hit determination process setting information) executed prior to the next winning lottery. Used to determine whether or not they match.

  As described above, according to this aspect, since it is determined whether or not the setting information at the time of entering and the setting information at the time of the previous hit determination processing match in the setting information determination at the start of variation, the setting is made due to the influence of noise or the like. Even when the information is 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 previous winning lottery execution (the timing of the start of symbol variation) and the timing at which the game ball enters the first start port 33 or the second start port 34 When the setting information has been rewritten from a normal value within a predetermined range to another normal value, the setting information at the time of entry and the setting information at the time of the previous hit determination process are the same in the setting information determination at the start of variation. Since this is not done, rewriting of the setting information can be detected. That is, according to this aspect, even when the setting information is rewritten from a normal numerical value within a predetermined range to another normal numerical value during a period in which the symbol does not change, the setting information is rewritten. Can be detected.

  In addition, according to this aspect, when rewriting of the setting information is detected in the setting information determination at the start of change, the winning lottery is avoided, so that the setting information is another normal value not intended by the administrator. It is possible to suppress the fact that the winning lottery is executed in the state that has been rewritten.

  Also, according to this aspect, when the rewriting of the setting information is detected in the setting information determination at the time of starting the change, the progress of the game is stopped, so that the setting information is set to another normal value not intended by the administrator. It is possible to prevent the game from continuing in the rewritten state.

  In addition, according to this aspect, when it is determined that the setting information is not a numerical value within the predetermined range in the setting information determination at the time of entering the ball, the setting information is within the predetermined range because execution of the first determination process is avoided. It can be suppressed that the destination determination process is executed with an abnormal value that is not a numerical value of the above, and a problem occurs in the result of the destination determination process.

  Further, according to this aspect, when the rewrite of the setting information is detected in the setting information determination at the start of variation, the progress of the game is stopped, while the numerical value is not within a predetermined range in the setting information determination at the time of entering the ball. 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 described in the above-described aspect 103, and thus the description thereof is omitted.

  Next, an example of processing executed by the main MPU 62 of this aspect will be described. In the following, processing different from the processing described in aspect 103 will be described, and description of the same processing as in aspect 103 will be omitted. As will be described below, in this aspect, the contents of the starting ball entry process and the fluctuation start process are different from those of the above-described aspect 103.

[Initialization for starter]
The starting entrance ball entering process executed by the main MPU 62 of the embodiment 105 will be described.

  FIG. 99 is a flowchart showing a starting-port entrance process executed by the main MPU 62 according to the aspect 105. Since the processing from step S20201 to step S20211 is the same as the starting ball entry processing in the aspect 103 shown in FIG. 82, the description thereof is 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 set to the first storage area of the corresponding free storage areas, that is, 1 in step S20210. Store in the storage area corresponding to the added hold number. Specifically, when the first start reserved number RaN is set as a processing target, 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 set to the first information. The first storage area in the free storage area of the reservation area Ra, that is, the storage area corresponding to the first start reservation number RaN obtained by adding 1 in step S20210. When the second start hold number RbN is set as a processing target, 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 used as the second hold area Rb. Is stored in the first storage area, that is, in the storage area corresponding to the second start reserved number RbN obtained by adding 1 in step S20210. After executing Step S20212b, the process proceeds to Step S20213. Since the processing after step S20213 is the same as the starting ball entry processing in the aspect 103 shown in FIG. 82, the description thereof is omitted.

[Variation start processing]
Next, the variation start process executed by the main MPU 62 of the aspect 105 will be described.

  FIG. 100 is a flowchart showing the change start process executed by the main MPU 62 of the aspect 105. In step S20701b, the setting information at the time of entry shifted to the execution area AE together with special information such as the value of the jackpot random number counter C1 in the hold information shift process, and the previous hit determination process setting information storage area of the main RAM 64 are stored. It is determined whether or not the previous hit determination processing setting information matches. If it is determined that the setting information at the time of entering and the setting information at the time of the previous hit determination process match (step S20701b: YES), the process proceeds to step S20702, and the hit determination process is executed. Thereafter, the process proceeds to step S20702-2b, where the setting information is read from the setting information storage area of the main RAM 64, and the read setting information is written in the previous hit determination process setting information storage area. Thereafter, the process proceeds to step S20703. The processing from step S20703 to step S20708 is the same as the change start processing in the aspect 103 shown in FIG.

  On the other hand, if it is determined in step S20701b that the setting information at the time of entering and the setting information at the time of the previous hit determination process do not match (step S20701b: NO), the process proceeds to step S20709, and the game stop command is controlled on the sub-side. This is transmitted to the payout control device 70 and the sound emission control device 90 which are the devices. After executing step S20709, the process proceeds 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 (the process group of steps S20104 to S20116 in FIG. 81) for advancing the game is avoided, and the game progresses. Stopped. After executing step S20710, the variation start process is terminated.

<Aspect 106>
In the variation start setting information determination executed in the above-described aspect 105, it is detected that the setting information has been rewritten depending on the timing at which the setting information is rewritten from a normal numerical value within a predetermined range to another normal numerical value. May not be possible. For example, in the pachinko machine 10 in which the setting information is set to “1”, the winning lottery is executed, the previous hit determination processing setting information becomes “1”, and the symbol changes based on the execution of the winning lottery. A game ball enters the first start port 33 or the second start port 34 and one piece of special information is reserved, and the set information at the time of entering is “1”. After that, the setting information is rewritten from “1” to “6” due to the influence of noise, etc., and after that, when the variation ends and the winning lottery for the reserved special information is executed, the setting at the time of entry is made. Since both the information and the previous hit determination process setting information are “1”, it has been determined that the entry time setting information matches the previous hit determination process setting information. There is a problem that the winning lottery is executed in a state where the setting information is “6”.

  In addition, in the setting information determination at the time of entering in the above aspects 103 to 105, the setting information is changed from a numerical value within a predetermined range to an abnormal value other than the predetermined range (for example, 7 or B) due to the influence of noise or the like. Although it is possible to detect that the setting information has been rewritten, if the setting 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. There is a problem that the destination determination process is executed based on the setting information that cannot be rewritten.

  Therefore, in this aspect, the configuration described below is adopted to solve the above-described problem.

  First, the setting information determination at the time of entering performed in this aspect will be described.

  When the main 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) when the game ball enters the first start port 33 or the second start port 34, Before executing the predetermination process (so-called prefetching) based on the acquired special information, the setting information stored in the setting information storage area of the main RAM 64 and the previous winning lottery (winning determination process) were executed. It is determined whether or not the previous hit determination processing setting information stored in the main RAM 64 as the setting information at the time coincides.

  And when it determines with the setting information memorize | stored in the setting information storage area of the main side RAM64 and the setting information at the time of last hit | judging determination process matching, a pre-determination process (based on the acquired special information ( So-called prefetching) is executed, and a hold command including the result of the predetermination process is set as a command to be transmitted to the sub control device.

  On the other hand, if it is determined that the setting information stored in the setting information storage area of the main RAM 64 and the previous hit determination process setting information do not match, the execution of the previous determination process is avoided, and abnormal suspension The command is transmitted to the sub-side control device such as the sound emission control device 90. In the abnormal hold command, it is determined that the setting information is rewritten to another value at the timing when the game ball enters the first start port 33 or the second start port 34, and the execution of the previous determination process is performed. This command indicates that it was avoided. Since the process (effect) executed by the sound emission control device 90 that has received the abnormal hold command is the same as the above-described aspect 103, the description thereof is omitted.

  Next, the change start time setting information determination executed in this aspect will be described.

  The main 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 the game ball enters the first start port 33 or the second start port 34. When the winning lottery is executed, the setting information stored in the setting information storage area and the setting information at the time when the previous winning lottery (winning determination process) is executed are stored prior to the execution of the winning lottery. It is determined whether or not the previous hit determination processing setting information matches.

  When it is determined that the setting information does not match the setting information at the time of the previous hit determination process, a game stop command indicating that the progress of the game is to be stopped is emitted after avoiding the execution of the winning lottery. The process is transmitted to the control device on the sub-side such as the control device 90 and the process for stopping the progress of the game is executed. As a result, the progress of the game is stopped, and the pachinko machine 10 is in a state where the player cannot continue the game. The sound emission control device 90 that has received the game stop command is for notifying that the game has been stopped due to an abnormality in the setting information and that the pachinko machine 10 is to be restarted in the setting change mode. Execute the process.

  On the other hand, if it is determined that the setting information matches the setting information at the time of the previous hit determination process, after performing the winning lottery (win determination process), the setting information is read from the setting information storage area and the read The setting information is written in the setting information storage area during the previous hit determination process. The setting information (previous hit determination process setting information) written in the previous hit determination process setting information storage area includes the determination (setting information and previous hit determination process setting information) executed prior to the next winning lottery. Used to determine whether or not they match.

  As described above, according to this aspect, it is determined whether or not the setting information matches the previous hit determination process setting information in the variation start setting information determination. Even when a normal numerical value in the range of is replaced with another normal numerical value, the rewriting of the setting information can be detected. Specifically, according to this aspect, from the time of execution of the previous winning lottery (winning determination process) (that is, at the start of the previous symbol variation) to immediately before the execution of the current winning lottery (winning determination process) (that is, When the setting information is rewritten from a normal value within a predetermined range to another normal value during the period until immediately before the change of the current symbol), the setting information and the previous hit judgment process in the change start setting information judgment Since the time setting information does not match, it is possible to detect rewriting of the setting information. That is, according to this aspect, it is possible to detect rewriting of the setting information in all periods during which a game is performed.

  In addition, according to this aspect, when rewriting of the setting information is detected in the setting information determination at the start of change, the winning lottery is avoided, so that the setting information is another normal value not intended by the administrator. It is possible to suppress the fact that the winning lottery is executed in the state that has been rewritten.

  Also, according to this aspect, when the rewriting of the setting information is detected in the setting information determination at the time of starting the change, the progress of the game is stopped, so that the setting information is set to another normal value not intended by the administrator. It is possible to prevent the game from continuing in the rewritten state.

  Further, according to this aspect, since it is determined whether or not the setting information matches the previous hit determination processing setting information in the setting information determination at the time of entry, the setting information is within a predetermined range due to the influence of noise or the like. Even when the normal numerical value is rewritten to another normal numerical value, the rewriting of the setting information can be detected.

  Further, according to this aspect, when the rewriting of the setting information is detected in the setting information determination at the time of entering, the execution of the first determination process is avoided. It is possible to prevent the destination determination process from being executed in a state where the numerical value is rewritten.

  Further, according to this aspect, when the rewrite of the setting information is detected in the change start setting information determination, the progress of the game is stopped, while the rewrite of the setting information is detected in the setting information determination at the time of entering Do not stop the progress of the game. The reason and effect of adopting such a configuration are the same as the reason and effect described in the above-described aspect 103, and thus the description thereof is omitted.

  Next, an example of processing executed by the main MPU 62 of this aspect will be described. In the following, processing different from the processing described in aspect 103 will be described, and description of the same processing as in aspect 103 will be omitted. As will be described below, in this aspect, the contents of the starting ball entry process and the fluctuation start process are different from those of the above-described aspect 103.

[Initialization for starter]
The starting entrance ball entering process executed by the main MPU 62 of the aspect 106 will be described.

  FIG. 101 is a flowchart showing the entrance entrance ball entry process executed by the main MPU 62 of the aspect 106. Since the processing from step S20201 to step S20211 is the same as the starting ball entry processing in the aspect 103 shown in FIG. 82, the description thereof is 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 set to the first storage area in the corresponding free storage area of the reserved area, that is, 1 in step S20210. Store in the storage area corresponding to the added hold number. Specifically, when the first start reserved number RaN is set as a processing target, 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 set to the first information. The first storage area in the free storage area of the reservation area Ra, that is, the storage area corresponding to the first start reservation number RaN obtained by adding 1 in step S20210. When the second start hold number RbN is set as a processing target, 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 used as the second hold area Rb. Is stored in the first storage area, that is, in the storage area corresponding to the second start reserved number RbN obtained by adding 1 in step S20210. After executing Step S20212c, the process proceeds 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 RAM 64 matches the previous hit determination process setting information stored in the previous hit determination process setting information storage area. judge. If it is determined in step S20213c that the setting information matches the previous hit determination process setting information (step S20213c: YES), the process proceeds to step S20214, and the previous determination process is executed. Thereafter, the process proceeds to step S20215, a hold command is set, and the entrance processing for the start port is ended.

  On the other hand, if it is determined in step S20213c that the setting information does not match the previous hit determination processing time setting information (step S20213c: NO), the process proceeds to step S20216, and an abnormal hold command is set. Thereafter, the ball entry process for the start port is terminated.

[Variation start processing]
Next, the fluctuation start process executed by the main MPU 62 of the aspect 106 will be described.

  FIG. 102 is a flowchart showing the change start process executed by the main MPU 62 of the aspect 106. In step S20701c, the setting information stored in the setting information storage area of the main RAM 64 matches the previous hit determination processing setting information stored in the previous hit determination processing setting information storage area of the main RAM 64. It is determined whether or not. If it is determined that the setting information matches the setting information at the time of the previous hit determination process (step S20701c: YES), the process proceeds to step S20702, and the hit determination process is executed. Thereafter, the process proceeds to step S20702-2c, the setting information is read from the setting information storage area of the main RAM 64, and the read setting information is written to the previous hit determination process setting information storage area. Thereafter, the process proceeds to step S20703. The processing from step S20703 to step S20708 is the same as the change start processing in the aspect 103 shown in FIG.

  On the other hand, in step S20701c, the setting information stored in the setting information storage area of the main RAM 64 and the previous hit determination processing setting information stored in the previous hit determination processing setting information storage area of the main RAM 64 are obtained. If it is determined that they do not match (step S20701c: NO), the process proceeds to step S20709, and a game stop command is transmitted to the payout control device 70 and the sound emission control device 90, which are control devices on the sub side. After executing step S20709, the process proceeds 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 (the process group of steps S20104 to S20116 in FIG. 81) for advancing the game is avoided, and the game progresses. Stopped. After executing step S20710, the variation start process is terminated.

<Aspect 107>
In the above aspects 103 to 106, the change start time setting information determination (step S20701 in FIG. 87, step S20701a in FIG. 98, step S20701b in FIG. 100, step S20701c in FIG. 102) is performed by winning lottery (win determination processing, FIG. 87, FIG. 98, FIG. 100, and FIG. 102, the configuration that is executed immediately before step S20702)) is adopted. However, the execution timing of the variation start time setting information determination may not be immediately before the winning lottery (win determining process). Good. For example, after executing the variation start setting information determination, another process may be performed, and then a winning lottery (a winning determination process) may be performed. That is, a plurality of other processes may be interposed between the change start setting information determination and the winning lottery (win determining process). Further, the variation start setting information determination may be performed after the winning lottery (winning determination process) is performed, and a plurality of timings may be set between the winning lottery (winning determination process) and the variation start time setting information determination. Other processing may be interposed. Even with such a configuration, similarly to the above-described aspects 103 to 106, it is possible to prevent the game from continuing while the setting information is in an abnormal state not intended by the administrator.

<Aspect 108>
In the above aspect 103 to aspect 106, the setting information determination at the time of entry (step S20213 in FIG. 82, FIG. 97, FIG. 99, step S20213c in FIG. 101) is performed in advance determination processing (FIG. 82, FIG. 97, FIG. 99, FIG. The configuration executed immediately before step S20214)) of 101 is adopted, but the execution timing of the setting information determination at the time of entering may not be immediately before the previous determination process. For example, after executing the setting information determination at the time of entering the ball, another process may be executed, and then the destination determination process may be executed. That is, a plurality of other processes may be interposed between the setting information determination at the time of entering and the previous determination process. Moreover, the execution timing of the setting information determination at the time of entry may be after the execution of the previous determination process, and a plurality of other processes are interposed between the previous determination process and the determination of the setting information at the time of entry. May be. Even in such a configuration, similarly to the above aspect 103 to the above aspect 106, whether or not the setting information is in an abnormal state not intended by the administrator is determined to the first start port 33 or the second start port 34 of the game ball. Can be detected as an opportunity.

<Aspect 109>
In the aspect 103 to the aspect 106, the setting information is in an abnormal state in the variation start time setting information determination (step S20701 in FIG. 87, step S20701a in FIG. 98, step S20701b in FIG. 100, step S20701c in FIG. 102). When it is determined that it is not within the predetermined range (does not match), a configuration is employed in which processing for stopping the progress of the game (processing for turning on the game stop flag) is adopted, but the setting information is in an abnormal state If it is determined that the process is not, the process for stopping the progress of the predetermined game is not executed, or the process for stopping the progress of the predetermined game is executed, and then another process may be executed.

  Moreover, in the said aspect 103 to the said aspect 106, in setting information determination at the time of entrance (step S20213 of FIG. 82, FIG. 97, FIG. 99, step S20213c of FIG. 101), setting information is in an abnormal state (predetermined range). If it is determined that the setting information is in an abnormal state, the process for setting the abnormal hold command is executed. It is good also as a structure which performs another process after performing the process which sets an abnormal pending | holding command without performing it.

  For example, when it is determined that the setting information is in an abnormal state in the variation start setting information determination or the entering setting information determination, the processing for stopping the progress of the predetermined game is not executed or the predetermined game It is good also as a structure which alert | reports having detected the abnormality of setting information, after performing the process which stops progress of this. Specifically, the speaker 46 of the pachinko machine 10 outputs a sound or warning sound such as “Setting information is abnormal. Please restart in the setting change mode”, and various lamps 47 blink at the maximum brightness. A character string such as “setting information is abnormal. Please restart in the setting change mode” may be displayed on the display surface 41 a of the symbol display device 41. According to such a configuration, the player or the administrator can easily grasp that the abnormality of the setting information is detected in the pachinko machine 10, and the administrator can play the game in the pachinko machine 10. After explaining the situation to the player who is performing, the pachinko machine 10 can be restarted in the setting change mode.

  Also, for example, when it is determined that the setting information is in an abnormal state in the setting information determination at the start of change or the setting information determination at the time of entering the ball, the processing for stopping the progress of the predetermined game is not executed or is performed The information indicating that the abnormality of the setting information is detected may be transmitted to the hall computer installed in the game hall after executing the process of stopping the progress of the game. The information on the pachinko machine 10 in which the abnormality of the setting information is detected (for example, the machine number of the pachinko machine 10) may be displayed on the monitor screen of the hall computer that has received the information. According to such a configuration, an administrator who manages the hall computer can easily grasp which pachinko machine among the many pachinko machines installed in the game hall has an abnormality in the setting information detected. It becomes possible.

  Also, for example, when it is determined that the setting information is in an abnormal state in the setting information determination at the start of change or the setting information determination at the time of entering the ball, the processing for stopping the progress of the predetermined game is not executed or is performed After executing the process of stopping the progress of the game, the information indicating that the abnormality of the setting information is detected and the information indicating the date and time when the abnormality is detected may be stored in the memory. Specifically, the information indicating that the abnormality of the setting information is detected and the information indicating the date and time when the abnormality is detected are not erased even if the above-described RAM clear process is executed in the storage area of the main RAM 64. If the memory area is stored in a non-volatile memory such as a flash ROM and the stored information can be displayed on the display surface 41a of the symbol display device 41 when a predetermined operation is received, the information is Since it is not easily erased and can be confirmed after the game hall is closed, for example, it becomes a clue to search for the situation and cause of the abnormal setting information.

<Aspect 110>
  Of the above aspects, in the configuration capable of executing the setting change mode, the setting information stored in the setting information storage area of the main RAM 64 is referred to every time the hit determination process (win lottery) or the first determination process is executed. The hit determination process or the previous determination process is executed based on the success / failure table corresponding to the referenced setting information. Instead of this configuration, after the supply of power to the pachinko machine 10 is started ( When the setting change mode is executed, after the setting change mode is completed), before the game can proceed, the setting information stored in the setting information storage area of the main RAM 64 is referred to. By setting the success / failure table corresponding to the referenced setting information so as to be used in the subsequent hit determination process or the previous determination process, the setting information storage of the main RAM 64 is set. May be configured not referenced each time to execute the hit determination process or previous determination processing setting information stored in the area. Hereinafter, an example of processing executed by the main MPU 62 of this aspect will be specifically described.

  The main side MPU 62 of this aspect 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 illustrating a main process executed by the main MPU 62 (main CPU 62x) of the aspect 110 of the first embodiment when the power is turned on .

In step S301001 , an initial setting process associated with power-on is executed. Specifically, a predetermined value is set in advance in the stack pointer of the main CPU 62x, and the sub-side control devices (the sound emission control device 90, the display control device 100, the payout control device 70, etc.) are operable. In order to wait for the state to be reached, a wait process is executed for about 1 second, for example. Then, access to the main RAM 64 is permitted. Thereafter, the process proceeds to step S30102 , and internal function register setting processing is executed. Then, it progresses to step S30103 .

In step S30103 , it is determined whether the power recovery flag is ON.

  Here, the power recovery flag will be described. In this aspect, when the power switch of the pachinko machine 10 is turned off or when a power failure occurs, various information (information indicating the game state, control information, etc.) stored in the register of the main CPU 62x is mainly used. Retreat to a predetermined area of the side RAM 64. Then, when the saving of these pieces of information to the main 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 RAM 64. A RAM determination value (for example, a checksum value) is calculated, and the calculated RAM determination value is stored in the main RAM 64. Note that after the supply of power from the commercial power supply is cut off, the power supply is switched from the backup power supply such as a capacitor. Thus, the power recovery flag is a flag for identifying at the time of power-on whether or not information for returning to the state when the power was turned off last time is stored in the main RAM 64.

Step in S301 03, if the power recovery flag is determined to be ON (step S301 03: YES), the process proceeds to step S301 04, based on predetermined information group stored in the main side RAM64 predetermined operation Is executed to calculate the RAM determination value. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. Thereafter, the process proceeds to step S301 05, whether the calculated RAM determination value (checksum value) is normal, i.e., the calculated RAM determination value (check sum value) and RAM judgment value stored in the main side RAM64 It is determined whether or not (checksum value) matches. If it is determined in step S30105 that the RAM determination value is normal (step S30105 : YES), the process proceeds to step S30106 .

In step S301 06, it reads the setting information of the lottery setting stored in the main side RAM 64, determines setting information whether a numerical value within a predetermined range. In this aspect, since the setting information set in the pachinko machine 10 has six levels from “1” to “6”, when the setting information is a numerical value within the range from “1” to “6” When the setting information is determined to be a numerical value within a predetermined range, on the other hand, when “0” or “7” is stored as the setting information, or when information other than the numerical value is stored due to noise or the like 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 proceeds to step S30107 .

On the other hand, when it is determined in step S30103 described above that the power recovery flag is not ON (step S30103 : NO), when it is determined in step S30105 that the RAM determination value is not normal (step S30105 : NO). ), And if it is determined in step S30106 that the setting information is not a numerical value within the predetermined range (step S30106 : NO), the process proceeds to step S30115 , and the RAM abnormality flag is turned ON. That is, the RAM abnormality flag is a flag that is turned on when the power recovery flag is OFF, when the RAM determination 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 RAM 64 is not normal.

  Hereinafter, the flow of processing executed when the RAM abnormality flag is not turned on will be described, and then the processing flow executed when the RAM abnormality flag is turned on will be described.

In step S30107 , it is determined whether or not the setting change flag is ON. The setting change flag is a flag that is turned on when a setting change process (setting change mode) described later is started and turned off when the setting change process (setting change mode) is ended. Here, the situation in which the setting change flag is ON in step S30107 means that a setting change process (setting change mode), which will be described later, is executed when the pachinko machine 10 is turned on last time. This is a situation in which the setting change flag is kept ON because the power switch of the pachinko machine 10 is turned off or a power failure occurs during execution of (setting change mode).

If it is determined in step S30107 that the setting change flag is ON (step S30107 : YES), the flow advances to step S30118 to execute setting change processing (setting change mode). In the setting change process (setting change mode), a process of displaying the lottery setting setting information on the information display unit 45z is executed and a process of accepting a change of the lottery setting information is executed. That is, the setting change mode is a mode in which an administrator or the like can change the lottery setting setting information of the pachinko machine 10. Details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. 71, and thus detailed description thereof is 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 proceeds to step S30108 .

In step S30108 , it is determined whether or not the RAM clear button is ON. If it is determined in step S30108 that the RAM clear button is not ON (step S30108 : NO), the process proceeds to step S30109 to check whether all of the setting key, the frame opening switch, and the door opening switch are ON. Determine whether or not. Note that “the setting key is ON” means that the setting key is inserted into the setting key hole and located on the ON side. The frame opening switch is a switch that is turned on when the inner frame 13 is open with respect to the outer frame 11, and the door opening switch is a state in which the front door frame 14 is open with respect to the inner frame 13. It is a switch that is sometimes turned on.

In step S301 09, key for setting, in a case where at least one frame opening switches and door open switch is determined not to be the ON (Step S301 09: NO), the process proceeds to step S301 10.

In step S30110 , it is determined whether the setting confirmation flag is ON. The setting confirmation flag is a flag that is turned on when a setting confirmation process (setting confirmation mode) described later is started and turned off when the setting confirmation process (setting confirmation mode) ends. Here, the situation in which the setting confirmation flag is ON in step S30110 means that a setting confirmation process (setting confirmation mode), which will be described later, is executed when the pachinko machine 10 is turned on last time. This is a situation in which the setting confirmation flag is kept ON because the power switch of the pachinko machine 10 is turned off or a power failure occurs during execution of the (setting confirmation mode).

If it is determined in step S30110 that the setting confirmation flag is not ON (step S30110 : NO), the process proceeds to step S30111 and a normal activation command is transmitted to the sound emission control device 90. The normal activation command is not determined to be a RAM abnormality, and the pachinko machine 10 (main control device 60) is in a normal state in which none of the setting change process, the setting confirmation process, and the first RAM clear process described later is executed. Is a command indicating that has started. As will be described later, when receiving the normal activation command, the sound emission control device 90 performs a process of notifying that the pachinko machine 10 has been activated in a normal state. Specifically, in this embodiment, a sound such as “normally starts” is output from the speaker 46. After executing step S301 11, the process proceeds to step S301 13 to be described later.

On the other hand, if it is determined in step S30109 described above that all of the setting key, the frame opening switch, and the door opening switch are ON (step S30109 : YES), and the setting confirmation flag is ON in step S30110. when it is determined that it is (step S301 10: YES), the process proceeds to step S301 12. That is, when the pachinko machine 10 is turned on, the RAM clear button is OFF, and all of the setting key, the frame opening switch, and the door opening switch are ON, and the previous power of the pachinko machine 10 is turned on. Setting confirmation processing (setting confirmation mode) is executed at the time of turning on, and the setting confirmation is being performed when the power switch of the pachinko machine 10 is turned off or a power failure occurs during execution of the setting confirmation processing (setting confirmation mode). If the flag remains ON, the process proceeds to step S30112 .

In step S30112 , a setting confirmation process is executed. In the setting confirmation process (setting confirmation mode), a process of displaying the current lottery setting setting information on the information display unit 45z is executed. That is, the setting confirmation mode is a mode in which an administrator or the like can confirm the current lottery setting setting information of the pachinko machine 10. Details of the setting confirmation processing (setting confirmation mode) are the same as the setting confirmation processing shown in FIG. 72, and thus detailed description thereof is omitted. After executing step S301 12, the process proceeds to step S301 13.

In step S30113 , a power recovery process for returning to the previous power-off state is executed. Specifically, in the power recovery process, the value of the stack pointer stored in the main RAM 64 is written into the stack pointer of the main CPU 62x, and the data saved in the main RAM 64 is restored to the register of the main CPU 62x. Then, the state of the register of the main CPU 62x is restored to the state before the power is shut off. After executing step S301 13, the process proceeds to step S301 14, turns OFF the power recovery flag in the main side RAM 64. Thereafter, the process proceeds to step S30123 described later.

On the other hand, if it is determined in step S30108 that the RAM clear button is ON (step S30108 : YES), the process proceeds to step S30117 , and all of the setting key, frame opening switch, and door opening switch are displayed. It is determined whether or not is ON. In step S301 17, key for setting, if all of the frame open switch and a door opening switch is determined to be ON (Step S301 17: YES), the process proceeds to step S301 18 described above, the above-mentioned setting change process Execute (setting change mode). Then, it progresses to step S30123 mentioned later. On the other hand, in step S301 17, key for setting, in a case where at least one frame opening switches and door open switch is determined not to be the ON: proceeds (step S301 17 NO), to step S301 19.

In step S30119 , it is determined whether or not the above-described RAM abnormality flag is ON. In step S301 19, if the RAM abnormality flag is determined not to be ON: proceeds to (step S301 19 NO), step S301 20, executes the second 1RAM clearing process. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main RAM 64 except for the lottery setting information. That is, when the first RAM clear process is executed, various flag information indicating various gaming states, various control information, and the like are erased, but the lottery setting information is not erased, and the setting information is maintained as it is. After executing step S301 20, the process proceeds to step S301 21, and transmits the RAM clear command is a command indicating execution of the first 1RAM clear process to the sound emission control unit 90. As will be described later, when receiving the RAM clear command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the first RAM clear process has been executed. Specifically, in this embodiment, a sound such as “the RAM of the main control device has been cleared” is output from the speaker 46. After executing step S301 21, the process proceeds to step S301 23 to be described later.

On the other hand, in step S301 19, if the RAM abnormality flag is determined to be ON (step S301 19: YES), the process proceeds to step S301 22, RAM abnormality command is a command to indicate that the primary side RAM64 is abnormal Is transmitted to the sound emission control device 90. As will be described later, when the sound emission control device 90 receives the RAM abnormality command, the sound emission control device 90 outputs sound indicating that the main RAM 64 is abnormal from the speaker 46. Specifically, in this embodiment, a sound such as “RAM of main controller is abnormal. Please start in setting change mode” is repeatedly output from speaker 46. After executing step S301 22, the process proceeds to step S301 23. However, in the flow of this description, since the RAM abnormality flag is not ON, the process does not proceed to step S30122 described above.

In step S30123 , a success / failure table setting process is executed. In this aspect, the main ROM 63 is provided with a success / failure table storage area, and the success / failure table storage area includes one type of success / failure table for the high probability mode and “lottery setting 1” to “lottery setting 6”. 6 types of determination tables for the low probability mode corresponding to each of the six stages of lottery settings. Then, in the success / failure table setting process, the setting information stored in the setting information storage area of the main RAM 64 is referred to, and the low probability mode use / failure table corresponding to the setting information is read from the determination table storage area of the main ROM 63. The read / write failure table for the low probability mode is written in the failure table storage area of the main RAM 64. Specifically, for example, when the value of the setting information stored in the setting information storage area of the main side RAM 64 is “1”, the acceptance table for the low probability mode corresponding to the lottery setting 1 is displayed on the main side. A read / write table for the low-probability mode corresponding to the lottery setting 1 read out from the read / write table storage area of the ROM 63 is written in the check table storage area of the main RAM 64. After executing Step S30123, the process proceeds to Step S30124.

In step S30124, a lighting / flashing process is performed, which is a process for lighting and flashing all the light emitting units (segment light emitting units A to G and DP light emitting units) constituting the information display unit 45z. In the lighting / blinking process, all the light emitting units constituting the information display unit 45z are turned on for a predetermined time (for example, 3 seconds), and then flashed in synchronization for a predetermined time (for example, 2 seconds). After executing step S301 2 4, the process proceeds to step S301 2 5.

In step S301 25 , an interrupt permission setting for permitting generation of timer interrupt processing is executed. After that, while repeating the infinite loop and waiting, a timer interrupt process described later is periodically executed (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). If it is determined in step S30106 that the setting information is not a numerical value within the predetermined range (step S30106 : NO), the process proceeds to step S30115 , and the RAM abnormality flag is turned ON. Thereafter, the process proceeds to step S30116 .

In step S30116 , it is determined whether the RAM clear button is ON. If it is determined in step S30116 that the RAM clear button is ON (step S30116 : YES), the process proceeds to step S30117 , and all of the setting key, frame opening switch, and door opening switch are ON. It is determined whether or not. In step S301 17, key for setting, if all of the frame open switch and a door opening switch is determined to be ON (Step S301 17: YES), the process proceeds to step S301 18 described above, the above-mentioned setting change process Execute (setting change mode). Thereafter, the process proceeds to step S301 . On the other hand, when it is determined in step S30116 that the RAM clear button is not ON (step S30116 : NO), and in step S30117 , at least one of the setting key, the frame opening switch, and the door opening switch is not ON. (Step S301 17: NO), the process proceeds to step S30119 .

In step S30119 , it is determined whether or not the above-described RAM abnormality flag is ON. In step S301 19, if the RAM abnormality flag is determined not to be ON (step S301 19: NO), the process proceeds to step S301 20, executes the second 1RAM clearing process described above. After executing step S301 20, the process proceeds to step S301 21, and transmits the RAM clear command is a command indicating execution of the first 1RAM clear process to the sound emission control unit 90. After executing Step S301 21, the process proceeds to Step S301 22. However, in the flow of this description, since the RAM abnormality flag is ON, the process does not proceed to step S30120 described above.

On the other hand, in step S301 19, if the RAM abnormality flag is determined to be ON (step S301 19: YES), the process proceeds to step S301 22, RAM abnormality command is a command to indicate that the primary side RAM64 is abnormal Is transmitted to the sound emission control device 90. As will be described later, when the sound emission control device 90 receives the RAM abnormality command, the sound emission control device 90 outputs sound indicating that the RAM is abnormal from the speaker 46. Specifically, in this embodiment, a sound such as “RAM of main controller is abnormal. Please start in setting change mode” is repeatedly output from speaker 46. After executing step S301 22, the process proceeds to step S301 23.

In step S301 23, perform the propriety table setting process described above, then proceeds to step S30124, it executes the light flashing process described above. After executing step S301 2 4, the process proceeds to step S301 2 5, executes the interrupt enable settings that permit the generation of the timer interrupt processing. Thereafter, the infinite loop process is repeated to wait, and a timer interrupt process described later is periodically executed (every 4 ms in this embodiment).

  As described above, in this aspect, the operation for executing the setting change process (setting change mode) is performed when the RAM clear switch is pressed (ON state) and the setting key (keyhole) is used. In this state, the power switch is turned on while all the frame opening switch and door opening switch are turned on. In addition, the operation for executing the setting confirmation processing (setting confirmation mode) is performed when the RAM clear switch is not pressed (set to the OFF state), and the setting key (key hole), the frame opening switch, and the door opening. This is an operation to turn on the power switch with all the switches turned on. In addition, the operation for executing the first RAM clear process is performed by pressing the RAM clear switch (ON state) and turning off any of the setting key (key hole), the frame opening switch, and the door opening switch. In this state, the power switch is turned on.

  Hereinafter, an example of a flow of processing realized by executing the above-described main processing will be described together.

When the power supply is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S30103 , step S30105 , step S30106 ), but the setting change process (setting Change mode) is performed, regardless of whether the condition for turning on the RAM abnormality flag is satisfied, and regardless of the state of the setting confirmation flag. A setting change process (setting change mode) is executed (step S30118 ).

When the supply of power is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S30103 , step S30105 , step S30106 ), and the RAM abnormality flag is turned on. When it is determined that the condition to be satisfied is not satisfied, and it is determined that the setting change flag is ON (step S30107 : YES), an operation for executing the setting change process (setting change mode) The setting change process (setting change mode) is executed regardless of whether an operation for executing the setting check process (setting check mode) and an operation for executing the first RAM clear process are performed. (Step S301 18).

When the supply of power is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S30103 , step S30105 , step S30106 ), and the RAM abnormality flag is turned on. when should do condition is determined not to be satisfied, it is determined that the setting change flag is not oN (step S301 07: nO), if the operation for executing the first 1RAM clear processing has been performed (Step S301 08: YES, step S301 17: NO, step S301 19: NO), regardless of the state of the setting confirmation flag, the first RAM clear process is executed (step S301 20), and the RAM clear command is transmitted. (Step S301 21).

When the supply of power is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S30103 , step S30105 , step S30106 ), and the RAM abnormality flag is turned on. When it is determined that the condition to be satisfied is not satisfied, 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. If yes (step S301 08: NO, step S301 09: YES), a setting confirmation process (setting confirmation mode) is executed (step S301 12).

When the supply of power is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S30103 , step S30105 , step S30106 ), and the RAM abnormality flag is turned on. When it is determined that the condition to be satisfied is not satisfied, 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. Even if not, if the setting confirmation flag is ON (step S30110 : YES), a setting confirmation process (setting confirmation mode) is executed (step S30112 ).

When the supply of power is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S30103 , step S30105 , step S30106 ), and the RAM abnormality flag is turned on. it is determined that should do condition is satisfied when the oN the RAM abnormality flag (step S301 15), even if the operation for executing the first 1RAM clear processing has been performed, the without executing the 1RAM clearing process, and transmits the RAM abnormality command (step S301 22).

When the supply of power is started, it is determined whether or not a condition for turning on the RAM abnormality flag is satisfied (step S30103 , step S30105 , step S30106 ), and the RAM abnormality flag is turned on. When it is determined that the condition to be satisfied is satisfied and the RAM abnormality flag is turned ON (step S301115 ), the operation for executing the setting confirmation process (setting confirmation mode) is performed. However , the RAM check command is transmitted without executing the setting check process (setting check mode) (step S30122 ).

[Timer interrupt processing]
Next , timer interrupt processing will be described. The timer interrupt process is started periodically (for example, at a cycle of 4 msec) by the MPU 62 of the main controller 60.

FIG. 104 is a flowchart illustrating timer interrupt processing executed by the main MPU 62 according to the aspect 110 of the first embodiment . In step S30201 , various random number update processes are executed. In various random number update processing, the current numerical information is read from each counter (big hit random number counter C1, big hit type counter C2, reach random number counter C3, electric accessory release counter C4, etc.) in the main RAM 64, and the read numerical information is After executing the process of adding 1, the process of overwriting the numerical information after the addition to the reading source counter is executed. If the read numerical information is the maximum value of the counter, a process of overwriting 0 on the read source counter is executed. After performing the step S302 01, the process proceeds to step S302 02.

In step S30202 , a power failure monitoring process is executed. In the power failure 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 falls below a predetermined value (for example, 10 volts), the power supply of the pachinko machine 10 It is determined that the switch has been turned off or a power failure has occurred, and various information (information indicating the game state, control information, etc.) stored in the register of the main CPU 62x is saved in a predetermined area of the main RAM 64. . When the saving of these pieces of information to the main 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 RAM 64. A RAM determination value (for example, a checksum value) is calculated, and the calculated RAM determination value is stored in the main RAM 64. After that, without proceeding to step S30203 , which will be described later, the infinite loop process is repeated until the supplied drive voltage decreases and becomes inoperable. Note that the power supply device 85 of this aspect is used as a drive voltage in a control system such as the main control device 60 even when the drive voltage supplied to the main control device 60 is lowered to a value lower than a predetermined value. A stabilized voltage of volt is output. As a time for which the stabilization voltage is output, a sufficient time for executing the processing until the above-described RAM determination value is stored in the main RAM 64 is secured.

On the other hand, in a power failure monitoring processing in step S302 02, when the driving voltage supplied to the main control unit 60 from the power supply 85 is determined not less than the predetermined value, the process proceeds to step S302 03.

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 process executed when the power is turned on. As described later, the game stop flag is a flag that is turned on to stop the progress of the game when shaking or magnetism is detected in the fraud detection process . In step S302 03, in the case where both the RAM abnormality flag and the game stop flag is determined not to be ON (step S302 03: NO), the process proceeds to step S302 04. On the other hand, in step S302 03, in the case where at least one of the RAM error flag or game stop flag is determined to be ON (step S302 03: YES), step S302 04 without executing the subsequent processes, the timer interrupt End the process. That is, when at least one of the RAM abnormality flag and the game stop flag is ON, the process for enabling the progress of the game after step S30204 is not executed, and the game progress mode in which the game can progress It is the structure which does not shift to. Hereinafter, processing after step S30204, which is processing for enabling progress of the game, will be described.

In step S30204 , port output processing is executed. In the port output process, when output information is set in the previous timer interrupt process, a process for performing output corresponding to the output information to the various drive units 36c and 34b is executed. For example, when the information for switching the special winning opening 36a to the open state is set, the output of the drive signal to the variable winning drive unit 36c is started, and when the information for switching to the closed state is set. The output of the drive signal is stopped. In addition, when the information for switching the electric accessory 34a of the second start port 34 to the open state is set, the output of the drive signal to the electric accessory driving unit 34b is started, and the information to be switched to the closed state is set. If set, output of the drive signal is stopped. Thereafter, the process proceeds to step S30205 .

In step S30205 , a reading process is executed. In the reading process, a signal other than the incoming ball signal is read and the read information is stored for use in future processing. Thereafter, the process proceeds to step S30206 .

In step S302 06, it reads in a signal that is received from the ball entrance detection sensor 44A to 44H, executes the ball entrance detection processing for performing processing corresponding to the read information. Since the incoming ball detection process is the same as the incoming ball detection process shown in FIG. 28, a detailed description thereof will be omitted. After executing Step S302 06, the process proceeds to Step S302 07.

In step S302 07, executes the timer update process for updating collectively numerical information of a predetermined timer counter provided in the main side RAM 64. Thereafter, the process proceeds to step S30208 .

In step S302 08, executes the ball entrance process for starting opening accompanying the game ball entering the sphere to the first start hole 33 and the second start hole 34. In the starting ball entry processing, the big hit random number counter C1, the big hit type counter C2, and the reach random number counter C3 are determined based on the determination that the game ball has entered the first starting port 33 or the second starting port 34. The value is acquired and the acquired counter value is stored in the hold information storage area 64b of the RAM 64. After executing Step S302 08, the process proceeds to Step S302 09.

In step S302 09, a through gate entry process for entering (passing) a game ball into the through gate 35 is executed. In the entry process for the through gate, the value of the electric accessory release counter C4 is acquired based on the determination that the game ball has entered (passed) the through gate 35, and the acquired counter value is stored in the RAM 64. It memorize | stores in the telephone role reservation area 64d. After executing Step S302 09, the process proceeds to Step S30210 .

In step S30210 , game time control processing for controlling the game in each game time is executed. In the game times control process, winning lottery, display control of the first symbol display unit 37a and the second symbol display unit 37b, and the like are performed. After executing step S302 10, the process proceeds to step S302 11.

In step S30211 , a game state transition process for shifting the game state is executed. In the game state transition process, a process of shifting the game state to an opening / closing execution mode, a high probability mode, a high frequency support mode, or the like is executed. After executing step S302 11, the process proceeds to step S302 12.

In step S30212 , the electric combination support process for controlling the electric combination 34a is executed. In the electric utility support process, it is determined whether or not the electric accessory 34a is in an open state (electric accessory release lottery), and when it is determined to be in an open state, the electric accessory 34a is driven and controlled. After executing step S302 12, the process proceeds to step S302 13.

In step S30213 , a game ball launch control process is executed. In the game ball launch control process, a process for launching a game ball to the game area PA when the operation handle 25 is operated by the player is executed. After executing step S302 13, the process proceeds to step S302 14.

In step S30214 , a command output process for outputting (transmitting) the command set as the transmission target in the current timer interrupt process to each control device on the sub-side is executed. For example, when commands relating to effects such as a change command, a type command, and a hold command are set, these are transmitted to the sound emission control device 90. After executing step S302 14, the process proceeds to step S302 15.

  In step S30215, fraud detection processing is executed. In the fraud detection process, shaking and magnetism are monitored. When shaking and magnetism are detected, an alarm sound and sound such as “Detected shaking!” And “Detected magnetism!” Are output from the speaker 46. At the same time, the various lamps 47 are blinked at the maximum brightness. In addition, in the fraud detection process, when shaking or magnetism is detected, the above-described game stop flag is turned ON. As a result, after the game stop flag is turned ON, execution of the processing from step S30204 to step S30216 is avoided.

In step S302 16 , a game history process for calculating / displaying game history information is executed. Since the game history process is the same as the game history process shown in FIG. 29, a detailed description thereof will be omitted. After executing Step S302 16 , the timer interrupt process is terminated.

[Initialization for starter]
Next, the ball entering process for the start port will be described. The starting ball entry processing is executed by the MPU 62 of the main control device 60 as a timer interrupt processing subroutine (FIG. 104 : S302 08).

FIG. 105 is a flowchart showing a starting-port entrance process executed by the main MPU 62 according to the aspect 110 of the first embodiment. In step S30301 , whether or not a game ball has entered the first starting port 33 (starting entering) is determined based on the detection state of the detection sensor corresponding to the first starting port 33. In step S303 01, if the game ball is determined to have entered the special first start hole 33 (S303 01: YES), the process proceeds to step S303 02, for paid four game balls to the payout controller 70 Set the prize ball command. Thereafter, the process proceeds to step S30303 .

In step S303 03, for external signal setting process to the signal output that game ball has entered the special first start hole 33 to the player hole side of the management controller. Then, it progresses to step S30304 .

In step S303 04, starting number of holds number of holds a value stored in the storage area of the first pending area Ra RaN (hereinafter, also referred to as a first start-up number of holds RaN) reads, below the first start-up number of holds RaN Set as the target of processing. The first start reservation number RaN indicates the number of reservations based on a game ball entering the first start port 33. Thereafter, the process proceeds to step S303 09.

If it is determined in step S30301 that the game ball has not entered the first start port 33 ( S303 01: NO), the process proceeds to step S30305 , and the game ball has entered the second start port 34. Is determined by the detection state of the detection sensor corresponding to the second start port 34.

In step S303 05, if the game ball is determined to have entered the special second start hole 34 (S303 05: YES), the process proceeds to step S303 06, for the game balls to one paid out to the payout controller 70 Set the prize ball command. Thereafter, the process proceeds to step S30307 . On the other hand, if it is determined in step S30305 that the game ball has not entered the second start port 34 ( S303 05: NO), the start processing for the start port is terminated.

In step S303 07, to the signal output that game ball has entered the special second start hole 34 to the player hole side of the management control unit, it performs an external signal setting processing. Thereafter, the process proceeds to step S303 08.

In step S303 08, second start number of holds number of holds a value stored in the storage area of the holding area Rb RBn (hereinafter, also referred to as second start number of holds RBn) reads, below the second start number of holds RBn Set as the target of processing. The second start reserved number RbN indicates the reserved number based on the game ball entering the second start port 34. Thereafter, the process proceeds to step S303 09.

In step S303 09, determines whether the set start number of holds N (RaN or RBn) is an upper limit value in step S303 04 or step S303 08 described above (in the present embodiment 4) is less than. In step S303 09, if the number N of starting suspension is not less than the upper limit value ( S303 09: NO), that is, if the number N of starting suspension is greater than or equal to the upper limit value, the entry processing for the starting port is terminated. .

On the other hand, in step S303 09, when the number N of starting suspension is less than the upper limit value ( S303 09: YES), the process proceeds to step S303 10 and 1 is added to the number N of starting suspension in the corresponding holding area, In step S30311 , 1 is added to the value stored in the total reserved number storage area (hereinafter referred to as the total reserved number CRN). The total reserved number CRN indicates the total value of the first start reserved number RaN and the second start reserved number RbN. Then, it progresses to step S30312 .

In step S303 12, Step S 302 01 (FIG. 104) jackpot random number counter C1 updated in, the values of the jackpot type counters C2 and reach a random number counter C3, the first storage area of the free storage area of the corresponding holding area, That is, in step S30310 , the number is stored in the storage area corresponding to the number of reservations to which 1 is added. Specifically, when the first start-up number of holds RaN is set as a target of processing, the step S 302 01 (FIG. 104) jackpot random number counter C1 updated in, jackpot type counters C2 and reach a random number counter C3 each value of, for the first storage area, i.e. stored in a storage area corresponding to the first start-up number of holds RaN obtained by adding 1 at step S303 10 out of free storage area of the first pending area Ra. Further, when the second start number of holds RbN is set as a target of processing, the step S 302 03 (FIG. 104) jackpot random number counter C1 updated in each value of the jackpot type counters C2 and reach a random number counter C3 a first storage area, i.e. storage and second start number of holds RbN obtained by adding 1 at step S303 10 in the corresponding storage area of the free storage area of the second holding area Rb. After executing step S303 12, the process proceeds to step S303 13.

In step S303 1 3, executes the previously determined process. The pre-determination process is based on the information (holding 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 the determination of the presence or absence or the like is executed before the hold information is subject to a lottery by the main control device 60. Details of the destination determination process will be described later. After executing Step S303 1 3 , the process proceeds to Step S303 1 4 .

In step S303 1 4, executes a process of setting a hold command. Specifically, the determination result of the destination determination process executed based on the information (holding 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 hold command.

The hold command indicates that the game ball has entered the first start port 33 or the second start port 34 and the determination result based on the previous determination process based on the hold information acquired based on the input ball This is a command for causing the control device on the sub-side to confirm before the information is subject to the winning lottery by the main control device 60. The hold command is transmitted to the sound emission control device 90 in the command output process (FIG. 104 : step S30214 ) described above.

  In addition, when receiving the hold command transmitted based on the game ball entering the first start port 33, the sound emission control device 90 displays the display in the first hold display area Ds1 of the symbol display device 41. A command for changing in accordance with the increase in the number of reserved items is transmitted to the display control apparatus 100. The display control apparatus 100 that has received the command changes the display in the first hold display area Ds1 of the symbol display apparatus 41 in accordance with the increase in the number of holds. On the other hand, when the hold command transmitted based on the ball entering the second start port 34 is received, the sound emission control device 90 displays the display in the second hold display area Ds2 of the symbol display device 41 as the number of hold. A command for changing in accordance with the increase is transmitted to the display control apparatus 100. The display control apparatus 100 that has received the command changes the display in the second hold display area Ds2 of the symbol display apparatus 41 in accordance with the increase in the number of holds.

The main side MPU62, after executing step S303 14, and ends the ball entrance process for the start-up hole.

[First judgment processing]
Next, the destination determination process will be described. The pre-determination process is executed by the MPU 62 of the main control device 60 as a subroutine for a ball entry process for the start port (FIG. 104 : S303 14).

FIG. 106 is a flowchart illustrating a destination determination process executed by the main MPU 62 according to the aspect 110 of the first embodiment. As described above, the pre-determination processing is based on the hold information, and the determination results such as whether or not the winning lottery is determined, whether the jackpot type is determined, whether or not the reach is generated, and the hold information is determined by the main controller 60. This process is executed before the lottery target.

In step S304 01, reads the value of the ball entrance processing jackpot random number counter C1 stored in the storage area by the ball entrance of game ball into the starting opening in (Fig. 105) for starting opening. Thereafter, the process proceeds to step S30402 , and the lottery mode at the time when the winning lottery by the current entry is executed as a game time is determined. Specifically, whether or not there is a probable big hit that occurs before the winning lottery by the current entry by reading the judgment result of the previous judgment process executed by the entry before the current entry from the corresponding storage area To determine the lottery mode at the time when the winning lottery by the current entry is executed as the game time.

Step in S304 02, when the drawing mode at the time the lottery per due this input sphere is executed as a game round is determined to be low possibility mode is: proceeds to (S304 02 YES), step S304 03, a main The failure table for the low probability mode stored in the failure table storage area of the side RAM 64 is referred to. As described above, in this mode , in the acceptance / rejection table setting process (step S30123) of the main process (FIG. 103), the six lottery settings corresponding to each of the six lottery settings from “lottery setting 1” to “lottery setting 6” are performed. Of the types of low-probability mode success / failure tables , a low-probability mode success / failure table corresponding to the setting information indicating the lottery setting is stored in the success / failure table storage area of the main RAM 64. As a result, in the step S30403, the main side MPU62 will be referred to propriety table for the low possibility mode corresponding to the setting information indicating the lottery settings. Specifically, for example, when the value of the setting information stored in the setting information storage area of the main side RAM 64 is “1”, the success / failure table for the low probability mode corresponding to the lottery setting 1 is displayed on the main side. RAM64 is stored in the spruce table storage area of, reference will be made to the advisability table for the low possibility mode corresponding to the lottery setting 1. Thereafter, the process proceeds to step S30405 , and as a result of referring to the success / failure table for the low probability mode, it is determined whether or not the information of the value of the jackpot random number counter C1 read this time corresponds to the jackpot. Note that an example of the six types of low-probability mode success / failure tables has already been described in the aspect 57, and thus the description thereof is omitted here.

On the other hand, in step S304 02, if the drawing mode at the time the lottery per due this input sphere is executed as a game round is determined not to be low possibility mode (S304 02: NO), the process proceeds to step S304 04, high Refer to the probability table for the probability mode. Thereafter, the process proceeds to step S30405 , where it is determined whether or not the value of the jackpot random number counter C1 read this time corresponds to the jackpot as a result of referring to the success / failure table for the high probability mode. In this aspect, the configuration is such that one type of high-probability mode success / failure table is referenced regardless of the lottery setting. However, as with the low-probability mode success / failure table, the number of high-probability modes corresponding to the lottery setting is used. It is good also as a structure which prepares the success / failure table for this and refers to the success / failure table for high probability modes corresponding to lottery setting.

In step S304 05, if the value of the current read jackpot random number counter C1 is determined to correspond to the big hit (S304 05: YES), the process proceeds to step S304 06, stored by ball entrance to this start hole The value of the jackpot type counter C2 stored in the area is read. Thereafter, the process proceeds to step S30407 , and the distribution table stored in the distribution table storage area 63b is referred to. Specifically, when the jackpot type counter C2 that is the distribution target this time is acquired based on the game ball entering the first start port 33, the first start port distribution table. When the game ball is acquired based on the game ball entering the second start port 34, the second start port distribution table is referred to. After performing the step S304 07, the process proceeds to step S304 08.

In step S30408 , as a result of referring to the distribution table, it is determined whether or not the value of the jackpot type counter C2 read this time corresponds to the probability variation jackpot. In step S304 08, when it is determined that corresponds to the probability variation jackpot (S304 08: YES), the process proceeds to step S304 09, stores probability variation jackpot information above determination processing result storage area 64f. Thereafter, the destination determination process is terminated. On the other hand, in step S304 08, when it is determined that does not correspond to the probability variation jackpot (S304 08: NO), it advances to step S304 10, which typically stores jackpot information above determination processing result storage area 64f. Thereafter, the destination determination process is terminated.

In step S304 05, the value of this read jackpot random number counter C1 is, when it is determined not to correspond to the big hit (S304 05: NO), the process proceeds to step S304 11, the ball entrance to this start hole The value of the reach random number counter C3 stored in the storage area is read. Thereafter, the process proceeds to step S304 12, 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 or not the value of the reach random number counter C3 read this time corresponds to the occurrence of reach.

If it is determined in step S304 13 that the generation corresponds to the occurrence of reach ( S304 13: YES), the process proceeds to step S304 14, and the reach generation information is stored in the previous determination processing result storage area 64f. Thereafter, the destination determination process is terminated. On the other hand, if it is determined in step S304 13 that the generation of the reach is not supported ( S304 13: NO), the previous determination process is terminated.

[Game control process]
Next, the game times control process will be described. The game times control process is executed by the MPU 62 of the main controller 60 as a subroutine of the timer interrupt process (FIG. 104 : step S302 1 0 ).

FIG. 107 is a flowchart showing a game turn control process executed by the main MPU 62 according to the aspect 110 of the first embodiment. In step S30501 , it is determined whether the open / close execution mode is in effect. Specifically, it is determined whether or not the open / close execution mode flag of the various flag storage areas 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 symbol variation in the winning game is finished and the transition to the opening / closing execution mode is completed, and is turned OFF at the timing when the opening / closing execution mode ends.

If it is determined in step S30501 that the opening / closing execution mode flag is ON ( S30501 : YES), it is determined that the opening / closing execution mode is being performed, and any of the processes after step S30502 are not executed. The game times control process is terminated. That is, when the opening / closing execution mode is in progress, the game round is not started regardless of whether or not a game ball has entered the first start port 33 or the second start port 34. . On the other hand, if it is determined in step S30501 that it is not in the opening / closing execution mode ( S30501 : NO), the process proceeds to step S30502 .

In step S30502 , it is determined whether or not the main display unit 45 is in a variable display. Specifically, it is determined whether or not any one of the first symbol display part 37a or the second symbol display part 37b is in a variable display. This determination is performed by determining whether or not the variable display flag in the various flag storage areas 64e of the RAM 64 is ON. The variable display flag is turned on when the variable display is started for either the first symbol display unit 37a or the second symbol display unit 37b, and is turned off when the variable display is finished.

At step S305 02, if the main display unit 45 is determined not to be in variable display (S305 02: NO), the process proceeds to a game once for starting the processing in step S305 03～ step S305 05. In step S30503 , it is determined whether or not the total reserved number CRN is “0”. The case where the total reserved number CRN is “0” means that the start reserved number is “0” for both the first start port 33 and the second start port 34. Therefore, when it is determined in step S30503 that the total reserved number CRN is “0” ( S30503 : YES), this game number control process is terminated. On the other hand, if it is determined in step S30503 that the total reserved number CRN is not "0" ( S30503 : NO), the process proceeds to step S30504 .

In step S30504 , a hold information shift process for setting the data stored in the first hold area Ra or the second hold area Rb to the state after the start of fluctuation is executed, and the flow proceeds to step S30505 . Details of the hold information shift processing will be described later.

In step S30505 , a variation start process for starting variation display on the main display unit 45 and variation display on the symbol display device 41 is executed. Details of the variation start process will be described later. Thereafter, the process proceeds to step S305 06.

In step S305 06, 1 is subtracted from the value of the game number counter PNC. The game number counter PNC is a counter for counting the number of game times executed in the high frequency support mode. After executing Step S305 06, the game turn control process is terminated.

On the other hand, if it is determined in step S30502 that the main display unit 45 is in a variable display ( S30502 : YES), the process proceeds to step S30507 .

In step S305 07, it is determined whether or not the variation time of the current game time has elapsed. As described above, the variation time is the time from when the symbol sequence starts to vary until all the symbol sequences are stopped, and is a part of the unit game time. Specifically, in step S305 07, it is determined whether or not the value of the variation time information stored in the variation time counter area (various counter area 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 ) described later. The value of the set variation time information is decremented by 1 every time the timer interrupt process is started.

If it is determined in step S30507 that the variation time has not elapsed ( S30507 : NO), the process proceeds to step S30508 , and the variation display process is executed. The variable display process is a process of changing the display mode in the result display unit related to the current game round. After executing step S30508 , the game turn control process is terminated.

If it is determined in step S305 07 that the variation time has elapsed ( S305 07: YES), the process proceeds to step S305 09 to execute variation end processing. In the variation end process, the stop symbol determined in the hit determination process (FIG. 109 ) described later is stopped and displayed on the main display unit 45 as a result of the current game round. After executing Step S305 09, the process proceeds to Step S305 10.

In step S305 10, it determines whether any of the jackpot flag stored in the various flag storage area 64e of the RAM64 is is ON. The jackpot flag is a flag that is turned ON when a jackpot is won in a hit determination process (FIG. 109 ) described later. If it is determined in step S30510 that any one of the big hit flags is ON ( S30510 : YES), the process proceeds to step S30511 , and the opening / closing execution mode flag is turned ON. Then, this game times control process is complete | finished. On the other hand, if it is determined in step S30510 that none of the jackpot flags is ON ( S30510 : NO), the process proceeds to step S30512 .

In step S30512 , it is determined whether or not the total reserved number CRN is “0”. If it is determined in step S30512 that the total reserved number CRN is "0" ( S30512 : YES), the process proceeds to step S30513 , and a customer waiting command is set. The wait-for-customer command causes the sub-side control device 90 to recognize that no hold information is stored in the hold information storage area 64b when the symbol change (game times) ends. It is a command that contains the information. The customer waiting command set in step S305 13 is transmitted to the sound emission control device 90 in the command output process (FIG. 104 : step S30214 ) described above. On the other hand, when it is determined in step S305 12 that the total number of reserved pieces CRN is not “0” ( S305 12: NO), the game number control process is terminated.

[Variation start processing]
Next, the fluctuation start process will be described. The variation start processing is executed by the MPU 62 of the main control device 60 as a subroutine (FIG. 107 : S 305 05) of the game times control processing.

FIG. 108 is a flowchart illustrating the change start process executed by the main MPU 62 according to the aspect 110 of the first embodiment. In step S306 0 1 , a hit determination process is executed. The winning determination process is a process of determining whether or not a big hit is won based on the value of the big hit random number counter C1 shifted to the execution area AE in the hold information shift process. Details of the hit determination process will be described later. After executing Step S306 0 1 , the process proceeds to Step S306 0 2 .

In step S306 0 2, executes the process of setting time varying. In the variation time setting process, the variation time, which is the time required for the current game play in the first symbol display unit 37a or the second symbol display unit 37b, is set based on the presence or absence of a jackpot or the occurrence of reach. The details of the variation time setting process are the same as the variation time setting process shown in FIG. 89, and a detailed description thereof will be omitted. After executing Step S306 0 2 , the process proceeds to Step S306 0 3 .

In step S306 0 3 , it is determined whether or not the second symbol display section flag of the RAM 64 is ON. If it is determined in step S306 0 3 that the second symbol display unit flag of the RAM 64 is not ON ( S306 0 3 : NO), the process proceeds to step S306 0 4 to set the first variation command. The first change command includes information indicating that the current game time relates to the hold information acquired based on the winning at the first start port 33, and whether or not a reach has occurred. And information on the variation time set in step S306 0 2 are included. On the other hand, if it is determined in step S306 0 3 that the second symbol display unit flag is ON ( S306 0 3 : YES), the process proceeds to step S306 0 5 to set a second variation command. The second change command includes information indicating that the current game round is related to the hold information acquired based on the winning at the second start port 34, and whether or not a reach has occurred. And information on the variation time set in step S306 0 2 are included. After executing Step S306 0 4 or Step S306 0 5 , proceed to Step S306 0 6 .

In step S306 0 6, sets the type command. The type command includes information on the presence / absence of jackpot and the result of the distribution determination. In other words, the type command includes 16R probability variation jackpot information, 8R probability variation jackpot information, 16R normal jackpot information, 8R ordinary jackpot information, or outage result information as jackpot type information.

The change command and type command set in steps S306 0 4 to S306 0 6 are transmitted to the sound emission control device 90 in the command output process (FIG. 104 : step S30214 ) described above. Based on the received change command and type command, the sound emission control device 90 determines the contents of the effect at the game time and controls various devices so that the determined contents of the effect are executed. After executing Step S306 0 6 , the process proceeds to Step S306 0 7 .

In step S306 0 7, to symbol display section corresponding to the current game time of the first symbol display section 37a and the second symbol display section 37b, to start variable display of symbols. Specifically, when the second symbol display unit flag of the RAM 64 is not ON, the symbol display unit corresponding to the current game time is identified as the first symbol display unit 37a, and the variable display is started. When the 2nd symbol display part flag is ON, it specifies that the symbol display part corresponding to this game time is the 2nd symbol display part 37b, and starts a variable display. After executing step S306 0 7, and ends the present variation start process.

[Winning judgment process]
Next, the hit determination process will be described. The hit determination process is executed by the MPU 62 of the main controller 60 as a subroutine for the fluctuation start process (FIG. 108 : S 306 0 1 ).

FIG. 109 is a flowchart illustrating the hit determination process executed by the main MPU 62 according to the aspect 110 of the first embodiment. In step S30701 , it is determined whether or not the lottery mode is a high probability mode. Specifically, it is determined whether or not the high probability mode flag in the various flag storage areas of the RAM 64 is ON. The high probability mode flag is a flag for specifying in the MPU 62 whether or not the lottery mode is the high probability mode. In the present embodiment, the high probability mode flag is turned on when the open / close execution mode related to the winning of the probable big hit is completed. Then, when the jackpot is won and the opening / closing execution mode is started, it is turned OFF. If it is determined in step S30701 that the mode is the high probability mode ( S30701 : YES), the process proceeds to step S30702 .

In step S30702 , the success / failure determination is performed with reference to the success / failure table for the high probability mode. Specifically, it is determined whether or not the value of the jackpot random number counter C1 stored in the execution area AE matches the value set as the jackpot winning in the winning table for the high probability mode. Thereafter, the process proceeds to step S30704 . On the other hand, if it is determined in step S30701 that the mode is not the high probability mode ( S30701 : NO), the process proceeds to step S30703 .

In step S307 03, performs spruce determined by referring to the propriety table for the low possibility mode stored in the spruce table storage area of the main side RAM 64. As described above, in this mode, 6 corresponding to each of the 6 lottery settings from “lottery setting 1” to “lottery setting 6” in the success / failure table setting process (step S30123) of the main process (FIG. 103). Of the types of low-probability mode success / failure tables, a low-probability mode success / failure table corresponding to the setting information indicating the lottery setting is stored in the success / failure table storage area of the main RAM 64. As a result, in this 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, when the value of the setting information stored in the setting information storage area of the main side RAM 64 is “1”, the success / failure table for the low probability mode corresponding to the lottery setting 1 is displayed on the main side. is stored in the spruce table storage area of the RAM 64, will be performed by referring to spruce determines propriety table for the low possibility mode corresponding to the lottery setting 1. In the success / failure 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 the jackpot winning in the low probability mode success / failure table corresponding to the setting information. To do. Thereafter, the process proceeds to step S30704 .

In step S307 04, spruce determination of (per drawing) result in Step S307 02 or step S307 03 determines whether a jackpot prize. In step S307 04, in the case propriety determining result is jackpot winning (S307 04: YES), step S307 in 05～ step S307 12, the processing and stopping the results to set the game result when a jackpot winning Execute the process for setting.

In step S307 05, determines whether the second symbol display unit flag of RAM64 is is ON. If it is determined in step S30705 that the second symbol display unit flag is not ON ( S30705 : NO), the process proceeds to step S30706 , and the first start port allocation table (see FIG. 8A). ) To determine the distribution. Specifically, the value of the jackpot type counter C2 stored in the execution area AE is any of a numerical range per 16R probability variation jackpot, a numerical range per 8R probability variation jackpot, a numerical range per 16R normal jackpot, or a numerical range per 8R normal jackpot Is included.

On the other hand, if it is determined in step S30705 that the second symbol display unit flag is ON ( S30705 : YES), the process proceeds to step S30707 , and the distribution table for the second start port (FIG. 8B). Refer to)) to make a distribution decision. Specifically, the value of the jackpot type counter C2 stored in the execution area AE is any of a numerical range per 16R probability variation jackpot, a numerical range per 8R probability variation jackpot, a numerical range per 16R normal jackpot, or a numerical range per 8R normal jackpot Is included. After executing the process of step S307 06 or step S307 07. The process proceeds to step S30708 .

In step S30708 , it is determined whether or not the jackpot type assigned in step S30706 or step S30707 is a probabilistic jackpot. If it is determined in step S30708 that the game result is a probable big hit ( S30708 : YES), the process proceeds to step S30709 .

In step S30709 , a probabilistic big hit stop result setting process is executed. The stop result setting process for the probable jackpot is a change in the state in which any stop result is displayed on the first symbol display unit 37a or the second symbol display unit 37b in the current game round that will be won for the probable jackpot. This is a process for setting whether to end the display. Specifically, by referring to the stop results table for probability variation jackpot stored in the stop result table storage area 63e, the address of the stop result data corresponding to the type of jackpot that sorting in step S307 06 or step S307 07 Information is acquired, and the address information is stored in the stop result address storage area of the RAM 64. After performing the step S307 09, the process proceeds to step S307 10.

In step S30710 , the flag corresponding to the jackpot type assigned in step S30706 or step S30707 (big hit type flag) is turned ON. Specifically, the 16R probability variation flag is turned ON when it is a 16R probability variation big hit, and the 8R probability variation flag is turned ON when it is an 8R probability variation big hit. Thereafter, the hit determination process is terminated.

On the other hand, in step S307 08, step S307 06 or step S307 in the case where the type of jackpot were divided in 07 determining not probability variation jackpot (S307 08: NO), i.e., when the type of the jackpot that distribution is a normal jackpot In step S30711 , the process proceeds to step S30711 .

In step S30711 , a normal jackpot stop result setting process is executed. The normal jackpot stop result setting process varies in a state in which any stop result is displayed on the first symbol display portion 37a or the second symbol display portion 37b in the current game round in which the normal jackpot is won. This is a process for setting whether to end the display. Specifically, by referring to the stop result table for normal jackpot stored in the stop result table storage area 63e, the address of the stop result data corresponding to the type of jackpot that sorting in step S307 06 or step S307 07 Information is acquired, and the address information is stored in the stop result address storage area of the RAM 64. After executing step S307 11, the process proceeds to step S307 12.

In step S30712 , the flag corresponding to the jackpot type assigned in step S30706 or step S30707 (big hit type flag) is turned ON. Specifically, the 16R normal flag is turned ON when it is a 16R normal big hit, and the 8R normal flag is turned ON when it is an 8R normal big hit. Thereafter, the hit determination process is terminated.

In step S307 04, when the result of the lottery per in step S307 02 or step S307 03 is not jackpot winning (S307 04: NO), the process proceeds to step S307 13, executes the stop result setting process for at off. The stop result setting process for off time is to end the variable display in a state where any stop result is displayed on the first symbol display unit 37a or the second symbol display unit 37b in the current game round that results in a loss. This is a process for setting. Specifically, the stop result data address information corresponding to the value of the jackpot random number counter C1 stored in the execution area AE is acquired by referring to the stop result table for outage in the stop result table storage area 63e. Then, the address information is stored in the stop result address storage area of the RAM 64. After executing step S30713, the real winning determination process is terminated.

  As described above, according to this aspect, in the main process (FIG. 103) executed with the start of power supply, the low level corresponding to the setting information stored in the setting information storage area of the main RAM 64 is set. A probability table setting process (FIG. 103: step S30123) is performed to read the probability table for the probability mode from the result table storage area of the main ROM 63 and write the read result table for the low probability mode to the result table storage area of the main RAM 64. In the hit determination process (FIG. 109), since the low probability mode pass / fail table stored in the pass / fail table storage area of the main RAM 64 is referenced, the setting information is referred to when the hit determination process is executed. It does not have to be. Therefore, for example, even when the setting information is rewritten to another value not intended by the administrator due to the influence of noise or the like, based on the low-probability mode success / failure table corresponding to the setting information before the rewriting. Thus, the hit determination process can be executed. Therefore, it is possible to provide the pachinko machine 10 that is hardly affected by noise or the like.

  In this aspect, the high-probability mode success / failure table is configured to use one type of high-probability mode success / failure table regardless of the setting information. Also for the table, six types of high-probability mode success / failure tables corresponding to each of the six levels of setting information may be used. In the case of adopting this configuration, in the main process, the high-probability mode success / failure table corresponding to the setting information stored in the setting information storage area of the main RAM 64 is read out from the success / failure table storage area of the main ROM 63, The read high-probability mode success / failure table is written into the main-side RAM 64's success / failure table storage area. What is necessary is just to set it as the structure which refers the success / failure table for probability modes. According to such a configuration, similarly to the case of the high probability mode, it is not necessary to refer to the setting information when executing the hit determination process. Therefore, for example, even when the setting information is rewritten to another value not intended by the administrator due to the influence of noise or the like, based on the high-probability mode success / failure table corresponding to the setting information before the rewriting. Thus, the hit determination process can be executed. Therefore, it is possible to provide the pachinko machine 10 that is hardly affected by noise or the like.

  Further, in this aspect, the main processing (FIG. 103) executed with the start of power supply employs a configuration that always executes the determination table setting process (step S30123). The table setting process is executed when the setting information is changed in the setting change process (setting change mode) (step S30118), and when the setting change process (setting change mode) is not executed, the setting change process (setting change) If the setting information is not changed even when the mode is executed, the determination table setting process may not be executed. In other words, the success / failure table setting process need not be executed when the success / failure table stored in the success / failure table storage area of the main RAM 64 corresponds to the setting information, and at least triggered by the change of the setting information. As a configuration to be executed.

<Aspect 111>
  Among the above aspects, in the configuration capable of executing the setting change mode and the setting confirmation mode, from the start of the setting change mode in the period during which the setting change mode is being executed, until the setting information being changed is confirmed. Is the state in which the DP light emission part of the right end 7-segment display 45z4 of the information display part 45z blinks, and the period of 2 seconds from the confirmation of the setting information to the end of the setting change mode is The DP light emitting unit may be in a lit state. Moreover, it is good also as a structure in which the DP light emission part of the right end 7 segment indicator 45z4 of the information display part 45z is lighted during the period during execution of setting confirmation mode. This will be specifically described below.

  FIG. 110 is an explanatory diagram illustrating a state in which setting information is displayed on the information display unit 45z in the aspect 111 of the first embodiment. 110A and 110B are explanatory diagrams illustrating display modes of the information display unit 45z during execution of the setting change mode. As shown in FIGS. 110 (A) and 110 (B), during the execution of the setting change mode in this aspect, the left three 7-segment display (left end 7-segment display 45z1, left middle) of the information display unit 45z. The 7-segment display 45z2 and the middle right 7-segment display 45z3) function as a type information display area for displaying type information of the mode being executed, and are referred to as “set.” Indicating that the setting change mode is being executed. Displays a string. The right end 7-segment display 45z4 of the information display unit 45z functions as a numerical information display area for displaying numerical information of setting information, and displays numerical information of setting information of lottery settings.

  Here, the setting change mode is composed of two periods. Specifically, the setting change mode is a period in which the setting information can be changed, and is a period from when the setting change mode is started until the setting information is confirmed. The period is a period in which the setting information cannot be changed, and is a fixed period from when the setting information is confirmed until the setting change mode is ended.

  In this aspect, as shown in FIG. 110 (A), in the change period of the setting change mode, the right end 7-segment display 45z4 displays numerical information of the currently selected setting information, and the right end 7 The DP light emitting unit of the segment display 45z4 is in a blinking state. In the example shown in FIG. 110A, the right-end 7-segment display 45z4 displays a numerical value “1” as the numerical information of the currently selected setting information, and the DP of the right-end 7-segment display 45z4. The light emitting unit is in a blinking state.

  Thereafter, when the administrator 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 determination period, as shown in FIG. 110 (B). In addition, the DP light-emitting unit of the right-end 7-segment display 45z4 shifts from the blinking state to the lit state, and after the lit state continues for 2 seconds, the four 7-segment displays 45z1 to 45z4 of the information display unit 45z. Turns off and exits the setting change mode. In the example shown in FIG. 110 (B), the right-end 7-segment display 45z4 displays a numerical value “2” as the numerical information of the determined setting information, and the DP light emitting unit of the right-end 7-segment display 45z4 Is blinking.

  That is, the DP light-emitting unit of the rightmost 7-segment display 45z4 has the setting key (keyhole) set to the OFF side after the setting change mode is started during the period in which the setting change mode is being executed, and the setting information is stored. It is in a blinking 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. during the setting change mode execution period. It is in a lit state for a fixed period of 2 seconds from when the information is confirmed until the setting change mode is completed.

  Next, the display mode of the information display unit 45z in the setting confirmation mode will be described.

  FIG. 110C is an explanatory diagram illustrating a display mode of the information display unit 45z during execution of the setting confirmation mode. As shown in FIG. 110 (C), during the execution of the setting confirmation mode in this aspect, the left three seven-segment display (left end seven-segment display 45z1, left middle seven-segment display 45z2, and The right middle 7-segment display 45z3) functions as a type information display area for displaying type information of the mode being executed, and displays a character string “sec.” Indicating that the setting confirmation mode is being executed. The right end 7-segment display 45z4 of the information display unit 45z functions as a numerical information display area for displaying numerical information of setting information, and displays numerical information of currently set setting information. In the example shown in FIG. 110C, the right end 7-segment display 45z4 displays a numerical value “2” as the numerical information of the setting information currently set, and the DP of the right end 7-segment display 45z4. The light emitting unit is in a lit state.

  Next, an example of processing executed by the main MPU 62 of this aspect will be specifically described.

  The main side MPU 62 of this aspect executes main processing and timer interrupt processing. The contents of the main process and timer interrupt process executed by the main MPU 62 of this aspect are the same as the main process (FIG. 103) and timer interrupt process (FIG. 104) described in aspect 110, but the main process (FIG. 103). The details (subroutine) of the setting change process (step S30118) and the setting confirmation process (step S30112) in FIG. Therefore, the details (subroutine) of the setting change process and the setting confirmation process executed by the main MPU 62 of this aspect will be described below.

FIG. 11 is a flowchart illustrating a setting change process executed by the main MPU 62 (main CPU 62x) of the aspect 1 1 1 of the first embodiment. The setting change processing is executed as a subroutine of Step S 301 18 in FIG 103.

In step S30801 , a setting change mode start command, which is a command indicating the start of the setting change mode, is transmitted to the sound emission control device 90. When receiving the setting change mode start command, the sound emission control device 90 executes a process for notifying that the setting change mode has been started. Specifically, in this embodiment, a sound such as “setting change mode has started” is output from the speaker 46, and then a sound “in the setting change mode” is repeatedly output from the speaker 46. In addition, when receiving the setting change mode start command, the sound emission control device 90 causes the symbol display device 41 to display information indicating that it is in the setting change mode. Specifically, in this aspect, the sound emission control device 90 transmits a command for causing the symbol display device 41 to display a character string such as “in setting change mode” to the display control device 100 and receives the command. The displayed control device 100 displays a character string such as “in setting change mode” on the symbol display device 41. In addition, when receiving the setting change mode start command, the sound emission control device 90 controls the various lamps 47 so as to blink repeatedly by alternately turning on and off at the maximum luminance.

In addition, after transmitting the setting change mode start command to the sound emission control device 90, information indicating that the setting change mode has been started may be transmitted to the hall computer of the game hall via the 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 on the pachinko machine 10 in the setting change mode on the management screen. After performing the step S308 01, the process proceeds to step S308 02.

In step S308 02, sets ON changing flag in the main side RAM 64. As described above, the setting change flag is a flag indicating that the setting change process (setting change mode) has been started, and a flag indicating that the setting change process (setting change mode) has not yet ended. It is. After performing the step S308 02, the process proceeds to step S308 03.

In step S30803 , a setting change start initial setting process is executed. In the initial setting process at the start of setting change, an initial setting necessary for starting the setting change process is executed. In this mode, in the initial setting process at the start of setting change, it is determined whether or not the RAM abnormality flag is ON. If it is determined that the RAM abnormality flag is ON, the RAM abnormality flag is turned OFF. To. After performing the step S308 03, the process proceeds to step S308 04.

In step S308 04, reads the setting information of the lottery setting stored in the main side RAM 64, stores the updated setting information. Specifically, in this aspect, the lottery setting setting information stored in the setting information storage area of the main RAM 64 is read, and the read setting information is stored in an area other than the setting information storage area of the main RAM 64. To the update setting information storage area. After performing the step S308 04, the process proceeds to step S308 05.

In step S308 05, reads the update setting information stored in the update setting information storage area of the main side RAM 64, it starts control for displaying the read update setting information to the information display unit 45 z. Specifically, as described above, the setting change mode is set to the left seven segment display unit 45z1, the left middle seven segment display unit 45z2, and the right middle seven segment display unit 45z3 of the information display unit 45z. of to start lighting display of a character string "the set." indicating that the application is running, the right end 7-segment display 45Z4, the Rutotomoni the right end 7 segment display 45Z4 to start lighting display of the update setting information The blinking display of the DP light emitting unit is started. In this way, the change period described above is started. After executing step S30805, the process proceeds to step S30806.

In step S30806 , it is determined whether the setting information for update is a numerical value within a predetermined range. In this aspect, since the setting information set in the pachinko machine 10 has six levels from “1” to “6”, is the update setting information a numerical value within the range from “1” to “6”? Determine whether or not. If it is determined in step S30806 that the setting information for update is a numerical value within a predetermined range (step S30806 : YES), the process proceeds to step S30808 . On the other hand, if it is determined in step S308 06 that the update setting information is not a numerical value within the predetermined range (step S308 06: NO), for example, “0” or “7” is stored as the update setting information. If information other than a numerical value is stored due to noise or the like, the process advances to step S30807 to change the setting information for update to an initial value. In this aspect, “1” is stored as the initial value in the update setting information. Thereafter, the process proceeds 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, during a period in which the setting key (keyhole) is on, the signal indicates a high level and the setting key (keyhole) is on the off side. The signal indicating the low level is monitored, and when the falling edge where the signal falls from the high level to the low level is detected, it is determined that the setting key (keyhole) has become 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 proceeds to step S30809 , and the setting change button is pressed. It is determined whether or not. If it is determined in step S30809 that the setting change button has been pressed (step S30809 : YES), the process advances to step S30810 to update the update setting information. Specifically, 1 is added to the numerical information stored as the update setting information. However, when the setting change button is pressed in a situation where the numerical information stored as the 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 or not the updated setting information for update is a numerical value within a predetermined range. On the other hand, if it is determined in step S308 09 that the setting change button has not been pressed (step S308 09: NO), the process returns to the above-described step S308 06 without performing the process of step S308 10, and updated. It is determined whether the setting information is a numerical value within a predetermined range.

If it is determined in step S30808 described above that the setting key (keyhole) has shifted from the ON side to the OFF side (step S30808 : YES), the process proceeds to step S30811 .

In step S308 11, reads the update setting information stored in the main side RAM 64, is stored as setting information. Specifically, in this aspect, the update setting information stored in the update setting information storage area of the main RAM 64 is read, and the read update setting information is copied to the setting information storage area of the main RAM 64. To do. After executing step S308 11, the process proceeds to step S308 12, the right end 7-segment display 45Z4, from flashing displays a display mode of the DP-emitting portion of the right end 7 segment display 45Z4 with to start lighting display configuration information Switch to display. Thereafter, the process proceeds 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 display units of the left end 7-segment display unit 45z1, the left middle 7-segment display unit 45z2 and the right middle 7-segment display unit 45z3 of the information display unit 45z. The determined setting information is lit on and displayed on the right end 7-segment display 45z4, and the DP light emitting unit of the right end 7-segment display 45z4 is lit on for 2 seconds. These two seconds are the above-described fixed period. Thereafter, the process proceeds to step S30814, and the control for displaying the setting information on the information display unit 45z is terminated. Specifically, the four 7-segment indicators 45z1 to 45z4 constituting the information display unit 45z are shifted to the off state. Then, the process proceeds to step S308 1 5.

In step S308 15 , a first RAM clear process is executed. In the first RAM clear process, information other than the lottery setting setting information stored in the setting information storage area of the main RAM 64 is erased. When the first RAM clear process is executed, the above-described setting change flag is also erased (turned OFF). After performing Step S308 1 5 , proceed to Step S308 1 6 .

In step S308 16 , a setting change mode end command, which is a command indicating that the setting change mode has ended, is transmitted to the sound emission control device 90. As will be described later, when receiving the setting change mode end command, the sound emission control device 90 executes a process of notifying that the setting change mode has ended. Specifically, in this embodiment, the output of sound such as “setting change mode is in progress” from the speaker 46 is terminated, and sound such as “setting change mode is ended” is output from the speaker 46. Moreover, the control which notifies that it is in the setting change mode in the symbol display apparatus 41 and various lamps 47 is complete | finished.

  In addition, after transmitting the setting change mode end command to the sound emission control device 90, information indicating that the setting change mode is ended may be transmitted to the hall computer of the game hall via the 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 S308 1 6 , the setting change process is terminated. After executing the setting change notification end processing, the configuration information of the lottery setting after the change is transmitted to the hall computer of the game hall via the external terminal, and the hall computer that has received the information displays the management screen on the management screen. It is good also as a structure which displays the setting information of the lottery setting after the change of the pachinko machine 10. FIG.

Next, details of the setting confirmation processing of this aspect will be described.

FIG. 112 is a flowchart illustrating a setting confirmation process executed by the main MPU 62 (main CPU 62x) according to the aspect 1 1 1 of the first embodiment. The setting confirmation processing is executed as a subroutine of Step S 301 12 in FIG 103.

In step S30901 , a setting confirmation mode start command, which is a command indicating that the setting confirmation mode has been started, is transmitted to the sound emission control device 90. When receiving the setting confirmation mode start command, the sound emission control device 90 executes a process of notifying that the setting confirmation mode has been started. Specifically, in this embodiment, a sound such as “setting confirmation mode has been started” is output from the speaker 46, and then a sound “in the setting confirmation mode” is repeatedly output from the speaker 46. In addition, when receiving the setting confirmation mode start command, the sound emission control device 90 causes the symbol display device 41 to display information indicating that it is in the setting confirmation mode. Specifically, in this aspect, the sound emission control device 90 transmits a command for causing the symbol display device 41 to display a character string such as “in the setting confirmation mode” to the display control device 100, and receives the command. The displayed control device 100 causes the symbol display device 41 to display a character string such as “in the setting confirmation mode”. In addition, when receiving the setting confirmation mode start command, the sound emission control device 90 controls the various lamps 47 so as to blink repeatedly by alternately turning on and off at the maximum luminance.

In addition, after transmitting the setting confirmation mode start command to the sound emission control device 90, information indicating that the setting confirmation mode is started may be transmitted to the hall computer of the game hall via the 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 on the pachinko machine 10 in the setting confirmation mode on the management screen. After performing the step S309 01, the process proceeds to step S309 02.

In step S309 02, sets ON confirmation flag in the main side RAM 64. As described above, the setting confirmation flag is a flag indicating that the setting confirmation processing (setting confirmation mode) has been started, and a flag indicating that the setting confirmation processing (setting confirmation mode) has not been completed yet. It is. After performing the step S309 02, the process proceeds to step S309 03.

In step S309 03, it starts control for displaying the setting information of the lottery setting stored in the setting information storage area of the main side RAM64 on the information display unit 45 z. Specifically, as described above, the setting confirmation mode is set in the left seven segment display unit 45z1, the left middle seven segment display unit 45z2, and the right middle seven segment display unit 45z3 of the information display unit 45z. Is started, the right-end 7-segment display 45z4 is started to display the setting information, and the DP light-emitting unit of the right-end 7-segment display 45z4 is started. Starts lit display. After executing Step S30903, the process proceeds 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, during a period in which the setting key (keyhole) is on, the signal indicates a high level and the setting key (keyhole) is on the off side. When the signal indicating the low level is monitored and a falling edge that falls from the high level to the low level is detected, the setting key (keyhole) is shifted from the ON side to the OFF side. judge. If it is determined in step S30904 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 proceeds to step S30905 . That is, the infinite loop is repeated until the setting key (keyhole) shifts from the ON side to the OFF side, and the process does not proceed to step S3095 . When the setting key (keyhole) shifts from the ON side to the OFF side, step S309 is performed. Proceed to 05.

In step S309 05, terminates the control for displaying the setting information of the lottery set in the information display unit 45 z. Specifically, the four 7-segment indicators 45z1 to 45z4 constituting the information display unit 45z are shifted to the off state. As a result, the character string “sec.” Is lit and displayed on the three left 7-segment displays of the left end 7-segment display 45z1, the left-center 7-segment display 45z2 and the right-center 7-segment display 45z3 of the information display section 45z. The setting information is displayed on the right end 7-segment display 45z4 and the DP light emitting unit of the right end 7-segment display 45z4 is displayed on the display after the setting confirmation mode is started. This is continued until the key (key hole) is shifted to the OFF side. After executing step S30905, the process proceeds to step S309 06.

In step S309 06, to OFF setting changing flag in the main side RAM 64. Thereafter, the process proceeds to step S30907 .

In step S30907 , a setting confirmation mode end command, which is a command indicating the end of the setting confirmation mode, is transmitted to the sound emission control device 90. As will be described later, when receiving the setting confirmation mode end command, the sound emission control device 90 executes processing for notifying that the setting confirmation mode has ended. Specifically, in this embodiment, the output of sound such as “in the setting confirmation mode” from the speaker 46 is terminated, and the sound “the setting confirmation mode is terminated” is output from the speaker 46. Moreover, the control which notifies that it is in the setting confirmation mode in the symbol display apparatus 41 or various lamps 47 is complete | finished.

In addition, after transmitting the setting confirmation mode end command to the sound emission control device 90, information indicating that the setting confirmation mode is ended may be transmitted to the hall computer of the game hall via the external terminal. In this case, the hall computer that has received the information indicating that the setting check mode has ended may be configured to display information indicating that the setting check mode of the pachinko machine 10 has ended on the management screen. After executing step S30907 , the setting confirmation process is terminated.

  As described above, according to this mode, the display mode of the DP light emitting unit of the right-end 7-segment display 45z4 is blinking during the change period of the setting change mode, and is lit after the transition to the fixed period. Migrate to In addition, the display mode of the DP light emitting unit of the right end 7-segment display 45z4 is lit in the setting confirmation mode. Therefore, according to this aspect, whether or not the mode currently being executed is the setting change mode or the setting confirmation mode only by using the DP light emitting unit of the right-end 7-segment display 45z4 that can be at least two display forms. Can be clearly recognized by the administrator, and the administrator can clearly recognize that the setting information being changed in the setting change mode has been confirmed and has shifted from the change period to the fixed period. Further, according to this aspect, the setting change mode confirmation period and the setting confirmation mode are both in a state in which the setting information cannot be changed, and the display mode of the DP light emitting unit of the right-end 7-segment display 45z4 is Lights up. Therefore, the administrator can recognize that the setting information cannot be changed when the display mode of the DP light emitting unit of the right-end 7-segment display 45z4 is lit.

< Aspect 112>
Among the above aspects, in the configuration capable of executing the setting change mode, when the pachinko machine 10 is activated 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 It is good also as a structure where the lighting state of the said LED lamp continues until a lamp lights up and the supply of the electric power to the said pachinko machine 10 is cut off. According to this configuration, the administrator of the pachinko machine 10 has confirmed that the LED lamp is lit in the pachinko machine 10 that should not have been activated in the setting change mode during the business hall business hours. In this case, it is possible to recognize whether the pachinko machine 10 is illegally activated in the setting change mode by a person other than the administrator (for example, an unauthorized person or a Goto). This will be specifically described below.

  FIG. 113 is a front view of the game board 30 in the aspect 112. The difference from the game board 30 shown in FIG. 3 is that a setting change mode execution lamp 45x constituted by LEDs is provided in the vicinity of the main display unit 45. The setting change mode execution lamp 45x is turned on when the pachinko machine 10 is activated in the setting change mode (when the setting change process is executed), and the setting change mode is completed and the game can proceed. Even after the transition to the state, the lighting state is maintained.

  FIG. 114 is a block diagram illustrating an electrical configuration of the pachinko machine 10 according to the aspect 112. The main difference from the pachinko machine 10 shown in FIG. 42 is that the above-described setting change mode execution lamp 45x is connected to the input / output port of the main MPU 62 at 45x. That is, in this aspect, the setting change mode execution lamp 45x is configured to be controlled not by the 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 illustrating main processing executed by the main MPU 62 (main CPU 62x) according to the aspect 112 when the power is turned on. 103 differs from the main process of the mode 110 shown in FIG. 103 in that the setting change mode execution lamp lighting process (step S12417b) is performed between the process in step S12417 and the setting change process (setting change mode) in step S12418. It is a point 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). It is configured to be.

  In the setting change mode execution lamp lighting process in step S12417b, the above-described setting change mode execution lamp 45x is turned on. Then, after the setting change mode execution lamp lighting process is executed, the setting change mode execution lamp 45x maintains the lighting state. After executing step S12417b, the process proceeds to the setting change process (setting change mode) in 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 immediately before the execution of the setting change process (setting change mode). Even after the setting change process (setting change mode) is completed, the setting change mode execution lamp 45x maintains the lighting state. As a result, the lighting state of the setting change mode execution lamp 45x continues until the supply of power to the pachinko machine 10 is cut off. On the other hand, when the setting change process (setting change mode) is not executed in the main process, the setting change mode execution lamp 45x is not turned on and the light-off state continues.

  As described above, according to this aspect, since the setting change mode execution lamp 45x is lit when the setting change mode is executed, the administrator turns on the setting change mode execution lamp 45x. It is possible to confirm whether or not the setting change mode is being executed in the pachinko machine 10 by checking whether or not it is. Then, for example, when the administrator confirms that the setting change mode execution lamp 45x is turned on in the pachinko machine 10 that should not execute the setting change mode when the supply of power is started, It can be recognized that some fraud has been made to the pachinko machine 10 so that the setting change mode is executed by a person other than the administrator (for example, Goto).

  Further, according to this aspect, the setting change mode execution lamp 45x maintains the lighting state even after the setting change mode ends, so that the administrator sets the pachinko machine 10 when the supply of power is started. It is possible to check whether or not the change mode has been executed even after the setting change mode has ended. For example, when the administrator confirms that the setting change mode execution lamp 45x is turned on in the pachinko machine 10 that should not have been executed when the power supply is started. Can recognize that some fraud has been made to the pachinko machine 10 so that the setting change mode is executed by a person other than the administrator (for example, Goto).

  Further, according to this aspect, since the setting change mode execution lamp 45x is provided at a position that can be visually recognized from the front of the pachinko machine 10, the administrator can, for example, play the pachinko machine 10 in a game hall that is in operation. Even if the player does not move to the back side of the player, the display mode of the setting change mode execution lamp 45x can be confirmed only by going around the passage where the player goes and goes.

  In this aspect, the setting change mode execution lamp 45x is in a lighting state prior to the start of the setting change mode. However, instead of this configuration, the setting change mode execution lamp 45x is in a lighting state after the setting change mode ends. The lighting state may be maintained. 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 the supply of power is started. For example, when the administrator confirms that the setting change mode execution lamp 45x is turned on in the pachinko machine 10 that should not have been executed when the power supply is started. Can recognize that some fraud has been made to the pachinko machine 10 so that the setting change mode is executed by a person other than the administrator (for example, Goto).

  Further, in this aspect, the setting change mode execution lamp 45x is configured to remain lit even after the setting change mode ends. Instead of this configuration, the setting change mode execution lamp 45x shifts to the unlit state after the setting change mode ends. It is good also as composition to do. Even with such a configuration, whether or not the setting change mode is being executed in the pachinko machine 10 can be confirmed from the front of the pachinko machine 10.

  Further, in this aspect, the setting change mode execution lamp 45x that is turned on when the setting change mode is executed is provided. However, when a specific process other than the setting change mode is executed. It is good also as a structure provided with the light-emitting lamp which will be in a lighting state. Even in such a configuration, for example, when the administrator confirms that the light-emitting lamp is turned on in the pachinko machine 10 where a specific process should not have been performed, a person other than the administrator It can be recognized that some fraud has been made to the pachinko machine 10 so that the specific process is executed by (for example, Goto).

<Aspect 113>
  Among the above modes, the configuration change mode can be executed, and the configuration change mode is executed in the configuration for calculating / displaying the base (in normal mode), the bonus rate, and the continuous bonus rate as game history information. If the setting information is changed and the setting information is changed, among the game history basic information to be used as a basis for calculating the game history information, the bonus rate and the continuous bonus rate The game history basic information necessary for calculating the game history may be erased, and the game history basic information necessary for calculating the base (during the normal mode) may not be erased.

  Hereinafter, prior to the description of the specific configuration of this aspect, the characteristics of each game history information will be described.

  When the setting information of the lottery setting is changed in the setting change mode, the probability of winning the jackpot in the winning lottery changes, so the frequency at which the variable winning device 36 as a special electric accessory operates is changed. Before and after the change, the convergent values of the feature ratio and the continuous feature ratio change. That is to say, it can be said that the bonus rate and the continuous bonus rate are game history information affected by the change of the setting information. Then, when calculating the combination ratio and the continuous combination ratio after the setting information is changed, it can be said that it is preferable not to use the game history basic information before the setting information is changed as a basis for calculation.

  On the other hand, even if the setting information of the lottery setting is changed in the setting change mode, the converged value of the base (during the normal mode) does not change. That is, it can be said that the base (in the normal mode) is game history information that is not affected by the change of the setting information. Further, the base (in the normal mode) is the ease of entering the game ball into each entrance (general winning entrance and start port) during the 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 nail, the general winning opening, etc. in 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 can be said that it is preferable to calculate a more accurate convergence value by calculating the base (during the normal mode) based on a large amount of data accumulated over a long period regardless of whether or not the setting information is changed. .

  Below, among the game history information, the game history information such as the base (during the normal mode) that is not affected by the change of the setting information is also referred to as “first type game history information” and is affected by the change of the setting information. The game history information such as the proportion of consecutive items and the ratio of consecutive items is also referred to as “second-type game history information”. Further, the base (during the normal mode) is also simply referred to as “base”.

  Here, in this aspect, when the setting information is changed in the setting change mode, the game history basic information that is the basis for calculating the second type game history information is deleted from the game history basic information, and the first The game history basic information that is the basis for calculating the seed game history information is not 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 that enter each entrance in the normal mode, and the second type game history information. The game history basic information that is the basis for calculating (composition ratio / continuous role ratio) is, for example, the number of game balls that enter the respective entrances stored without distinguishing the game state.

  As described above, according to this aspect, when the setting information is changed, the game history basic information that is the basis for calculating the second type game history information is deleted from the game history basic information. The game history basic information before the change and the game history basic information after the change of the setting information coexist, and the second type game history information based on the game history basic information before and after the change of the setting information Can be suppressed, and the storage capacity of the game history basic information after changing the setting information to be newly stored can be secured. On the other hand, the game history basic information, which is the basis for calculating the first type game history information, is not erased from the game history basic information when the setting information is changed. The first type game history information with high accuracy can be calculated based on the game history basic information accumulated over a long period of time. Therefore, the administrator or the inspector can check the type 2 game history information based on the game history basic information after the setting information is changed, and the accuracy based on the game history basic information accumulated over a long period of time. It is possible to check the first type game history information having a high value.

<Aspect 114>

Among the above aspects, the configuration change mode can be executed, and in the configuration for calculating / displaying the base, the ratio of the bonuses, and the continuous bonus ratio as the game history information, the base that is not affected by the change of the setting information The (first type game history information) is calculated without dividing into each section (period) with the change of the setting information as a boundary, and the ratio of the actors affected by the change of the setting information and the ratio of consecutive actors (second type of game) (History information) may be calculated separately for each section (period) with the change of the setting information as a boundary. According to such a configuration, the administrator and the inspector can confirm a highly accurate base (first type game history information) calculated from a wide range (period) in which the section is not divided, and the setting information It is possible to check the ratio of the actors affected by the change in the ratio and the ratio of consecutive actors (the second type game history information) separately for each section with the change of the setting information as a boundary.

<Aspect 115>
  In each of the above aspects, the configuration change mode can be executed, and when the setting information is changed in the configuration for calculating / displaying the base, the bonus rate, and the continuous bonus rate as the game history information, 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, the storage capacity for the game history basic information to be newly stored can be secured, and the administrator and the inspector can use the game history basic information before the setting information is changed. The game history basic information used as the basis for calculating the game history information is the game history information calculated based on the deleted game history basic information (that is, the game history information before the setting information is changed). Can be confirmed even after the information is deleted (that is, after the setting information is changed).

  In addition to the fact that the setting information is changed, other conditions can be adopted as an opportunity to delete the game history basic information. For example, the measured number N of passages in the discharge passage _OUT The game history basic information may be deleted when the number reaches 60000. According to such a configuration, it is possible to secure a storage capacity for the game history basic information to be newly stored, and the administrator or the inspector can determine the number N of passages through the discharge passage that has been measured. _OUT It is possible to check the game history information calculated every time the number reaches 60000 even after the game history basic information that is the basis for calculating the game history information is deleted.

<Aspect 116>
  Among the above aspects, the configuration change mode can be executed, and the configuration described below may be adopted in the configuration for calculating / displaying the base, the bonus rate, and the continuous bonus rate as the game history information. Good. Hereinafter, the configuration of this aspect will be specifically described.

  In this aspect, the second area of the main RAM 64 is provided with a specific storage area specified by a predetermined continuous address, and the main CPU 62x is configured to change the setting information in the setting change mode. Deletes information stored in a specific storage area of the second area of the main RAM 64 and does not delete information stored in a storage area other than the specific storage area of the second area of the main RAM 64. It is configured. In addition, as described above, the second area of the main RAM 64 has a program for executing processing (game history processing) for calculating and displaying game history information, and various numerical information (award ball total value, This is a storage area used as an area for storing game history basic information such as the number of entered balls, game history information such as a base, an accessory ratio, and a continuous accessory ratio.

  In this aspect, the main CPU 62x is the second base that is used to calculate the second type game history information (a combination ratio, a continuous combination ratio) among the game history basic information acquired as the game progresses. The seed game history basic information is stored in a specific storage area of the second area of the main RAM 64, and the first type game history basic information serving as the basis for calculating the first type game history information (base) is stored in the main RAM 64. The data is stored in a storage area other than the two specific storage areas.

  Therefore, according to this aspect, when the setting information is changed, the game history basic information stored in the second area of the main RAM 64 is the game history basic information to be deleted or not deleted. Even if it is not determined whether the information is basic information, the second type gaming history basic information that is the basis for calculating the second type gaming history information that is affected by the change of the setting information is erased and the setting information The second type game history basic information, which is the basis for calculating the first type game history information that is not affected by the change, can be left without being erased. That is, when the game history basic information is erased when the setting information is changed, the process of determining the game history basic information to be erased and the game history basic information not to be erased can be omitted, thereby simplifying the processing. be able to.

  Further, according to this aspect, the specific storage area of the second area of the main RAM 64 from which information is erased when the setting information is changed is a storage area specified by a predetermined continuous address. It is possible to further simplify the process of collectively deleting the second type game history basic information stored in the specific storage area of the second area of the main RAM 64.

  In this aspect, the specific storage area of the second area of the main RAM 64 from which information is deleted when the setting information is changed is a storage area specified by a predetermined continuous address. The storage area specified by consecutive addresses is not essential, and may be a storage area specified by discrete addresses.

<Aspect 117>
  Of the above aspects, in the configuration for calculating / displaying the game history information, the number of game balls that enter each ball club during a predetermined period is not used as the basis for calculating the game history information (not used for calculation). It is good also as a structure. Hereinafter, this predetermined period is also referred to as a “non-measurement period”. In this configuration, for example, the game board 30 is opened, and a game ball is directly inserted into a winning opening, a start opening, etc., and an operation test is performed within the non-measurement period to determine whether or not the pachinko machine 10 operates normally. By doing so, it is possible to prevent the influence of the operation inspection from affecting the game history information. As a result, the administrator or the inspector can check accurate game history information that is not affected by the operation inspection.

  Specifically, for example, as the non-measurement period, the number N of discharge passage passages measured after the supply of power is started after the supply of power to the pachinko machine 10 is started. _OUT When the period until the predetermined number (for example, 300) is adopted, the operation inspection of the pachinko machine 10 described above is performed immediately after the supply of power to the pachinko machine 10 is started, It is possible to prevent the influence of the operation inspection from affecting the game history information. As a result, it is possible to prevent the administrator from confirming the game history information affected by the operation inspection and misunderstanding that a malfunction or the like has occurred in the pachinko machine 10. .

  Further, for example, as a non-measurement period, the number N of discharge passage passages measured after the pachinko machine 10 starts in the setting change mode and after the setting change mode ends. _OUT When the period until the predetermined number (for example, 300) 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 is finished, It is possible to prevent the influence of the inspection from affecting the game history information. As a result, it is possible to prevent the administrator from confirming the game history information affected by the operation inspection and misunderstanding that a malfunction or the like has occurred in the pachinko machine 10. .

  For example, when a period in which a predetermined switch is pressed is adopted as the non-measurement period, the administrator can start the non-measurement period at an arbitrary timing by pressing the switch. The operation inspection can be performed at an arbitrary timing while preventing the influence of the operation inspection of the pachinko machine 10 from affecting the game history information.

  Various other periods can be employed as the non-measurement period. For example, the number N of discharge passage passages measured after the RAM clear process is executed and after the RAM clear process is executed. _OUT A period until a predetermined number (for example, 300) is reached or a period until a predetermined time (for example, 10 minutes) elapses after the supply of power to the pachinko machine 10 is started can be employed.

<Aspect 118>
  Of each of the above aspects, in the configuration in which the calculated game history information is displayed on the information display unit 45z, an information display unit that performs display control of the information display unit 45z between the information display unit 45z and the main control board 61. A configuration may be adopted in which a driving IC 45y is provided. Hereinafter, an example of a specific configuration will be described.

  FIG. 116 is a block diagram illustrating an electrical configuration of the pachinko machine 10 according to the aspect 118 of the first embodiment. As described above, in this aspect, display control of the four 7-segment indicators 45z1, 45z2, 45z3, and 45z4 that constitute the information display unit 45z is executed between the information display unit 45z and the main control board 61. An information display unit driving IC 45y is provided. Other configurations are the same as the electrical configuration of the pachinko machine 10 shown in FIG.

  The main MPU 62 provided on the main control board 61 executes a main process (FIG. 103) at power-on, and then executes a timer interrupt process (FIG. 104) every 4 ms. The timer interrupt process includes a game history process (step S30216). In the game history process, game history information to be displayed on the information display unit 45z is calculated, and the type and numerical value of the calculated game history information are related. Information is transmitted to the display control IC 45y. That is, the main MPU 62 calculates game history information to be displayed on the information display unit 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 about the type and numerical value of the game history information from the main MPU 62, the information display unit driving IC 45y displays four pieces of information about the received type and numerical value of the game history information on the information display unit 45z. 7 segment display units 45z1, 45z2, 45z3, and 45z4 are held, and the mode displayed by the information display unit 45z is held until information relating to the type and value of game history information is newly received from the main MPU 62. The four 7-segment indicators 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 related to the type and numerical value of the game history information from the main MPU 62, “b6.35” is displayed in the information display unit 45z. The four 7-segment indicators 45z1, 45z2, 45z3, and 45z4 are controlled so that a character string such as the above is displayed, and information is newly received from the main MPU 62 until information on the type and value of the game history information is newly received. The four 7-segment indicators 45z1, 45z2, 45z3, and 45z4 are controlled so as to hold the character string “b6.35” currently displayed on the display unit 45z.

  That is, in this aspect, even if the main MPU 62 is newly unable to transmit information related to the type and numerical value of the game history information, the information display unit driving IC 45y is provided. Therefore, the information display unit 45z can maintain a display mode based on information regarding the type and numerical value of the game history information that the information display unit driving IC 45y has received last from the main MPU 62.

  Note that the state in which the main MPU 62 cannot newly transmit information related to the type and numerical value of the game history information is abnormal in the fraud detection process (FIG. 104: step S30215) as described in the aspect 110, for example. The game stop flag is turned ON upon detection of magnetism or shaking, and execution of the game history process (step S30216) is avoided in the timer interrupt process.

  As described above, according to the present aspect, the information display unit driving IC 45y that maintains the display mode of the information display unit 45z until the next game history information is transmitted from the main MPU 62 is provided. Until the next game history information is transmitted, the game history information transmitted before the next game history information can be continuously displayed on the information display unit 45z. For example, after the game history information is output from the main MPU 62, the game history information is displayed on the information display unit 45z until the game history information next to the game history information is transmitted. Will continue. Therefore, for example, even if the administrator or the inspector of the gaming machine is in a situation where the game stop flag is turned on after the first game history information is output from the main MPU 62 and the next game history information is not transmitted. Since the one game history information continues to be displayed on the information display unit 45z, the one game history information that is continuously displayed on the information display unit 45z can be confirmed.

  In addition, according to this aspect, an administrator who does not want to inspect game history information by an inspector intentionally generates abnormal magnetism or shaking to turn on the game stop flag and avoid execution of game history processing. Even if the next game history information is not transmitted from the main MPU 62 and the game history information is not displayed on the information display unit 45z, the information display unit driving IC 45y displays the display mode of the information display unit 45z. Therefore, the game history information transmitted before the game stop flag is turned on is continuously displayed on the information display unit 45z. Therefore, according to this aspect, the inspector confirms the game history information transmitted from the main MPU 62 before the game stop flag is turned on, which is the game history information that is continuously displayed on the information display unit 45z. be able to.

<Aspect 119>
  Among the above-described aspects, in the configuration in which the calculated game history information and the lottery setting setting information are displayed on the information display unit 45z, information (for example, an error code) related to the malfunction occurring in the pachinko machine 10 is displayed on the information display unit 45z It is good also as a structure to display. Hereinafter, an example of a specific configuration will be described.

  In this aspect, an error code corresponding to the content of the failure that has occurred in the pachinko machine 10 is set in advance, and when the occurrence of the failure is detected in the pachinko machine 10, a failure information storage area provided in the main RAM 64 Is stored with an error code corresponding to the defect. When the error code is stored in the main RAM 64, a signal for displaying the error code is transmitted to the information display unit 45z, and the information display unit 45z displays the error code instead of the game history information. The display of the error code is continued until a signal indicating that the problem corresponding to the error code has been resolved is received.

  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 in the defect information storage area of the main side RAM 64, a defect that has occurred in the main control device 60 of the pachinko machine 10 is detected. In addition to the corresponding error code, an error code corresponding to a malfunction occurring in the payout control device 70 or the payout device 71 is also stored. Specifically, in this aspect, when a failure occurs in the payout control device 70 or the payout device 71, the payout control device 70 gives an error code corresponding to the content of the generated failure 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 in the defect 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 unit 45z instead of the game history information.

  In addition, as troubles occurring in the payout control device 70 or the payout device 71, for example, the game ball is clogged in the internal passage of the payout device 71 and the game ball cannot be normally paid out, or the game ball being paid out The trouble that a measuring instrument (sensor) cannot measure the number, the trouble that the valve which controls the opening and closing of the internal passage through which the game ball to be paid out does not operate normally can be cited. And, for example, in this mode, an error code such as “E.341” corresponds to a problem that the valve that controls the opening and closing of the internal passage does not operate normally. 117, the error code is displayed on the information display unit 45z.

  Further, in this aspect, an error display button (not shown) is provided in the vicinity of the information display unit 45z on the back side of the pachinko machine 10, and the defect information storage area of the main side RAM 64 has a predetermined predetermined occurrence. An error code corresponding to a defect corresponding to the number of times (for example, 10 times) is stored. Then, when the above-mentioned error display button is pressed in a situation where the game history information is displayed on the information display unit 45z, it corresponds to the trouble that occurred most recently instead of the game history information for a predetermined time (for example, 10 seconds). The error code is displayed on the information display section 45z. 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 problems that occurred in the past are sequentially displayed on the information display unit 45z one by one. . If a predetermined time elapses without pressing the error display button during the period in which the error code is displayed, the game history information is displayed again on the information display unit 45z.

  As described above, according to this aspect, the information display unit 45z is configured to be able to receive a signal for displaying game history information and configured to be able to receive a signal for displaying an error code. Therefore, the information display unit 45z can display not only the game history information but also an error code. Therefore, in the pachinko machine 10 provided with the information display unit 45z capable of displaying the game history information, it is not necessary to provide another display means for displaying the error code. Can do.

  In addition, 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 occurring 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 provided with the information display unit 45z capable of displaying the game history information, there is no provision of another display means for displaying an error code corresponding to the malfunction occurring in the payout control device 70 or the payout device 71. Therefore, the manufacturing cost of the pachinko machine 10 can be reduced.

  Various configurations can be adopted as the configuration for displaying the error code on the information display unit 45z. For example, the following configurations can be adopted.

-An error code corresponding to the defect is displayed on the information display unit 45z instead of the game history information until a predetermined time (for example, 5 minutes) has elapsed from the time when the defect occurs, and after the predetermined time has elapsed, Configuration to stop displaying error code and resume display of game history information even if it has not been resolved
  According to this configuration, it is possible to avoid the occurrence of a situation where the game history information cannot be confirmed until the problem is resolved.

-A configuration in which an error code corresponding to a problem that occurred most recently only during the period when the error display button is pressed is displayed on the information display unit 45z instead of the game history information
  According to this configuration, the administrator can confirm the error code corresponding to the most recent failure at any timing by pressing the error display button, and after the confirmation is completed, the error display button is displayed. By stopping the pressing of the game history information can be promptly displayed on the information display unit 45z.

-In the period from when the supply of power to the pachinko machine 10 is started to when the game can proceed, an error code corresponding to the most recent occurrence of a predetermined number of times (for example, 10 times) is displayed in the information display unit 45z. To display sequentially
  According to this configuration, the administrator can grasp a problem occurring in the pachinko machine 10 using a period until the game can be progressed.

<Aspect 120>
  Among the above modes, in the configuration capable of executing the setting change mode, the pachinko machine 10 is set as 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 demonstration screen is displayed. It is good also as a structure which alert | reports the method and procedure to start. Further, during execution of the setting change mode, a method for changing the setting information in the setting change mode, a method for confirming the setting information, and a method for ending the setting change mode are displayed on the display screen of the symbol display device 41 or the speaker 46. It is good also as a structure which uses and alert | reports. According to such a configuration, even an administrator who is not familiar with the method of starting the pachinko machine 10 as the setting change mode and the operation method in the setting change mode can appropriately manage the pachinko machine 10. It becomes possible.

  Moreover, in the configuration in which the setting check mode can be executed among the above modes, the setting check of the pachinko machine 10 is performed using the display screen of the symbol display device 41 or the speaker 46 when the power is turned on or while the demonstration screen is displayed. It is good also as a structure which alert | reports the method and procedure to start as a mode. Moreover, it is good also as a structure which alert | reports the method to complete | finish a setting change mode using the display screen of the symbol display apparatus 41, or the speaker 46 during execution of setting confirmation mode. According to such a configuration, even an administrator who is not familiar with the method of starting the pachinko machine 10 as the setting confirmation mode or the method of ending the setting confirmation mode can appropriately manage the pachinko machine 10. Is possible.

<Aspect 1 21 >
Various functions described in the above embodiments (for example, a function for storing the number of game balls that enter each entrance, and a payout based on the number of game balls that enter each entrance) A function for calculating the number of played game balls, a function for storing the number of game balls paid out as a prize ball, a function for calculating game history information such as a ratio of bonuses, a function for storing calculated game history information, Configuration in which the game history management chip 300 realizes at least a part of functions such as a function of displaying stored game history information and a function of erasing various information stored in various storage means such as a RAM and a flash memory. The main CPU 62x (the main MPU 62 excluding the game history management chip 300) may be realized, or the inspection machine 320 may be realized. In addition, the game history management chip 300, the main CPU 62x (the main 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. It is good.

<Aspect 1 22 >
The first embodiment and the other aspects described above can be applied not only to the pachinko machine 10 but also to other types of gaming machines. For example, the present invention can also be applied to a spinning-type game machine such as a pachinko slot machine. Specifically, for example, the number of game medals obtained by winning at the time of a bonus, the number of game medals obtained by a child role drawn during a normal section, and an advantageous section (AT, ART) different from the bonus For a configuration in which a ratio with the number of obtained game medals is calculated and the ratio is displayed on a liquid crystal display device, or the ratio is output to an inspection machine and the ratio is displayed on a display unit of the inspection machine Can be applied.

<Aspect 1 23 >
In the first embodiment and the other aspects described above, a part or all of the functions realized by software (implemented by the CPU executing a program) may be realized by hardware. For example, the game history management chip 300 may be configured to include dedicated hardware designed to execute arithmetic processing for calculating game history information. According to such a configuration, it is possible to speed up the arithmetic processing for calculating the game history information, and it is possible to prevent the occurrence of fraud such as that the arithmetic program is illegally altered and correct game history information is not calculated. Can be suppressed. Note that the hardware may be configured with a digital circuit or an analog circuit. If it is composed of an analog circuit, it is possible to further speed up the arithmetic processing compared to a digital circuit.

<Aspect 1 24 >
May be adopted appropriately replaced or combined form one or more arrangements included aspects 12 3 from the first embodiment and the embodiment 1. May be combined with one or more configurations and included in the first embodiment and one or more configurations and embodiments other than the first embodiment included in the embodiments 1 23 from Embodiment 1 described above. Also, of the configuration included in the first embodiment and aspects 1 23 from embodiment 1 described above, not essential configuration can be omitted as appropriate within a range not departing from its gist.

B. Application to other configurations:
Other types of pachinko machines different from the above-described embodiments, such as pachinko machines that release a predetermined number of times when a game ball enters a specific area of a special device, or a game ball enters a specific area of a special device The present invention can also be applied to a pachinko machine that generates a right by generating a right, a pachinko machine equipped with another accessory, an arrangement ball machine, a sparrow ball and the like.

  Also, a non-ballistic gaming machine, for example, a plurality of reels with a plurality of types of symbols attached in the circumferential direction, the reel rotation is started by the insertion of medals and the operation of the start lever, and the stop switch is operated. If a specific symbol or a combination of specific symbols is established on the active line visible from the display window after the reel has stopped after a predetermined time has passed, a privilege such as paying out medals is given to the player The present invention can also be applied to a slot machine.

  In addition, the gaming machine main body supported by the outer frame so as to be openable / closable is provided with a storage unit and a capture device, and the start lever is operated after a predetermined number of game balls stored in the storage unit are captured by the capture device. Thus, the present invention can also be applied to a gaming machine in which a pachinko machine and a slot machine are fused, which starts rotating the reel.

  In addition, in the above embodiment, a part of the function realized by software may be realized by hardware, or a part of the function realized by hardware may be realized by software.

C. About the invention group extracted from each of the above embodiments, etc .:
Hereinafter, the characteristics of the invention group extracted from each of the above-described embodiments will be described while showing effects and the like as necessary. In the following, for easy understanding, the corresponding configuration in each of the above embodiments is appropriately shown in parentheses, but is not limited to the specific configuration shown in parentheses.

<Feature A group>
The feature A group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature A1]
Launching means for launching a game ball toward the game area (game ball launching mechanism 81);
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Process execution means (game history management chip 300) for executing a predetermined process;
A gaming machine comprising
The process execution means includes
Information storage means (register 304, calculation result storage memory 309) that is stored inside the casing of the gaming machine main body and that nonvolatilely stores detection information that is information acquired based on detection by the detection means. )When,
Transmission means (CPU 308) for transmitting information stored in the information storage means to a predetermined device connected to the gaming machine;
A gaming machine characterized by comprising:

  According to the characteristic A1, the process execution unit includes an information storage unit that non-volatilely stores detection information that is information acquired based on detection by the detection unit. Since the detection information is information having a correlation with the behavior of the game ball in the executed game, the detection information differs for each 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 the feature A1, the 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 in the housing of the gaming machine body. Thus, for example, when inspecting the characteristics of the gaming machine, the characteristics of the gaming machine can be inspected by obtaining detection information from the gaming machine body itself. When the gaming machine is installed in the gaming hall, the gaming machine can acquire information on the characteristics of the gaming machine using a hall computer installed in the gaming hall. However, since gaming machines circulate constantly, they may be placed in a state where they are not connected to the hall computer. In this case, conventional gaming machines may hold information on characteristics of the gaming machines. Can not. The gaming machine of feature A1 stores the detection information, which is information reflecting the characteristics of the gaming machine, in the information storage means of the processing execution means stored in the housing of the gaming machine body, so that the gaming machine is connected to the hall computer. Even in a state where the game machine is not connected, detection information can be acquired from the gaming machine main body. That is, the gaming machine of the feature A1 is a state in which the gaming machine and the detection information are always linked one-to-one regardless of the state of the gaming machine (a state installed in the gaming hall or a distribution state). It is possible to manage and inspect the characteristics of the gaming machine. As a result, the game soundness can be improved.

[Feature A2]
A gaming machine according to feature A1,
Provided with control means (main side CPU 62x) for controlling the execution of the game,
The gaming machine is characterized in that the processing execution means is operated by the same power source as the control means.

  According to the feature A2, since the processing execution means operates with the same power source as the control means, for example, when the gaming machine is installed in a gaming hall, information regarding the characteristics of the gaming machine is obtained by the hall computer. If there is a problem with the power system of the hall computer, or if there is a problem with the processing of the hall computer, if the situation is that power is 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, and if there is a problem with the power supply of the processing execution means, the detection information is acquired even though the game is being executed by the gaming machine. The problem that it cannot be done occurs. On the other hand, according to the feature A2, since the control unit and the processing execution unit are operated by the same power source, the detection information can be acquired without fail if the game is executable. Therefore, the reliability of detection information can be improved.

[Feature A3]
A gaming machine according to feature A1 or feature A2,
The information storage means stores the detection information for each period until a predetermined number (500) of game balls are detected by a predetermined detection means (discharge passage detection sensor 44h).

  According to the feature A3, since the detection information for each period until the predetermined number of game balls are detected by the predetermined detection means is stored, the time until the predetermined number of game balls are detected by each gaming machine varies. Even if there is, detection information that does not affect the variation in time can be acquired. That is, even when there is a difference in the frequency with which game balls are fired, it is possible to acquire highly accurate detection information that is not easily affected by the difference.

[Feature A4]
A gaming machine according to feature A1 or feature A2,
The gaming machine according to claim 1, wherein the information storage means stores the detection information for each preset period (every hour).

  According to the feature A4, the information storage unit stores the detection information for each predetermined period that is set in advance, so that statistical processing using the concept of time can be performed using the detection information.

[Feature A5]
A gaming machine according to feature A1 or feature A2,
The information storage means stores the detection information for each period from when the supply of power to the gaming machine is started until the power is turned off.

  According to feature A5, the information storage means stores detection information for each period from the start of the supply of power to the gaming machine until the interruption of the power, so that, for example, the gaming machine is stored in the gaming hall. If installed, detection information for each business day of the game hall can be acquired.

[Feature A6]
A gaming machine according to any one of features A1 to A5,
A payout means (payout device 71) for paying out a game ball as a prize ball based on the detection of the game ball by the detection means;
With
The process execution means includes
Prize ball number information for obtaining prize ball number information (prize ball number data), which is information relating to the number of game balls (number of prize balls) to be paid out from the payout means as prize balls set for each of the plurality of detection means. Acquisition means;
Calculation execution means (CPU 308) for executing a predetermined calculation based on the detection information and the prize ball number information;
With
The gaming machine according to claim 1, wherein the information storage means stores calculation result information that is information related to a calculation result (such as an accessory ratio) by the calculation execution means.

  According to the feature A6, the process execution means stores calculation result information. Since the calculation result information is information calculated based on the detection information and the number of prize balls, information regarding the number of prize balls paid out by the gaming machine is reflected. Therefore, according to the feature A6, it is possible to acquire the characteristics of the gaming machine regarding the paid-out prize ball. As a result, it is possible to manage the characteristics of the gaming machine relating to the paid-out prize balls.

<Feature B group>
The feature B group is extracted from the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature B1]
Control means (main CPU 62x) for controlling the execution of the game;
Calculation execution means (CPU 308) that executes calculation processing based on the first information acquired based on the executed game and the second information set in advance to acquire third information;
Information storage means for storing the third information in a nonvolatile manner (operation result storage memory 309);
A gaming machine comprising
The arithmetic execution means and the information storage means are operated by the same power source as the control means.

  According to the feature B1, the first information is information acquired based on the executed game, and the third information is information acquired based on the first information. Therefore, the third information includes information regarding the executed game. Therefore, since the information storage means stores the third information including the information related to the executed game, the information related to the game executed in the past using the third information stored in the information storage means. Is possible to get. Therefore, by using the third information, it is possible to manage the game characteristics of the gaming machine. And since the calculation execution means and the information storage means operate | move with the same power supply as a control means, if the power supply is supplied to the gaming machine, the third information can be acquired. If the calculation execution means and the information storage means and the control means are operated by different power sources, and if there is a problem with the power supply of the calculation execution means and the information storage means, the game is being executed by the gaming machine. Nevertheless, there is a problem that the third information cannot be acquired. On the other hand, according to the 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 can be executed. be able to. Therefore, the reliability of the third information can be improved. As a result, the inspection reliability of the gaming machine can be improved, and the game soundness can be improved.

[Feature B2]
A gaming machine according to feature B1,
A gaming machine comprising: transmission 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 the feature B2, since the transmission unit transmits the third information stored in the information storage unit to a predetermined device connected to the gaming machine, the third information is transmitted using the predetermined device. It becomes possible to manage the game-related characteristics of the used gaming machine.

[Feature B3]
A gaming machine according to Feature B1 or Feature B2,
Launching means for launching a game ball toward the game area (game ball launching mechanism 81);
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
A payout means (payout device 71) for paying out a game ball as a prize ball based on the detection of the game ball by the detection means;
With
The first information is information acquired based on detection by the detection means,
The second information is information relating to the number of game balls (number of prize balls) to be paid out from the payout means as prize balls set in each of the plurality of detection means,
The gaming machine according to claim 3, wherein the third information is information relating to the number of prize balls paid out by the gaming machine in the executed game.

  According to the feature B3, the third information is information related to 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 relating to the actually paid out prize ball.

<Feature C group>
The feature C group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature C1]
Control means (main CPU 62x) for controlling the execution of the game;
Information storage means (register 304, operation result storage memory 309) for storing the first information acquired based on the executed game in a nonvolatile manner;
A gaming machine comprising
The information storage means is stored in a housing (a substrate box to which a seal seal is attached) in which traces of opening and closing are left.

  According to the feature C1, the information storage means is stored inside the casing where the trace of opening and closing remains. Therefore, when physical contact is made with the information storage means, a trace of opening the case remains. Therefore, if the first information stored in the information storage unit is modified through physical contact with the information storage unit, it is possible to grasp the modification from the trace of the housing. Become. Therefore, unauthorized modification of the first information can be prevented. Since some gaming machines circulate in various ways, various external contacts are made in the process of being circulated, but the information storage means is stored inside the case where the opening and closing traces remain, so the gaming machine Even in a situation in which there is a continuous circulation, unauthorized modification of the first information by someone can be suppressed. In addition, since the first information is information acquired based on the executed game, it is possible to manage and inspect the game characteristics of the gaming machine using the first information. Therefore, according to the feature C1, it is possible to properly manage and inspect the gaming machine by preventing unauthorized modification of the first information reflecting the game-related characteristics of the gaming machine. As a result, the game soundness can be improved.

[Feature C2]
A gaming machine according to feature C1,
The information storage means operates with the same power source as the control means.

  According to the feature C2, since the information storage unit operates with the same power source as the control unit, the first information can be acquired in a situation where power is supplied to the gaming machine. If the information storage means and the control means are operated by different power sources, and there is a problem with the power supply of the information storage means, the first information will be executed despite the game being executed by the gaming machine. There is a problem that cannot be acquired. On the other hand, according to the feature C2, since the information storage means and the control means are operated by the same power source, the first information can be always obtained if the game is executable. Therefore, the reliability of the first information can be improved. As a result, the inspection reliability of the gaming machine can be improved, and the game soundness can be improved.

[Feature C3]
A gaming machine according to feature C1 or feature C2,
A gaming machine comprising: a transmission unit (CPU 308) that transmits the first information to a predetermined device (inspection machine 320) connected to the gaming machine.

  According to the feature C3, since the first information stored in the information storage means is provided to a predetermined device connected to the gaming machine, the first information is obtained using the predetermined device. It becomes possible to manage and inspect the game-related characteristics of the used gaming machine.

<Feature D group>
The feature D group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature D1]
Launching means for launching a game ball toward the game area (game ball launching mechanism 81);
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
A payout means (payout device 71) for paying out a game ball as a prize ball based on the detection of the game ball by the detection means;
First prize ball number information storage for storing prize ball number information (prize ball number data) which is information relating to the number of game balls (number of prize balls) to be paid out as prize balls set for each of the plurality of detection means. Means (main ROM 63);
Process execution means (game history management chip 300) for executing a predetermined process;
A gaming machine comprising
The process execution means includes
Prize ball number information acquisition means for acquiring the prize ball number information stored in the first prize ball number storage means;
Second prize ball number information storage means (award ball number data storage memory 306) for storing the prize ball number information acquired by the prize ball number information acquisition means;
Number information storage means (register 304) for storing information on the number of game balls detected by the detection means;
By executing a calculation based on the information on 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, Calculation execution means (CPU 308) for calculating game history information (such as an accessory ratio) that is information relating to the history of
Game history information storage means (operation result storage memory 309) for storing the game history information calculated by the calculation execution means;
A gaming machine characterized by comprising:

  In general, the award ball number information set in the gaming machine is set to a different value for each type (model) of the gaming machine.

  According to the feature D1, since the process 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 gaming machine. Even so, the process execution means can calculate correct game history information using the award ball number information set for each type of gaming machine.

  If the gaming machine is illegally modified, the calculated game history information may become an unnatural value different from the assumed value. Accordingly, the inspector of the gaming machine can appropriately determine whether or not the gaming machine has been illegally modified by confirming the gaming history information. As a result, the game soundness can be improved.

[Feature D2]
A gaming machine according to feature D1,
Prize ball number information transmitting means (CPU 62x) for transmitting a signal including the prize ball number information stored in the first prize ball number information storage means to the process execution means,
The said acquisition means acquires the said winning ball number information by receiving the said signal transmitted from the said winning ball number information transmission means. The game machine characterized by the above-mentioned.

  According to the feature D2, since the signal including the prize ball number information stored in the first prize ball number information storage unit is transmitted to the process execution unit, the process execution unit accesses the first prize ball number storage unit. Even if the configuration cannot be performed or the configuration in which the process execution means cannot grasp the storage position (memory address) of the prize ball number information stored in the first prize ball number storage means, the process execution means It is possible to acquire the prize ball number information stored in the first prize ball number storage means.

[Feature D3]
A gaming machine according to Feature D1 or Feature D2,
Game history information transmitting means (CPU 308) for transmitting the game history information stored in the game history information storage means to a predetermined device (inspection machine 320) connected to the gaming machine. To play.

  According to the feature D3, the game history information of the gaming machine is transmitted to the predetermined device, so that the predetermined device can display the game history information of the gaming machine. Then, the inspector of the gaming machine can check the game history information displayed on the predetermined device.

[Feature D4]
A gaming machine according to any one of features D1 to D3,
A gaming machine comprising display means (symbol display device 41) for displaying the game history information stored in the game history information storage means.

  According to the feature D4, since the game history information is displayed on the display unit of the gaming machine, the inspector of the gaming machine can use the gaming history of the gaming machine without using a dedicated device for checking the gaming history information. Information can be confirmed.

[Feature D5]
A gaming machine according to any one of features D1 to D4,
The launching unit is configured so as not to be able to launch a game ball until the processing execution unit completes storing the prize ball number information in the second prize ball number information storage unit. A gaming machine characterized by that.

  According to the feature D5, since the game ball is not fired until the storage of the prize ball number information in the second prize ball number information storage unit is completed, the game ball leaks from the calculation target of the game history information by the calculation execution unit. Can be suppressed.

<Feature E group>
The feature E group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature E1]
Launching means for launching a game ball toward the game area (game ball launching mechanism 81);
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
A payout means (payout device 71) for paying out a game ball as a prize ball based on the detection of the game ball by the detection means;
Process execution means (game history management chip 300) for executing a predetermined process;
A gaming machine comprising
The process execution means includes
Prize ball number information storage means (award ball number data) for storing prize ball number information (prize ball number data), which is information relating to the number of game balls (award ball number) to be paid out as a prize ball set for each of the plurality of detection means. Ball data storage memory 306);
Number information storage means (register 304) for storing information on the number of game balls detected by the detection means;
Each time the number of game balls (discharge passage passage number 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), Information relating to the history of the game by performing calculations based on the information on 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) for calculating the game history information (such as the ratio of the accessory),
Game history information storage means (operation result storage memory 309) for storing the game history information calculated by the calculation execution means;
A gaming machine characterized by comprising:

  According to the feature E1, since the game history information is calculated every time the number of game balls detected by the predetermined detection means reaches a specified value, until the number of game balls detected by each gaming machine reaches the specified value. Even if there is a variation in the time, the game history information that does not affect the variation in the time can be calculated. That is, even when there is a difference in the frequency at which game balls are detected, it is possible to calculate highly accurate game history information that is not easily affected by the difference. As a result, the inspector of the gaming machine can confirm the highly accurate gaming history information, and can appropriately determine whether or not the gaming machine has been illegally modified. As a result, the game soundness can be improved.

[Feature E2]
A gaming machine according to feature E1,
As a calculation execution condition that is a condition for executing the calculation, a first calculation execution condition storage unit (main-side ROM 63) that stores information on the predetermined detection unit (discharge passage detection sensor 44h) and the specified value (500 pieces). )
The process execution means includes
Calculation execution condition acquisition means for acquiring the calculation execution condition stored in the first calculation execution condition storage means;
Second calculation execution condition storage means (calculation execution condition storage memory 307) for storing the acquired calculation execution condition;
With
The calculation execution means executes the calculation when the calculation execution condition stored in the second calculation execution condition storage means is satisfied.

  When the type (model) of the gaming machine is different, the characteristics of the game are also different, so that the optimum conditions for executing the calculation for calculating the game history information are also different. For this reason, as the calculation execution conditions, different conditions are stored for each type (model) of gaming machine.

  According to the feature E2, since the process execution unit acquires the calculation execution condition stored in the first calculation execution condition storage unit, the calculation execution condition set for each type (model) of the gaming machine is established. Operations can be performed in some cases.

[Feature E3]
A gaming machine according to feature E1 or feature E2,
The process execution means includes
A gaming machine comprising: erase means for erasing information relating to the number of game balls stored in the number information storage means after the computation execution means has performed the computation.

  According to the feature E3, after the calculation execution unit executes the calculation, the information on the number of game balls stored in the number information storage unit is deleted, so that the information on the number of game balls is stored in the number information storage unit again. It becomes possible to do. Therefore, the storage capacity required for the number information storage means can be reduced.

[Feature E4]
A gaming machine according to any one of features E1 to E3,
Game history information transmitting means (CPU 308) for transmitting the game history information stored in the game history information storage means to a predetermined device (inspection machine 320) connected to the gaming machine. To play.

  According to the feature E4, since the game history information of the gaming machine is transmitted to the predetermined device, the predetermined device can display the game history information of the gaming machine. Then, the inspector of the gaming machine can check the game history information displayed on the predetermined device.

[Feature E5]
A gaming machine according to any one of features E1 to E4,
A gaming machine comprising display means (symbol display device 41) for displaying the game history information stored in the game history information storage means.

  According to the feature E5, since the game history information is displayed on the display unit of the gaming machine, the inspector of the gaming machine can use the gaming history of the gaming machine without using a dedicated device for checking the gaming history information. Information can be confirmed.

<Feature F group>
The feature F group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature F1]
Launching means for launching a game ball toward the game area (game ball launching mechanism 81);
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
A payout means (payout device 71) for paying out a game ball as a prize ball based on the detection of the game ball by the detection means;
Process execution means (game history management chip 300) for executing a predetermined process;
A gaming machine comprising
The process execution means includes
Prize ball number information storage means (award ball number data) for storing prize ball number information (prize ball number data), which is information relating to the number of game balls (award ball number) to be paid out as a prize ball set for each of the plurality of detection means. Ball data storage memory 306);
Number information storage means (register 304) for storing information on the number of game balls detected by the detection means;
Each time a predetermined time (one hour) elapses, based on information relating to 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) for calculating game history information (such as an accessory ratio), which is information related to the game history,
Game history information storage means (operation result storage memory 309) for storing the game history information calculated by the calculation execution means;
A gaming machine characterized by comprising:

  According to the feature F1, the game history information is calculated every time a predetermined time elapses, so the inspector of the gaming machine can check the game history information calculated by statistical processing using the concept of time, It is possible to appropriately determine whether or not the gaming machine has been tampered with. As a result, the game soundness can be improved.

[Feature F2]
The gaming machine according to Feature F1,
As a calculation execution condition that is a condition for executing the calculation, a first calculation execution condition storage unit (main-side ROM 63) that stores information related to a time interval for executing the calculation,
The process execution means includes
Calculation execution condition acquisition means for acquiring the calculation execution condition stored in the calculation execution condition storage means;
Second calculation execution condition storage means (calculation execution condition storage memory 307) for storing the acquired calculation execution condition;
With
The calculation execution means executes the calculation when the calculation execution condition stored in the second calculation execution condition storage means is satisfied.

  When the type (model) of the gaming machine is different, the characteristics of the game are also different, so that the optimum conditions for executing the calculation for calculating the game history information are also different. For this reason, as the calculation execution conditions, different conditions are stored for each type (model) of gaming machine.

  According to the feature F2, since the process execution unit acquires the calculation execution condition stored in the first calculation execution condition storage unit, the calculation execution condition set for each type (model) of the gaming machine is established. Operations can be performed in some cases.

[Feature F3]
A gaming machine according to Feature F1 or Feature F2,
A measuring means for measuring an elapsed time after the calculation is performed;
Determining means for determining whether or not a game is being played by the player;
With
The gaming machine is characterized by interrupting the measurement of the elapsed time during a period in which it is determined that the game is not being performed by the determination unit.

  According to the feature F3, in the period in which it is determined that the game is not performed, the measurement of the elapsed time since the calculation is interrupted, so that only the period in which the game is actually performed is targeted. History information can be calculated.

[Feature F4]
A gaming machine according to any one of features F1 to F3,
Game history information transmitting means (CPU 308) for transmitting the game history information stored in the game history information storage means to a predetermined device (inspection machine 320) connected to the gaming machine. To play.

  According to the feature F4, since the game history information of the gaming machine is transmitted to the predetermined device, the predetermined device can display the game history information of the gaming machine. Then, the inspector of the gaming machine can check the game history information displayed on the predetermined device.

[Feature F5]
The gaming machine according to any one of features F1 to F4,
A gaming machine comprising display means (symbol display device 41) for displaying the game history information stored in the game history information storage means.

  According to the feature F5, since the game history information is displayed on the display unit of the gaming machine, the inspector of the gaming machine can use the gaming history of the gaming machine without using a dedicated device for confirming the gaming history information. Information can be confirmed.

<Feature G group>
The feature G group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature G1]
Launching means for launching a game ball toward the game area (game ball launching mechanism 81);
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
A payout means (payout device 71) for paying out a game ball as a prize ball based on the detection of the game ball by the detection means;
Process execution means (game history management chip 300) for executing a predetermined process;
Monitoring means (power failure monitoring circuit 86) for monitoring the occurrence of power interruption;
A gaming machine comprising
The process execution means includes
Prize ball number information storage means (award ball number data) for storing prize ball number information (prize ball number data), which is information relating to the number of game balls (award ball number) to be paid out as a prize ball set for each of the plurality of detection means. Ball data storage memory 306);
Number information storage means (register 304) for storing information on the number of game balls detected by the detection means;
When the monitoring means detects the occurrence of power interruption, the information on 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) for calculating game history information (such as an accessory ratio) that is information related to a game history by executing a calculation based on
Game history information storage means (operation result storage memory 309) for storing the game history information calculated by the calculation execution means;
A gaming machine characterized by comprising:

  According to the feature G1, since the game history information is calculated when the occurrence of power interruption is detected, it is detected during the period from the start of power supply to the gaming machine until the occurrence of power interruption. The game history information can be calculated based on the number of game balls. That is, the game history information is calculated for each business day of the game hall since the game history information is calculated for each period from the start to the end of the game hall business. Therefore, the inspector of the gaming machine can easily grasp whether or not the characteristic of the gaming history information has changed across the business days of the gaming hall, so that the gaming machine has not been illegally modified. It becomes possible to judge appropriately. As a result, the game soundness can be improved.

[Feature G2]
A gaming machine according to feature G1,
A gaming machine comprising supply means (capacitor) for supplying power to the arithmetic execution means even after the power supply is cut off.

  According to the feature G2, since supply means for supplying power to the calculation execution means even after power interruption occurs, calculation of game history information by the calculation execution means and game history information storage means for game history information It is possible to reliably complete the storage in the memory.

[Feature G3]
A gaming machine according to Feature G1 or Feature G2,
Game history information transmitting means (CPU 308) for transmitting the game history information stored in the game history information storage means to a predetermined device (inspection machine 320) connected to the gaming machine. To play.

  According to the feature G3, the game history information of the gaming machine is transmitted to the predetermined device, so that the predetermined device can display the game history information of the gaming machine. Then, the inspector of the gaming machine can check the game history information displayed on the predetermined device.

[Feature G4]
A gaming machine according to any one of features G1 to G3,
A gaming machine comprising display means (symbol display device 41) for displaying the game history information stored in the game history information storage means.

  According to the feature G4, since the game history information is displayed on the display means of the gaming machine, the inspector of the gaming machine can use the gaming history of the gaming machine without using a dedicated device for confirming the gaming history information. Information can be confirmed.

<Feature H group>
The feature H group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature H1]
Launching means for launching a game ball toward the game area (game ball launching mechanism 81);
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
A payout means (payout device 71) for paying out a game ball as a prize ball based on the detection of the game ball by the detection means;
An informing means for informing in a predetermined case;
Process execution means (game history management chip 300) for executing a predetermined process;
A gaming machine comprising
The process execution means includes
Prize ball number information storage means (award ball number data) for storing prize ball number information (prize ball number data), which is information relating to the number of game balls (award ball number) to be paid out as a prize ball set for each of the plurality of detection means. Ball data storage memory 306);
Number information storage means (register 304) for storing information on the number of game balls detected by the detection means;
Based on the information on 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 which is information on game history A calculation means (CPU 308) for calculating (a ratio of an accessory, etc.);
Game history information storage means (operation result storage memory 309) for storing the game history information calculated by the calculation means;
With
The notifying means notifies when the game history information stored in the game history information storage means does not satisfy a predetermined condition.

  According to the feature H1, since the notification is made when the game history information does not satisfy the predetermined condition, the inspector of the gaming machine can easily find a gaming machine whose game history information does not satisfy the predetermined condition. it can. Then, by checking the game history information of the gaming machine, it is possible to determine whether or not the gaming machine has been tampered with. As a result, the game soundness can be improved.

[Feature H2]
A gaming machine according to feature H1,
The notification means notifies when a specific value (such as a payout ratio) included in the game history information stored in the game history information storage means is not included in a predetermined range. Machine.

  According to the feature H2, when the specific value included in the game history information is no longer included in the predetermined range, the inspector of the gaming machine has the specific value included in the game history information within the predetermined range. It is possible to easily find gaming machines that are no longer included in the list. Then, by checking the game history information of the gaming machine, it is possible to determine whether or not the gaming machine has been tampered with. As a result, the game soundness can be improved.

[Feature H3]
A gaming machine according to feature H2,
The informing means determines an informing mode (color of the LED lamp) according to the degree of deviation of the specific value from the predetermined range.

  According to the feature H3, since the notification mode is determined according to the degree of deviation from a predetermined range of a specific value, the inspector of the gaming machine can determine which specific value included in the game history information is within the predetermined range. It can be easily grasped whether there is a deviation.

[Feature H4]
A gaming machine according to any one of features H1 to H3,
The informing means includes display means for performing a predetermined display as the informing.

  According to the feature H4, since the display unit that performs a predetermined display as a notification is provided, the 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,
Game history information transmitting means (CPU 308) for transmitting the game history information stored in the game history information storage means to a predetermined device (inspection machine 320) connected to the gaming machine. To play.

  According to the feature H5, the gaming history information of the gaming machine is transmitted to the predetermined device, so that the predetermined device can display the gaming history information of the gaming machine. Then, the inspector of the gaming machine can check the game history information displayed on the predetermined device.

[Feature H6]
A gaming machine according to any one of features H1 to H5,
A gaming machine comprising display means (symbol display device 41) for displaying the game history information stored in the game history information storage means.

  According to the feature H6, since the game history information is displayed on the display unit of the gaming machine, the inspector of the gaming machine can use the gaming history of the gaming machine without using a dedicated device for confirming the gaming history information. Information can be confirmed.

<Feature I group>
The feature group I is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature I1]
Launching means for launching a game ball toward the game area (game ball launching mechanism 81);
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
A payout means (payout device 71) for paying out a game ball as a prize ball based on the detection of the game ball by the detection means;
Process execution means (game history management chip 300) for executing a predetermined process;
A gaming machine comprising
The process execution means includes
Prize ball number information storage means (award ball number data) for storing prize ball number information (prize ball number data), which is information relating to the number of game balls (award ball number) to be paid out as a prize ball set for each of the plurality of detection means. Ball data storage memory 306);
Every time a game ball is detected by the detection means, a ball entry information storage means (entrance information storage memory 309b) that sequentially stores the ball entry information, which is information indicating that the game ball has been detected by the detection means. When,
With respect to a predetermined device (inspection machine 320) connected to the gaming machine, the winning ball stored in the incoming ball information storage means and the winning ball number information storage means are stored in the winning ball information storage means. Transmitting means (CPU 308) for transmitting number information;
A gaming machine characterized by comprising:

  According to the feature I1, since the entry information and the winning ball number information are transmitted to the predetermined device, the predetermined device is information relating to the game history based on the entering information and the winning ball number information. The game history information can be calculated within an arbitrary range. Therefore, the inspector of the gaming machine can check the gaming history information of the gaming machine calculated within an arbitrary range by using a predetermined device, and appropriately check whether the gaming machine has been illegally modified. It becomes possible to judge. As a result, the game soundness can be improved.

[Feature I2]
A gaming machine according to feature I1,
Date and time information acquisition means (RTC 96) for acquiring date and time information that is information related to date and time,
The game machine characterized in that the entry information storage means stores the entry information by adding the date and time information corresponding to the date and time when the game ball was detected by the detection means.

  According to the feature I2, the predetermined device that has received the ball entry information with the date / time information added can calculate the game history information by designating the date / time range. Therefore, the inspector of the gaming machine can make a detailed inspection based on the game history information specifying the date and time range. In addition, if the predetermined device displays the ball entry information to which the date and time information is added, the inspector of the gaming machine can also grasp the date and time when the game ball is detected by each detection means. .

[Feature I3]
A gaming machine according to Feature I1 or Feature I2,
A gaming machine comprising display means (symbol display device 41) for displaying the entry information stored in the entry information storage means.

  According to the feature I3, since the entrance information is displayed on the display means of the gaming machine, the inspector of the gaming machine can enter the entrance of the gaming machine without using a dedicated device for confirming the entrance information. Information can be confirmed.

<Feature J group>
The feature J group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature J1]
Launching means for launching a game ball toward the game area (game ball launching mechanism 81);
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Prize ball number information storage means (main ball data) for storing prize ball number information (prize ball number data), which is information relating to the number of game balls to be paid out as prize balls set for each of the plurality of detection means (prize ball number data) Side ROM 63),
A game progression process (a winning lottery process, an electrification opening lottery process, a prize ball payout process, a symbol on the main display unit 45) that is a process for proceeding with a game based on the detection of the game ball by the detecting means. (Variable display processing, opening / closing processing of the door 36b and the electric accessory 34a, etc.) and the detection information of the game ball detected by the detection means and the prize ball stored in the prize ball number information storage means Processing execution means (main CPU 62x) for executing processing for calculating game history information (such as an accessory ratio) that is information related to the history of the game by performing an operation based on the number information;
Game history information storage means (main side RAM 64, flash memory 64x) for storing the game history information calculated by the processing execution means while being stored in the casing of the gaming machine main body;
A gaming machine comprising:

  According to the feature J1, game history information storage means for storing game history information is provided. Since the game history information is information having a correlation with the behavior of the game ball in the game, the game history information is different for each gaming machine and is information unique to the gaming machine. That is, the game history information is information reflecting the characteristics of the gaming machine. According to the feature J1, game history information, which is information reflecting the characteristics of the gaming machine, is stored in the gaming history information storage means stored in the housing of the gaming machine body. Thus, for example, when inspecting the characteristics of the gaming machine, it is possible to inspect the characteristics of the gaming machine by obtaining gaming history information from the gaming machine body itself. When the gaming machine is installed in the gaming hall, the gaming machine can acquire information on the characteristics of the gaming machine using a hall computer installed in the gaming hall. However, since gaming machines circulate frequently, they may be placed in a state where they are not connected to the hall computer. In this case, in a conventional gaming machine, it is possible to acquire information on characteristics of the gaming machine. Can not. The gaming machine of feature J1 stores gaming history information, which is information reflecting the characteristics of the gaming machine, in gaming history information storage means stored in the casing of the gaming machine body, so that the gaming machine is connected to the hall computer. Even if it is not in a state, game history information can be acquired from the gaming machine main body. That is, according to the feature J1, a gaming machine and gaming history information can be linked one-on-one, and the characteristics of the gaming machine can be managed and inspected. As a result, the game soundness can be improved.

  Furthermore, according to the feature J1, since the single process execution means executes the game progress process and the process of calculating the game history information, it is necessary to provide another arithmetic chip or the like for executing the calculation process. In addition, the manufacturing cost of the gaming machine can be reduced.

[Feature J2]
A gaming machine according to feature J1,
The process execution means includes
A first mode (game mode) that is a mode capable of executing the game progress process;
When the first condition is satisfied (when an operation of pressing the mode switching button is executed, when an operation of pressing the power button while pressing the mode switching button is executed, the inspection terminal 65 is connected to the inspection machine The second mode (inspection mode), which is a mode executed when 320 is connected, when a predetermined time comes, or when a predetermined signal is received from the hall computer;
Is possible and
In the second mode, the game machine is configured not to execute the game progress process even when the game ball passes through the predetermined area.

  According to the feature J2, since the second mode in which the game progress process is not executed can be executed even when the game ball passes a predetermined area, it is not preferable to execute it in parallel with the game progress process. In the second mode, it is possible to execute a process or a process that is likely to cause a problem when executed in parallel with the game progress process. Further, according to the feature J2, since the game progress process is not executed in the second mode, when the program of the process to be executed in the second mode is developed, the game progress process is executed in parallel. Since measures need not be taken into consideration, the development efficiency of a program for processing executed in the second mode can be greatly improved.

[Feature J3]
A gaming machine according to feature J2,
The gaming machine, wherein the second mode is a mode for outputting the gaming history information.

  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 that executes a process of outputting game history information in parallel with the game progress process is adopted, the game progress is performed while the inspector of the gaming machine inspects the characteristics of the gaming machine with the game history information. When the process is executed, the content of the game history information may change at any time, and it may be difficult to perform the inspection smoothly. On the other hand, according to the feature J3, since the game history information is output in the second mode in which the game progress process is not executed even when the game ball passes a predetermined area, the game history information is output. The content of the game history information can be prevented from changing during the game. As a result, the inspector of the gaming machine can perform the inspection smoothly.

[Feature J4]
A gaming machine according to any one of features J1 to J3,
The process execution means includes
A first mode (game mode) that is a mode capable of executing the game progress process;
When the first condition is satisfied (when an operation of pressing the mode switching button is executed, when an operation of pressing the power button while pressing the mode switching button is executed, the inspection terminal 65 is connected to the inspection machine The second mode (inspection mode), which is a mode executed when 320 is connected, when a predetermined time comes, or when a predetermined signal is received from the hall computer;
Is possible and
When the first condition is satisfied during execution of the game progress process in the first mode (when the operation of pressing the mode switching button is performed, the power button is pressed while pressing the mode switching button. When the operation is performed, when the inspection machine 320 is connected to the inspection terminal 65, or when a predetermined time comes, the timing at which the second condition is satisfied (the symbol variation display process ends) Transition from the first mode to the second mode at the timing when the game progress process such as the completed timing is completed up to a predetermined processing stage, the timing when all of the game progress processes being executed are completed) A gaming machine characterized by being configured to do so.

  According to the feature J4, when the first condition is satisfied in the first mode, the first mode is shifted to the second mode at the timing when the second condition is satisfied. Therefore, the second mode is compared with the configuration in which the first mode is shifted to the second mode at the timing immediately after the first condition is satisfied regardless of whether or not the second condition is satisfied. It is possible to suppress the occurrence of problems in processing when shifting to.

  For example, if a configuration is adopted in which the first mode is shifted to the second mode at the timing immediately after the first condition is satisfied regardless of whether or not the second condition is satisfied, If the first condition that the predetermined operation is executed during the period in which the symbol variation display process as the game progress process is being executed in the mode of the game, the second is displayed in the middle of the symbol variation display. This makes it difficult to control the timing of symbol stop and the time for symbol change. On the other hand, according to the feature J4, for example, the first condition that a predetermined operation is executed during the period in which the symbol variation display process as the game progress process is executed in the first mode is If it is established, the second mode is entered at the timing when the second condition that the symbol variation display process is not executed, that is, the timing after the symbol during variation display is stopped. . Therefore, it is possible to suppress the occurrence of processing problems such as difficulty in controlling the timing of symbol stop and control of symbol variation time.

[Feature J5]
A gaming machine according to any one of features J1 to J4,
The process execution means includes
A first mode (game mode) that is a mode capable of executing the game progress process;
When the first condition is satisfied (when an operation of pressing the mode switching button is executed, when an operation of pressing the power button while pressing the mode switching button is executed, the inspection terminal 65 is connected to the inspection machine The second mode (inspection mode), which is a mode executed when 320 is connected, when a predetermined time comes, or when a predetermined signal is received from the hall computer;
Is possible and
When the third condition is satisfied during the second mode (when 10 minutes have passed since the transition to the inspection mode), an operation for shifting from the second mode to the first mode Even if the transition operation (operation of pressing the mode switching button, operation of pressing the power button while pressing the mode switching button) is not executed, the first mode is switched from the second mode to the first mode. A gaming machine characterized by being configured to enter a mode.

  According to the feature J5, when the third condition is satisfied during the second mode, even if the transition operation for shifting from the second mode to the first mode is not executed, Since it is configured to shift from the second mode to the first mode, it is possible to prevent the transition operation from being performed and not returning to the first mode. For example, after the transition to the second mode, the administrator or inspector of the gaming machine forgets to perform the transition operation, and the gaming machine does not return to the first mode in which the game progress process can be executed, It is possible to suppress the occurrence of a situation where a person cannot play a game with the gaming machine.

[Feature J6]
A gaming machine according to feature J5,
The third condition is that a predetermined time elapses from a predetermined time (10 minutes elapses from the time of transition to the inspection mode).

  According to feature J6, when a predetermined time has elapsed from a predetermined time during the second mode, a transition operation for shifting from the second mode to the first mode is not performed. However, since it is configured to shift from the second mode to the first mode, it is possible to reliably prevent the transition operation from being performed and not returning to the first mode. For example, even if the administrator of the gaming machine, the inspector, etc. forget to execute the transition operation after the transition to the second mode, if the predetermined time elapses from the predetermined time, the first Since returning to the mode, it is possible to suppress the occurrence of a situation in which the gaming machine does not return to the first mode in which the game progress process can be executed and the player cannot play a game with the gaming machine.

[Feature J7]
A gaming machine according to any one of features J1 to J6,
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 related to the game progress processing;
Based on the execution of an erasing operation (an operation of pressing the power button while pressing the RAM clear button), which is an operation for erasing information stored in the game progress processing information storage means Erasing means for erasing information stored in the progress processing information storage means;
With
The process execution means includes
A first mode (game mode) that is a mode capable of executing the game progress process;
When the first condition is satisfied (when an operation of pressing the mode switching button is executed, when an operation of pressing the power button while pressing the mode switching button is executed, the inspection terminal 65 is connected to the inspection machine The second mode (inspection mode), which is a mode executed when 320 is connected, when a predetermined time comes, or when a predetermined signal is received from the hall computer;
Is possible and
In the state after the transition to the second mode and before the transition to the first mode (the state in the inspection mode, the state where the power is turned off as it is after the transition to the inspection mode), Even if it is a case where the said erasure | elimination operation is performed, it is comprised so that the information memorize | stored in the said game progress process information storage means may not be erased.

  According to the feature J7, in the state after the transition to the second mode and before the transition to the first mode, an erasing operation for erasing the information stored in the game progress processing information storage means is executed. Even if it is a case, since the information memorize | stored in the game progress process information memory | storage means is not erase | eliminated, in the state after transfering to 2nd mode and before shifting to 1st mode, it is set to 1st mode. Even when an erasing operation is mistakenly executed in an attempt to shift, it is possible to prevent the information from being erased by mistake.

  For example, the erasing operation for erasing the information stored in the game progress processing information storage means is an operation of pressing the power button while pressing the erasing button, and the first mode and the second mode In the configuration in which the operation for shifting the mode between the two modes is an operation of pressing the power button while pressing the transition button, the transition button is tried to shift from the second mode to the first mode. Although the user intends to press the power button while pressing, there is a risk that the power button will be pressed by mistake while pressing the delete button. However, according to the feature J7, in the state after the transition to the second mode but before the transition to the first mode, an operation of erroneously pressing the power button while pressing the delete button is executed. Even if it is a case, it can suppress that the said information is deleted accidentally.

  More specifically, for example, when shifting from the first mode to the second mode, the game progress process executed in the first mode is temporarily stopped and the stopped game progress process is performed. In the case of adopting a configuration in which information for resuming the game after returning to the second mode is stored in the game progress processing information storage means, a transition button is pressed to return to the first mode from the second mode. If you intend to press the power button while pressing, but accidentally press the power button while pressing the delete button, the information for resuming the game progress process will be deleted. After returning to this mode, the game progress process cannot be resumed, which may cause a disadvantage to the player. On the other hand, according to the feature J7, in the state after the transition to the second mode and before the transition to the first mode, the erasing button is erroneously pressed to shift to the first mode. However, even if the power button is pressed, information stored in the game progress processing information storage means can be prevented from being accidentally erased. Can be suppressed.

[Feature J8]
A gaming machine according to any one of features J1 to J7,
A gaming machine comprising display means (symbol display device 41) for displaying the game history information.

  According to the feature J8, since the game history information is displayed on the display means of the gaming machine, the inspector of the gaming machine can use the gaming history of the gaming machine without using a dedicated device for confirming the gaming history information. Information can be confirmed.

[Feature J9]
A gaming machine according to any one of features J1 to J8,
The game history information storage means is constituted by a non-volatile memory (flash memory 64x) that can retain the memory even when power supply is cut off.

  According to the feature J9, since the game history information is retained even if the power supply to the gaming machine is cut off, the gaming machine is placed in any state (for example, a distribution state where power is not supplied to the gaming machine). However, the gaming machine and the game history information can always be in a one-to-one relationship, and the characteristics of the gaming machine can be managed and inspected.

[Feature J10]
A gaming machine according to any one of features J1 to J9,
The gaming machine is characterized in that the game history information storage means is stored inside a casing (a substrate box to which a seal seal is attached) in which traces of opening and closing remain.

  According to the feature J10, game history information storage means is stored in the inside of the case where the opening / closing trace remains. Therefore, when physical contact is made with the game history information storage means, a trace of opening the case remains. Therefore, if the game history information stored in the game history information storage means is modified through physical contact with the game history information storage means, the fact that it has been modified is grasped from the trace of the housing. Is possible. Therefore, unauthorized modification of game history information can be prevented. Since some gaming machines circulate in various ways, various external contacts are made in the process of being distributed, but since the game history information storage means is stored inside the casing where traces of opening and closing remain, Even in a situation where game machines are constantly circulating, it is possible to suppress unauthorized modification of game history information by somebody. In addition, since the game history information is information acquired based on the executed game, it is possible to manage and inspect the characteristics of the gaming machine using the game history information. Therefore, according to the feature J10, the gaming machine can be appropriately managed and inspected by preventing unauthorized modification of the gaming history information reflecting the gaming-related characteristics of the gaming machine. As a result, the game soundness can be improved.

[Feature J11]
A gaming machine according to any one of features J1 to J10,
A gaming machine comprising: notification means for notifying when the game history information stored in the game history information storage means does not satisfy a predetermined condition.

  According to the feature J11, since the notification is made when the game history information does not satisfy the predetermined condition, the inspector of the gaming machine can easily find the gaming machine whose game history information does not satisfy the predetermined condition. it can. Then, by checking the game history information of the gaming machine, it is possible to determine whether or not the gaming machine has been tampered with. As a result, the game soundness can be improved.

[Feature J12]
A gaming machine described in feature J11,
The notification means notifies when a specific value (such as a payout ratio) included in the game history information stored in the game history information storage means is not included in a predetermined range. Machine.

  According to the feature J12, when the specific value included in the game history information is no longer included in the predetermined range, the inspector of the gaming machine has the specific value included in the game history information within the predetermined range. It is possible to easily find gaming machines that are no longer included in the list. Then, by checking the game history information of the gaming machine, it is possible to determine whether or not the gaming machine has been tampered with. As a result, the game soundness can be improved.

[Feature J13]
A gaming machine described in feature J12,
The informing means determines an informing mode (color of the LED lamp) according to the degree of deviation of the specific value from the predetermined range.

  According to the feature J13, since the mode of notification is determined according to the degree of deviation of a specific value from a predetermined range, the inspector of the gaming machine can determine which specific value included in the game history information It can be easily grasped whether there is a deviation.

[Feature J14]
A gaming machine according to any one of features J11 to J13,
The informing means includes display means for performing a predetermined display as the informing.

  According to the feature J14, since the display unit that performs a predetermined display as a notification is provided, the 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 the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature K1]
Launching means for launching a game ball toward the game area (game ball launching mechanism 81);
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
A game progression process (a winning lottery process, an electrification opening lottery process, a prize ball payout process, a symbol on the main display unit 45) that is a process for proceeding with a game based on the detection of the game ball by the detecting means. Game progress processing execution means (main-side CPU 62x) for executing fluctuation display processing, opening / closing processing of the door 36b and the electric accessory 34a, and the like;
With
The game progress process execution means includes
A first mode (game mode) that is a mode capable of executing the game progress process;
When a predetermined condition is satisfied (when an operation of pressing the mode switching button is performed, when an operation of pressing the power button while pressing the mode switching button is performed, the inspection machine 320 is connected to the inspection terminal 65. A second mode (inspection mode), which is a mode executed when a predetermined signal is received from the hall computer)
Is possible and
In the second mode, the game machine is configured not to execute the game progress process even when the game ball passes through the predetermined area.

  According to the feature K1, it is possible to execute the second mode in which the game progress process is not executed even when the game ball passes a predetermined area, and therefore it is not preferable to execute it in parallel with the game progress process. In the second mode, it is possible to execute a process or a process that is likely to cause a problem when executed in parallel with the game progress process. Further, according to the feature K1, since the game progress process is not executed in the second mode, when the program of the process to be executed in the second mode is developed, the game progress process is executed in parallel. Since measures need not be taken into consideration, the development efficiency of a program for processing executed in the second mode can be greatly improved.

[Feature K2]
A gaming machine according to the feature K1,
Detection information (game information including game information, information about the number of games entered, and ratios of game objects, etc.) that is stored in the casing of the gaming machine main body and is information based on the fact that a game ball has been detected by the detection means ) Storage means (calculation result storage memory 309, incoming ball number storage memory 309a, incoming ball information storage memory 309b, main RAM 64, flash memory 64x),
The gaming machine, wherein the second mode is a mode for outputting the detection information.

  According to the feature K2, the detection information can be stored and the detection information can be output in the second mode. Since the detection information is information having a correlation with the behavior of the game ball in the game, the detection information differs for each 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 the feature K2, the detection information, which is information reflecting the characteristics of the gaming machine, is stored in the storage means stored in the casing of the gaming machine body. Thus, for example, when inspecting the characteristics of the gaming machine, the characteristics of the gaming machine can be inspected by obtaining detection information from the gaming machine body itself. When the gaming machine is installed in the gaming hall, the gaming machine can acquire information on the characteristics of the gaming machine using a hall computer installed in the gaming hall. However, since gaming machines circulate frequently, they may be placed in a state where they are not connected to the hall computer. In this case, in a conventional gaming machine, it is possible to acquire information on characteristics of the gaming machine. Can not. The gaming machine of feature K2 stores the detection information, which is information reflecting the characteristics of the gaming machine, in the storage means stored in the casing of the gaming machine body, so that the gaming machine is not connected to the hall computer. Even if it exists, detection information can be acquired from the said gaming machine main body. That is, according to the feature K2, a gaming machine and detection information can be linked in a one-to-one relationship, and the characteristics of the gaming machine can be managed and inspected. As a result, the game soundness can be improved.

  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 for executing the process of outputting the detection information in parallel with the game progress process is adopted, the game progress process is performed while the inspector of the game machine inspects the characteristics of the game machine by the detection information. When it is executed, the content of the detection information may change from time to time, and it may be difficult to carry out the inspection smoothly. On the other hand, according to the feature K2, the detection information is output because the detection information is output in the second mode in which the game progress process is not executed even when the game ball passes through the predetermined area. It can suppress that the content of the said detection information changes in the meantime. As a result, the inspector of the gaming machine can perform the inspection smoothly.

[Feature K3]
A gaming machine according to feature K2,
A gaming machine comprising display means (symbol display device 41) for displaying the detection information output in the second mode.

  According to the feature K3, since the detection information is displayed on the display unit of the gaming machine, the inspector of the gaming machine can check the detection information of the gaming machine without using a dedicated device for checking the detection information. can do.

[Feature K4]
A gaming machine according to feature K2 or feature K3,
The storage means is a non-volatile memory that can hold the memory even when the power supply is cut off (the calculation result storage memory 309, the number-of-balls storage memory 309a, the ball-entry information storage memory 309b, the flash A gaming machine comprising a memory 64x).

  According to the feature K4, since the detection information is retained even if the power supply to the gaming machine is cut off, the gaming machine is placed in any state (for example, a distribution state where power is not supplied to the gaming machine). In addition, the gaming machine and the detection information can always be in a one-to-one relationship, and the characteristics of the gaming machine can be managed and inspected.

[Feature K5]
A gaming machine according to any one of features K2 to K4,
The gaming machine is characterized in that the storage means is stored inside a casing (a substrate box to which a seal seal is affixed) where traces of opening and closing are left.

  According to the feature K5, the storage unit is stored inside the casing where the opening and closing traces remain. Therefore, when the storage means is physically contacted, a trace of opening the housing remains. Therefore, if the detection information stored in the storage unit is modified through physical contact with the storage unit, it can be grasped from the trace of the housing. Therefore, unauthorized modification of detection information can be prevented. Since some gaming machines circulate constantly, various external contacts are made in the process of being distributed, but since the storage means is stored inside the case where the opening and closing traces remain, the gaming machine Even in a situation where the information is constantly circulated, it is possible to suppress unauthorized modification of detection information by somebody. In addition, since the detection information is information acquired based on the executed game, it is possible to manage and inspect the game characteristics of the gaming machine using the detection information. Therefore, according to the feature K5, it is possible to properly manage and inspect the gaming machine by preventing unauthorized modification of the detection information that reflects the gaming-related characteristics of the gaming machine. As a result, the game soundness can be improved.

[Feature K6]
A gaming machine according to any one of features K2 to K5,
A gaming machine comprising: notification means for notifying when the detection information stored in the storage means does not satisfy a predetermined condition.

  According to the feature K6, since the notification is made when the detection information does not satisfy the predetermined condition, the inspector of the gaming machine can easily find the gaming machine whose detection information does not satisfy the predetermined condition. Then, by confirming the detection information of the gaming machine, it is possible to determine whether or not the gaming machine has been tampered with. As a result, the game soundness can be improved.

[Feature K7]
A gaming machine according to Feature K6,
The notifying means notifies when a specific value (such as a payout ratio) included in the detection information stored in the storage means is not included in a predetermined range.

  According to the feature K7, when the specific value included in the detection information is not included in the predetermined range, the inspector of the gaming machine includes the specific value included in the detection information in the predetermined range. Easily find gaming machines that are no longer available. Then, by confirming the detection information of the gaming machine, it is possible to determine whether or not the gaming machine has been tampered with. As a result, the game soundness can be improved.

[Feature K8]
A gaming machine according to feature K7,
The informing means determines an informing mode (color of the LED lamp) according to the degree of deviation of the specific value from the predetermined range.

  According to the feature K8, the notification mode is determined according to the degree of deviation of the specific value from the predetermined range, so the inspector of the gaming machine can determine how much the specific value included in the detection information is within the predetermined range. It is possible to easily grasp whether there is a divergence.

[Feature K9]
A gaming machine according to any one of features K6 to K8,
The informing means includes display means for performing a predetermined display as the informing.

  According to the feature K9, since the display unit that performs a predetermined display as notification is provided, the inspector of 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 the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature L1]
Launching means for launching a game ball toward the game area (game ball launching mechanism 81);
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
A game progression process (a winning lottery process, an electrification opening lottery process, a prize ball payout process, a symbol on the main display unit 45) that is a process for proceeding with a game based on the detection of the game ball by the detecting means. Game progress processing execution means (main-side CPU 62x) for executing fluctuation display processing, opening / closing processing of the door 36b and the electric accessory 34a, and the like;
With
The game progress process execution means includes
A first mode (game mode) that is a mode capable of executing the game progress process;
When the first condition is satisfied (when an operation of pressing the mode switching button is executed, when an operation of pressing the power button while pressing the mode switching button is executed, the inspection terminal 65 is connected to the inspection machine The second mode (inspection mode), which is a mode executed when 320 is connected, when a predetermined time comes, or when a predetermined signal is received from the hall computer;
Is possible and
When the first condition is satisfied during execution of the game progress process in the first mode (when the operation of pressing the mode switching button is performed, the power button is pressed while pressing the mode switching button. When the operation is performed, when the inspection machine 320 is connected to the inspection terminal 65, or when a predetermined time comes, the timing at which the second condition is satisfied (the symbol variation display process ends) Transition from the first mode to the second mode at the timing when the game progress process such as the completed timing is completed up to a predetermined processing stage, the timing when all of the game progress processes being executed are completed) A gaming machine characterized by being configured to do so.

  According to the feature L1, when the first condition is satisfied in the first mode, the first mode is shifted to the second mode at the timing when the second condition is satisfied. Therefore, the second mode is compared with the configuration in which the first mode is shifted to the second mode at the timing immediately after the first condition is satisfied regardless of whether or not the second condition is satisfied. It is possible to suppress the occurrence of problems in processing when shifting to.

  For example, if a configuration is adopted in which the first mode is shifted to the second mode at the timing immediately after the first condition is satisfied regardless of whether or not the second condition is satisfied, If the first condition that the predetermined operation is executed during the period in which the symbol variation display process as the game progress process is being executed in the mode of the game, the second is displayed in the middle of the symbol variation display. This makes it difficult to control the timing of symbol stop and the time for symbol change. On the other hand, according to the feature L1, for example, the first condition that a predetermined operation is executed during the period in which the symbol variation display process as the game progress process is executed in the first mode is If it is established, the second mode is entered at the timing when the second condition that the symbol variation display process is not executed, that is, the timing after the symbol during variation display is stopped. . Therefore, it is possible to suppress the occurrence of processing problems such as difficulty in controlling the timing of symbol stop and control of symbol variation time.

[Feature L2]
A gaming machine according to feature L1,
Detection information (game information including game information, information about the number of games entered, and ratios of game objects, etc.) that is stored in the casing of the gaming machine main body and is information based on the fact that a game ball has been detected by the detection means ) Storage means (calculation result storage memory 309, incoming ball number storage memory 309a, incoming ball information storage memory 309b, main RAM 64, flash memory 64x),
The gaming machine, wherein the second mode is a mode for outputting the detection information.

  According to the feature L2, it is possible to store the detection information and output the detection information in the second mode. Since the detection information is information having a correlation with the behavior of the game ball in the game, the detection information differs for each 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 the feature L2, the detection information which is information reflecting the characteristics of the gaming machine is stored in the storage means stored in the casing of the gaming machine main body. Thus, for example, when inspecting the characteristics of the gaming machine, the characteristics of the gaming machine can be inspected by obtaining detection information from the gaming machine body itself. When the gaming machine is installed in the gaming hall, the gaming machine can acquire information on the characteristics of the gaming machine using a hall computer installed in the gaming hall. However, since gaming machines circulate frequently, they may be placed in a state where they are not connected to the hall computer. In this case, in a conventional gaming machine, it is possible to acquire information on characteristics of the gaming machine. Can not. The gaming machine of feature L2 stores the detection information, which is information reflecting the characteristics of the gaming machine, in the storage means stored in the casing of the gaming machine body, so that the gaming machine is not connected to the hall computer. Even if it exists, detection information can be acquired from the said gaming machine main body. That is, according to the feature L2, the gaming machine and the detection information can be in a one-to-one relationship, and the characteristics of the gaming machine can be managed and inspected. As a result, the game soundness can be improved.

[Feature L3]
A gaming machine according to feature L2,
A gaming machine comprising display means (symbol display device 41) for displaying the detection information output in the second mode.

  According to the feature L3, since the detection information is displayed on the display unit of the gaming machine, the inspector of the gaming machine can check the detection information of the gaming machine without using a dedicated device for checking the detection information. can do.

[Feature L4]
The gaming machine according to the feature L2 or the feature L3,
The storage means is a non-volatile memory that can hold the memory even when the power supply is cut off (the calculation result storage memory 309, the number-of-balls storage memory 309a, the ball-entry information storage memory 309b, the flash A gaming machine comprising a memory 64x).

  According to the feature L4, since the detection information is retained even when the supply of power to the gaming machine is cut off, the gaming machine is placed in any state (for example, a distribution state where power is not supplied to the gaming machine). In addition, the gaming machine and the detection information can always be in a one-to-one relationship, 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,
The gaming machine is characterized in that the storage means is stored inside a casing (a substrate box to which a seal seal is affixed) where traces of opening and closing are left.

  According to the feature L5, the storage unit is stored inside the casing where the opening and closing traces remain. Therefore, when the storage means is physically contacted, a trace of opening the housing remains. Therefore, if the detection information stored in the storage unit is modified through physical contact with the storage unit, it can be grasped from the trace of the housing. Therefore, unauthorized modification of detection information can be prevented. Since some gaming machines circulate constantly, various external contacts are made in the process of being distributed, but since the storage means is stored inside the case where the opening and closing traces remain, the gaming machine Even in a situation where the information is constantly circulated, it is possible to suppress unauthorized modification of detection information by somebody. In addition, since the detection information is information acquired based on the executed game, it is possible to manage and inspect the game characteristics of the gaming machine using the detection information. Therefore, according to the feature L5, it is possible to properly manage and inspect the gaming machine by preventing unauthorized modification of the detection information that reflects the gaming-related characteristics of the gaming machine. As a result, the game soundness can be improved.

[Feature L6]
The gaming machine according to any one of features L2 to L5,
A gaming machine comprising: notification means for notifying when the detection information stored in the storage means does not satisfy a predetermined condition.

  According to the feature L6, since the notification is made when the detection information does not satisfy the predetermined condition, the inspector of the gaming machine can easily find the gaming machine whose detection information does not satisfy the predetermined condition. Then, by confirming the detection information of the gaming machine, it is possible to determine whether or not the gaming machine has been tampered with. As a result, the game soundness can be improved.

[Feature L7]
A gaming machine according to Feature L6,
The notifying means notifies when a specific value (such as a payout ratio) included in the detection information stored in the storage means is not included in a predetermined range.

  According to the feature L7, when the specific value included in the detection information is not included in the predetermined range, the inspector of the gaming machine includes the specific value included in the detection information in the predetermined range. Easily find gaming machines that are no longer available. Then, by confirming the detection information of the gaming machine, it is possible to determine whether or not the gaming machine has been tampered with. As a result, the game soundness can be improved.

[Feature L8]
The gaming machine according to Feature L7,
The informing means determines an informing mode (color of the LED lamp) according to the degree of deviation of the specific value from the predetermined range.

  According to the feature L8, since the notification mode is determined according to the degree of deviation of the specific value from the predetermined range, the inspector of the gaming machine can determine how much the specific value included in the detection information is within the predetermined range. It is possible to easily grasp whether there is a divergence.

[Feature L9]
The gaming machine according to any one of features L6 to L8,
The informing means includes display means for performing a predetermined display as the informing.

  According to the feature L9, since the display unit that performs a predetermined display as a notification is provided, the inspector of 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, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature M1]
Launching means for launching a game ball toward the game area (game ball launching mechanism 81);
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
A game progression process (a winning lottery process, an electrification opening lottery process, a prize ball payout process, a symbol on the main display unit 45) that is a process for proceeding with a game based on the detection of the game ball by the detecting means. Game progress processing execution means (main-side CPU 62x) for executing fluctuation display processing, opening / closing processing of the door 36b and the electric accessory 34a, and the like;
With
The game progress process execution means includes
A first mode (game mode) that is a mode capable of executing the game progress process;
When the first condition is satisfied (when an operation of pressing the mode switching button is executed, when an operation of pressing the power button while pressing the mode switching button is executed, the inspection terminal 65 is connected to the inspection machine The second mode (inspection mode), which is a mode executed when 320 is connected, when a predetermined time comes, or when a predetermined signal is received from the hall computer;
Is possible and
When the second condition is satisfied during the second mode (when 10 minutes have passed since the transition to the inspection mode), a predetermined value for shifting from the second mode to the first mode Even if the operation (the operation of pressing the mode switching button, the operation of pressing the power button while pressing the mode switching button) is not executed, the second mode is changed to the first mode. A gaming machine that is configured to migrate.

  According to the feature M1, when the second condition is satisfied during the second mode, even if a predetermined operation for shifting from the second mode to the first mode is not executed. Since it is configured to shift from the second mode to the first mode, it is possible to prevent a predetermined operation from being performed and not returning to the first mode. For example, after the transition to the second mode, the administrator or inspector of the gaming machine forgets to perform a predetermined operation, the gaming machine does not return to the first mode in which the game progress process can be performed, Occurrence of a situation in which the player cannot play a game with the gaming machine can be suppressed.

[Feature M2]
A gaming machine according to the feature M1,
The gaming machine according to claim 2, wherein the second condition is that a predetermined time elapses from a predetermined time point (10 minutes elapses from the time of transition to the inspection mode).

  According to the feature M2, when a predetermined time has elapsed from a predetermined time point during the second mode, a predetermined operation for shifting from the second mode to the first mode is not executed. Even if it exists, since it is comprised so that it may transfer to 1st mode from 2nd mode, it can suppress reliably that it does not perform predetermined operation but does not return to 1st mode. For example, even if the administrator or inspector of the gaming machine has forgotten to perform a predetermined operation after the transition to the second mode, the first is performed if a predetermined time elapses from a predetermined time point. Therefore, 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 cannot play a game with the game machine.

[Feature M3]
A gaming machine according to the feature M1 or the feature M2,
Detection information (game information including game information, information about the number of games entered, and ratios of game objects, etc.) that is stored in the casing of the gaming machine main body and is information based on the fact that a game ball has been detected by the detection means ) Storage means (calculation result storage memory 309, incoming ball number storage memory 309a, incoming ball information storage memory 309b, main RAM 64, flash memory 64x),
The gaming machine, wherein the second mode is a mode for outputting the detection information.

  According to the feature M3, the detection information can be stored and the detection information can be output in the second mode. Since the detection information is information having a correlation with the behavior of the game ball in the game, the detection information differs for each 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 the feature M3, the detection information that is information reflecting the characteristics of the gaming machine is stored in the storage means stored in the casing of the gaming machine main body. Thus, for example, when inspecting the characteristics of the gaming machine, the characteristics of the gaming machine can be inspected by obtaining detection information from the gaming machine body itself. When the gaming machine is installed in the gaming hall, the gaming machine can acquire information on the characteristics of the gaming machine using a hall computer installed in the gaming hall. However, since gaming machines circulate frequently, they may be placed in a state where they are not connected to the hall computer. In this case, in a conventional gaming machine, it is possible to acquire information on characteristics of the gaming machine. Can not. The gaming machine of feature M3 stores the detection information, which is information reflecting the characteristics of the gaming machine, in the storage means stored in the casing of the gaming machine body, so that the gaming machine is not connected to the hall computer. Even if it exists, detection information can be acquired from the said gaming machine main body. That is, according to the feature M3, the gaming machine and the detection information can be linked in a one-to-one relationship, and the characteristics of the gaming machine can be managed and inspected. As a result, the game soundness can be improved.

  Further, according to the 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, the execution of the predetermined operation is forgotten, and the gaming machine It is possible to suppress the occurrence of a situation in which the player cannot play a game with the gaming machine without returning to the first mode in which the progress process can be executed.

[Feature M4]
A gaming machine according to feature M3,
A gaming machine comprising display means (symbol display device 41) for displaying the detection information output in the second mode.

  According to the feature M4, since the detection information is displayed on the display unit of the gaming machine, the inspector of the gaming machine can check the detection information of the gaming machine without using a dedicated device for checking the detection information. can do.

[Feature M5]
A gaming machine according to feature M3 or feature M4,
The storage means is a non-volatile memory that can hold the memory even when the power supply is cut off (the calculation result storage memory 309, the number-of-balls storage memory 309a, the ball-entry information storage memory 309b, the flash A gaming machine comprising a memory 64x).

  According to the feature M5, since the detection information is retained even when the supply of power to the gaming machine is cut off, the gaming machine is placed in any state (for example, a distribution state where power is not supplied to the gaming machine). In addition, the gaming machine and the detection information can always be in a one-to-one relationship, and the characteristics of the gaming machine can be managed and inspected.

[Feature M6]
A gaming machine according to any one of features M3 to M5,
The gaming machine is characterized in that the storage means is stored inside a casing (a substrate box to which a seal seal is affixed) where traces of opening and closing are left.

  According to the feature M6, the storage unit is stored inside the casing where the opening / closing trace remains. Therefore, when the storage means is physically contacted, a trace of opening the housing remains. Therefore, if the detection information stored in the storage unit is modified through physical contact with the storage unit, it can be grasped from the trace of the housing. Therefore, unauthorized modification of detection information can be prevented. Since some gaming machines circulate constantly, various external contacts are made in the process of being distributed, but since the storage means is stored inside the case where the opening and closing traces remain, the gaming machine Even in a situation where the information is constantly circulated, it is possible to suppress unauthorized modification of detection information by somebody. In addition, since the detection information is information acquired based on the executed game, it is possible to manage and inspect the game characteristics of the gaming machine using the detection information. Therefore, according to the feature M6, it is possible to properly manage and inspect the gaming machine by preventing unauthorized modification of the detection information reflecting the gaming-related characteristics of the gaming machine. As a result, the game soundness can be improved.

[Feature M7]
A gaming machine according to any one of features M3 to M6,
A gaming machine comprising: notification means for notifying when the detection information stored in the storage means does not satisfy a predetermined condition.

  According to the feature M7, since the notification is made when the detection information does not satisfy the predetermined condition, the inspector of the gaming machine can easily find the gaming machine whose detection information does not satisfy the predetermined condition. Then, by confirming the detection information of the gaming machine, it is possible to determine whether or not the gaming machine has been tampered with. As a result, the game soundness can be improved.

[Feature M8]
A gaming machine according to feature M7,
The notifying means notifies when a specific value (such as a payout ratio) included in the detection information stored in the storage means is not included in a predetermined range.

  According to the feature M8, when the specific value included in the detection information is not included in the predetermined range, the inspector of the gaming machine includes the specific value included in the detection information in the predetermined range. Easily find gaming machines that are no longer available. Then, by confirming the detection information of the gaming machine, it is possible to determine whether or not the gaming machine has been tampered with. As a result, the game soundness can be improved.

[Feature M9]
A gaming machine according to feature M8,
The informing means determines an informing mode (color of the LED lamp) according to the degree of deviation of the specific value from the predetermined range.

  According to the feature M9, since the mode of notification is determined according to the degree of deviation of the specific value from the predetermined range, the inspector of the gaming machine can determine how much the specific value included in the detection information is from the predetermined range. It is possible to easily grasp whether there is a divergence.

[Feature M10]
A gaming machine according to any one of features M7 to M9,
The informing means includes display means for performing a predetermined display as the informing.

  According to the feature M10, since the display unit that performs a predetermined display as notification is provided, the inspector of the gaming machine can easily know that the detection information of the gaming machine does not satisfy the predetermined condition.

<Feature N group>
The feature N group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature N1]
Launching means for launching a game ball toward the game area (game ball launching mechanism 81);
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
A game progression process (a winning lottery process, an electrification opening lottery process, a prize ball payout process, a symbol on the main display unit 45) that is a process for proceeding with a game based on the detection of the game ball by the detecting means. Game progress processing execution means (main-side CPU 62x) for executing fluctuation display processing, opening / closing processing of the door 36b and the electric accessory 34a, and the like;
Storage means (main-side RAM 64) that is stored in the casing of the gaming machine main body and stores information related to the game progress processing;
An erasing unit for erasing information stored in the storage unit based on execution of a predetermined operation (an operation of pressing the power button while pressing the RAM clear button);
With
The game progress process execution means includes
A first mode (game mode) that is a mode capable of executing the game progress process;
When a predetermined condition is satisfied (when an operation of pressing the mode switching button is performed, when an operation of pressing the power button while pressing the mode switching button is performed, the inspection machine 320 is connected to the inspection terminal 65. A second mode (inspection mode), which is a mode executed when a predetermined signal is received from the hall computer)
Is possible and
In the state after the transition to the second mode and before the transition to the first mode (the state in the inspection mode, the state where the power is turned off as it is after the transition to the inspection mode), Even if it is a case where the said predetermined operation is performed, it is comprised so that the information memorize | stored in the said memory | storage means may not be deleted.

  According to the feature N1, the state after the transition to the second mode and before the transition to the first mode is when a predetermined operation for erasing the information stored in the storage means is executed. Even in such a case, the information stored in the storage means is not erased. Therefore, in the state after the transition to the second mode and before the transition to the first mode, the information is erroneously determined to shift to the first mode. Even if this operation has been executed, it is possible to prevent the information from being erased by mistake.

  For example, the predetermined operation for erasing the information stored in the storage means is an operation of pressing the power button while pressing the erasing button, and between the first mode and the second mode. In the configuration in which the operation for shifting the mode is an operation of pressing the power button while pressing the transition button, the transition button is pressed to shift from the second mode to the first mode. While the user intends to press the power button, the user may accidentally press the power button while pressing the delete button. However, according to the feature N1, in the state after the transition to the second mode but before the transition to the first mode, an operation of erroneously pressing the power button while pressing the delete button is executed. Even if it is a case, it can suppress that the said information is deleted accidentally.

  More specifically, for example, when shifting from the first mode to the second mode, the game progress process executed in the first mode is temporarily stopped and the stopped game progress process is performed. In the case of adopting a configuration in which information for resuming the operation after the return to the second mode is stored in the storage means, the power supply is pressed while pressing the transition button in order 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 delete button, the information for resuming the game progress process will be deleted, and you will enter the second mode. After the return, the game progress process cannot be resumed, and there is a risk that the player may be disadvantaged. On the other hand, according to the feature N1, in the state after the transition to the second mode and before the transition to the first mode, the erasing button is erroneously pressed to shift to the first mode. However, even if the power button is pressed while the information stored in the storage means can be prevented from being deleted accidentally, the player can be disadvantaged. Can be suppressed.

[Feature N2]
A gaming machine according to the feature N1,
Detection information (game information including game information, information about the number of games entered, and ratios of game objects, etc.) that is stored in the casing of the gaming machine main body and is information based on the fact that a game ball has been detected by the detection means Detection information storage means for storing
The game machine according to claim 2, wherein the second mode is a mode for outputting the detection information (game history information including entrance information, information on the number of entrances, and a ratio of bonuses).

  According to the feature N2, it is possible to store the detection information and output the detection information in the second mode. Since the detection information is information having a correlation with the behavior of the game ball in the game, the detection information differs for each 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 the feature N2, the detection information that is the 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. Thus, for example, when inspecting the characteristics of the gaming machine, the characteristics of the gaming machine can be inspected by obtaining detection information from the gaming machine body itself. When the gaming machine is installed in the gaming hall, the gaming machine can acquire information on the characteristics of the gaming machine using a hall computer installed in the gaming hall. However, since gaming machines circulate frequently, they may be placed in a state where they are not connected to the hall computer. In this case, in a conventional gaming machine, it is possible to acquire information on characteristics of the gaming machine. Can not. The gaming machine of feature N2 stores the sensing information, which is information reflecting the characteristics of the gaming machine, in the sensing information sensing information storage means stored in the casing of the gaming machine body, so that the gaming machine is connected to the hall computer. Even if it is not, the detection information can be acquired from the gaming machine main body. That is, according to the feature N2, a gaming machine and detection information can be in a one-to-one relationship, and the characteristics of the gaming machine can be managed and inspected. As a result, the game soundness can be improved.

[Feature N3]
A gaming machine described in feature N2,
A gaming machine comprising display means (symbol display device 41) for displaying the detection information output in the second mode.

  According to the feature N3, since the detection information is displayed on the display unit of the gaming machine, the inspector of the gaming machine can check the detection information of the gaming machine without using a dedicated device for checking the detection information. can do.

[Feature N4]
A gaming machine according to feature N2 or feature N3,
The gaming machine characterized in that the detection information storage means is stored inside a casing (substrate box with a seal sticker) on which an open / closed trace remains.

  According to the feature N4, the detection information storage means is stored in the inside of the case where the opening / closing trace remains. Therefore, when physical contact is made with the detection information storage means, a trace of opening the case remains. Therefore, if the detection information stored in the detection information storage means is modified through physical contact with the detection information storage means, it can be grasped from the trace of the housing. Become. Therefore, unauthorized modification of detection information can be prevented. Since some gaming machines circulate constantly, various external contacts are made during the distribution process, but since the detection information storage means is stored inside the case where the opening and closing traces remain, Even in a situation where machines are in circulation, unauthorized alteration of detection information by someone can be suppressed. In addition, since the detection information is information acquired based on the executed game, it is possible to manage and inspect the game characteristics of the gaming machine using the detection information. Therefore, according to the feature N4, it is possible to properly manage and inspect the gaming machine by preventing unauthorized modification of the detection information reflecting the gaming-related characteristics of the gaming machine. As a result, the game soundness can be improved.

[Feature N5]
A gaming machine according to any one of features N2 to N4,
A gaming machine comprising: notification means for notifying when the detection information stored in the detection information storage means does not satisfy a predetermined condition.

  According to the feature N5, notification is made when the detection information does not satisfy the predetermined condition, so that the inspector of the gaming machine can easily find a gaming machine whose detection information does not satisfy the predetermined condition. Then, by confirming the detection information of the gaming machine, it is possible to determine whether or not the gaming machine has been tampered with. As a result, the game soundness can be improved.

[Feature N6]
A gaming machine according to feature N5,
The informing means notifies when a specific value (such as a payout ratio) included in the detection information stored in the detection information storage means is not included in a predetermined range.

  According to the feature N6, when a specific value included in the detection information is not included in the predetermined range, the inspector of the gaming machine includes the specific value included in the detection information in the predetermined range. Easily find gaming machines that are no longer available. Then, by confirming the detection information of the gaming machine, it is possible to determine whether or not the gaming machine has been tampered with. As a result, the game soundness can be improved.

[Feature N7]
A gaming machine according to feature N6,
The informing means determines an informing mode (color of the LED lamp) according to the degree of deviation of the specific value from the predetermined range.

  According to the feature N7, since the notification mode is determined in accordance with the degree of deviation of the specific value from the predetermined range, the inspector of the gaming machine can determine how much the specific value included in the detection information is within the predetermined range. It is possible to easily grasp whether there is a divergence.

[Feature N8]
A gaming machine according to any one of features N5 to N7,
The informing means includes display means for performing a predetermined display as the informing.

  According to the feature N8, since the display unit that performs a predetermined display as notification is provided, the inspector of the gaming machine can easily know that the detection information of the gaming machine does not satisfy the predetermined condition.

  Note that the invention of the above-described feature group A to feature group N solves the following problems.

  In gaming machines such as pachinko machines and slot machines, technical improvements have been made from various viewpoints such as structure, control, production and the like for the purpose of improving the fun of games.

  Further, in addition to improving the interest of the game, various technical improvements have been made for the purpose of improving the soundness of the game, such as the discovery and deterrence of illegal acts by players and unauthorized modifications to the gaming machines.

  For example, if an illegal act (so-called goto act) is performed by a player, or a nail provided on a game board of a pachinko machine is illegally bent and modified, each entry such as a general prize opening or a start opening is made. The ratio of the game balls entering the ball opening becomes different from that originally assumed, and the performance and gameability assumed for the pachinko gaming machine may be impaired. However, it was very difficult to find such fraud.

  Such fraud may be performed by a player during business hall hours. In some cases, unauthorized modification may be performed by someone after the business hours of the game hall. Further, there may be cases where unauthorized modification is made to the game machine being transported before being installed in the game hall. Further, there may be cases where illegal modification is performed on the gaming machine before being shipped to the gaming hall. There is also the possibility that unauthorized modifications will be made before that.

  Based on such a situation, an object is to detect illegal acts and unauthorized modifications to gaming machines and improve the soundness of games.

<Feature O group>
The feature O group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 23 of the first embodiment.

[Feature O1]
A gaming machine comprising processing execution means (main CPU 62x) for starting execution of predetermined processing (timer interrupt processing) at a predetermined interval (4 msec interval),
The process execution means is capable of executing a specific process (arithmetic process for calculating game history information) as one process included in the predetermined process.
The specific process is composed of a plurality of processing stages (task 1 and task 2 in FIG. 29),
The process execution means includes
In one execution of the predetermined process, one of the plurality of process stages constituting the specific process can be executed,
A gaming machine, wherein all of the plurality of processing steps constituting the specific process are executed by executing the predetermined process a plurality of times.

  According to the characteristic O1, one processing stage among a plurality of processing stages constituting a specific process can be executed in one execution of the predetermined process, and by executing the predetermined process a plurality of times, Since all of the plurality of processing stages constituting the specific process are executed, the predetermined process is compared with the structure of executing all of the plurality of processing stages constituting the specific process in one execution of the predetermined process. The time required for one execution can be shortened. As a result, the time required for one execution of the predetermined process becomes longer than the predetermined interval for starting the execution of the predetermined process, and the predetermined process cannot be executed at the predetermined interval. Can be suppressed.

[Feature O2]
A gaming machine according to the characteristic O1,
The specific process is configured by a series of processes in which the execution order is determined,
The plurality of processing steps are obtained by dividing the series of processes constituting the specific process.
The process execution means executes one process stage (task 1 in FIG. 29) of the plurality of process stages, and then executes the process stage (task 2 in FIG. 29) executed next to the one process stage. A gaming machine characterized by specifying.

  According to the feature O2, a series of processes in which the order of execution is determined is divided, and in one execution of a predetermined process, after executing one process stage of a plurality of process stages, Since the processing stage to be executed next to the processing stage is specified, even if it is a series of processes that, when incorporated in a predetermined process, the time required for executing the predetermined process becomes longer than a predetermined interval And can be executed by being incorporated into a predetermined process executed at a predetermined interval.

[Feature O3]
A gaming machine according to feature O2,
The process execution means can execute a game progress process that is a process related to the progress of a game as a process included in the predetermined process.
The game machine characterized in that the specific process is a process (arithmetic process) different from the game progress process.

  According to the feature O3, when a process different from the game progress process (process other than the game progress process) is incorporated in the predetermined process, the time required for one execution of the predetermined process becomes longer than the predetermined interval. Even in a gaming machine configured as described above, a process different from the game progress process can be incorporated into a predetermined process executed at a predetermined interval. In addition, since the processing different from the game progress processing does not affect the progress of the game even if not executing all the processing steps in one execution of the predetermined processing, the time required for one execution of the predetermined processing Can be allocated to the execution time of the game progress process included in the predetermined process, and the degree of freedom in designing the gaming machine can be improved. It should be noted that as the process different from the game progress process, various arbitrary processes can be adopted. For example, a process for calculating game history information, which is information related to a game history, or a game hall is installed. It is possible to employ a transmission process or the like that transmits information on the game situation to a hall computer at a predetermined timing.

[Feature O4]
A gaming machine described in feature O3,
The gaming machine according to claim 1, wherein the specific process is a calculation process (arithmetic process) that is a process of calculating game history information that is information relating to a game history.

  According to the feature O4, when the calculation process for calculating the game history information is incorporated in the predetermined process, the game is configured such that the time required for one execution of the predetermined process becomes longer than the predetermined interval. Also in the machine, the calculation process can be incorporated into a predetermined process executed at a predetermined interval. In addition, the calculation process for calculating the game history information does not affect the progress of the game even if all the processing steps are not executed in one execution of the predetermined process, and therefore is required for one execution of the predetermined process. The time can be allocated to the execution time of the game progress 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, modified examples, or a combination thereof, and is mainly extracted from the aspect 23 of the first embodiment.

[Feature P1]
A gaming machine comprising processing execution means (main CPU 62x) for starting execution of predetermined processing (timer interrupt processing) at a predetermined interval (4 msec interval),
The process execution means includes
As one process included in the predetermined process, a specific process (prize ball counting process) can be executed,
In one execution of the predetermined process, a part of the process target candidates (2 bits) are selected from the plurality of process target candidates (8 bits in the buffer area). (Aggregating process) can be set as a process target, and the specific process can be executed on the set process target.
The gaming machine, wherein the specific process is executed for all of the plurality of process target candidates by executing the predetermined process a plurality of times.

  According to the characteristic P1, in one execution of a predetermined process, some process target candidates are set as process targets for a specific process from among a plurality of process target candidates, and the set process target is The specific process can be executed, 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, the time required for one execution of the predetermined process can be shortened as compared with the configuration in which the specific process is executed for all of the plurality of processing target candidates in one execution of the predetermined process. As a result, the time required for one execution of the predetermined process becomes longer than the predetermined interval for starting the execution of the predetermined process, and the predetermined process cannot be executed at the predetermined interval. Can be suppressed.

[Feature P2]
A gaming machine according to feature P1,
The gaming machine characterized in that the plurality of processing target candidates are fixed in advance.

  According to the feature P2, since a plurality of processing target candidates are fixed in advance, there is no need to execute a process of selecting a plurality of processing target candidates, and the process can be simplified. Can be improved. Furthermore, the storage capacity for storing information such as programs and parameters necessary for selecting a plurality of processing target candidates can be reduced.

[Feature P3]
A gaming machine according to feature P1 or feature P2,
The processing target setting means sets the partial processing target candidates from among the plurality of processing target candidates as a processing target for the specific processing in a predetermined order. Gaming machine.

  According to the feature P3, when setting a part of the processing target candidates from among the plurality of processing target candidates as the processing target for the specific processing, the processing target for the specific processing is set in a predetermined order. It is not necessary to execute a process for determining which process target candidate to set, and the process can be simplified. As a result, the processing speed can be improved. Furthermore, it is possible to reduce the storage capacity for storing information such as programs and parameters necessary for executing the determination process.

[Feature P4]
A gaming machine according to any one of features P1 to P3,
It has multiple entrances where game balls can enter,
Each of the plurality of processing target candidates corresponds to each of the plurality of entrance parts,
Each of the processing target candidates is information (entrance detection information stored in each bit of the buffer area) that is updated based on the detection of the entrance of a game ball to each of the entrance parts.
The process execution means performs the predetermined process a plurality of times in a time shorter than the shortest interval (about 18 msec) detected by continuously entering two game balls in one of the entrances ( The gaming machine is characterized in that the specific process can be executed on all of the process target candidates by executing the process four times.

  According to the feature P4, the shortest time required for two game balls to successively enter one ball-entry unit to be detected until a specific process is executed on all the processing target candidates. Since the interval between the game balls can be made shorter than the interval of the information, the information that is updated based on the detection of the entry of the game balls into each of the entry portions is detected as the entry of one game ball. It can be stored as information updated on the basis. More specifically, when two game balls enter the entrance part in succession, it is updated based on the entrance of the first game ball being detected at the entrance part. Even if the specified information is set as a processing target and a specific process is executed, and then the remaining other processing target candidates are set as processing targets and the specific process is executed, the next second game All of these specific processes can be completed before the incoming ball is detected in the incoming ball part. That is, at the time when the updated information based on the detection of the second game ball being detected in the ball-entry unit is set as the processing target and the specific process is executed, one is already present. The specific processing for the information updated based on the detection of the entry of the game ball of the eye at the entrance portion has been completed, and the entry of the second game ball is detected at the entrance portion. The information updated on the basis of being played can be treated as information updated on the basis of the fact that a new first game ball has been detected in the entrance. Therefore, the information that is updated based on the detection of the entry of a game ball into each ball entry unit 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, it is possible to store information that is updated based on the detection of a game ball entering each ball entry unit as binary information indicating the presence or absence of a ball. In this case, it is possible to reduce the storage capacity for storing information that is updated based on the detection of a game ball entering each ball entry unit, and to improve the processing speed of a specific process. be able to.

<Characteristic Q group>
The feature Q group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 23 of the first embodiment.

[Feature Q1]
Process execution means (main CPU 62x) capable of executing a specific process (game history process) and a process other than the specific process (process related to the progress of the game);
A storage area (main RAM 64) in which information can be written;
A gaming machine comprising
The process execution means includes holding means (register) for holding information (register information) for execution of the process,
The specific process is:
A first process (save process) for writing information (register information) for execution of the other process, which is information held by the holding unit, 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 including:

  According to the characteristic Q1, the specific process includes a first process that is information held by the holding unit and writes information for execution of other processes in the storage area. At the time of starting, if the holding means holds information for execution of another process that was executed immediately before the start of a specific process, Information can be temporarily moved (saved) by writing the information in the storage area. Therefore, the information for executing another process held in the holding unit may be deleted, and when the process execution unit executes the specific process, the holding unit holds the information for executing the specific process. it can. In addition, the specific process includes a second process that causes the holding unit to hold the information written in the storage area in the first process. Therefore, when the specific process is terminated, the specific process is performed for executing another process. The information can be held again by the holding unit, and another process 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 the specific process, even if only the program for executing the specific process is deleted, other processes other than the specific process are executed without any problem. Machine can be provided. That is, it is possible to easily delete only the program for executing the specific process without modifying the program for executing another process other than the specific process. As a result, for example, when improving the gaming machine so as not to execute a specific process or when developing a new gaming machine that does not execute a specific process based on the gaming machine, the design change is minimized. It becomes possible to do.

[Feature Q2]
A gaming machine according to feature Q1,
The process execution means includes
In the first process included in the specific process, information for execution of the other process is written in a predetermined specific area (second area) of the storage area, and Writing of information in a specific process is executed only for the specific area (second area) of the storage area.

  According to the characteristic Q2, the process execution means writes information for executing another process in a predetermined specific area of the storage area in the first process included in the specific process, and Since writing of information in a specific process is executed only for a specific area of the storage area, information written in other areas other than the specific area of the storage area Can be prevented from being rewritten by the execution of. Therefore, when a process using the other area is executed by the process execution unit, it is possible to suppress a specific process from affecting the process.

[Feature Q3]
A gaming machine according to feature Q1 or feature Q2,
The process execution means includes
Writing of information in the other processing is executed only for an area (first area) other than the specific area in the storage area.

  According to the characteristic Q3, information writing in other processing is executed only for an area other than the specific area of the storage area, so information written in the specific area of the storage area However, it can be prevented from being rewritten by the execution of other processes. Therefore, when a specific process is executed by a process execution unit using a specific area, it is possible to suppress the other process from affecting the specific process.

[Feature Q4]
A gaming machine according to any one of features Q1 to Q3,
The specific process is a process different from the game progress process that is a process related to the progress of the game,
The other process is the game progress process. A gaming machine, wherein:

  According to the feature Q4, it is possible to provide a gaming machine in which the game progress process is executed without any problem even if only the program for executing the process different from the game progress process is deleted. That is, it is possible to easily delete only a program for executing a process different from the game progress process. As a result, for example, when the gaming machine is improved so as not to execute a process different from the game progress process, or when a new gaming machine that does not execute a process different from the game progress process is developed, the design change is minimized. It becomes possible to limit. Note that, as a process different from the game progress process, various arbitrary processes can be adopted. For example, a process for calculating and displaying game history information, which is information related to a game history, It is possible to employ a transmission process or the like that transmits information about the game situation to the hall computer installed at a predetermined timing.

[Feature Q5]
A gaming machine according to 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 (a combination of ratios of consecutive objects) that is information relating to a game history. A featured gaming machine.

  According to the feature Q5, it is possible to provide a gaming machine in which the game progress process is executed without any problem even if only the program for executing the game history information related process is deleted. That is, only the program for executing the game history information related process can be easily deleted. As a result, for example, when modifying the gaming machine so as not to execute the game history information related process or when developing a new gaming machine that does not execute the game history information related process, the design change is minimized. Is possible.

<Feature R group>
The feature R group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the 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 RAM 64) in which information can be written;
A gaming machine comprising
The process execution means includes
Writing of information in the specific process is executed only for a predetermined specific area (second area) in the storage area.

  According to the feature R1, since the process execution unit executes writing of information in a specific process only to a predetermined specific area of the storage area, other than the specific area of the storage area. It is possible to prevent the information written in this area from being rewritten by executing a specific process. Therefore, when a process using an area other than the specific area in the storage area is executed by the process execution unit, it is possible to prevent the specific process from affecting the process. it can.

[Feature R2]
A gaming machine according to feature R1,
The process execution means includes
The writing of information in other processing (processing related to the progress of the game) other than the specific processing is executed only for an area other than the specific area (first area) in the storage area. A featured gaming machine.

  According to the feature R2, since the process execution unit executes the writing of information in other processes other than the specific process only to other areas other than the specific area of the storage area, The information written in the specific area can be prevented from being rewritten by the execution of the other process. Therefore, when a specific process is executed by a process execution unit using a specific area, it is possible to suppress the other process from affecting the specific process.

[Feature R3]
A gaming machine according to feature R1 or feature R2,
The process execution means includes
Comprising holding means (register) for holding information for execution of processing (register information), and executing the specific processing and the other processing exclusively;
The specific process is:
A first process (save process) to write information (register information) for execution of the other process, which is information held by the holding unit, 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 including:

  According to the feature R3, since the specific process includes the first process, when the process execution unit starts the specific process, the holding unit executes another process that was performed immediately before the start of the specific process. If the information is held, the information for executing another process held by the holding means can be temporarily moved (saved) by writing the information into a specific area. Therefore, the information for executing another process held in the holding unit may be deleted, and when the process execution unit executes the specific process, the holding unit holds the information for executing the specific process. it can. In addition, since the specific process includes the second process, when the specific process is ended, the information for executing another process is held again in the holding unit, and is executed before the start of the specific process. 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 the specific process, even if only the program for executing the specific process is deleted, other processes other than the specific process are executed without any problem. Machine can be provided. That is, it is possible to easily delete only the program for executing the specific process without modifying the program for executing another process other than the specific process. As a result, for example, when improving the gaming machine so as not to execute a specific process or when developing a new gaming machine that does not execute a specific process based on the gaming machine, the design change is minimized. It becomes possible to do.

[Feature R4]
A gaming machine according to any one of features R1 to R3,
The specific process is a process different from the game progress process that is a process related to the progress of the game,
A process other than the specific process is the game progress process.

  According to the feature R4, the process execution means executes the writing of information in a process different from the game progress process only to a predetermined specific area of the storage area, so that the game progress process is executed. When executed by means, it is possible to suppress the processing different from the game progress processing from affecting the game progress processing.

[Feature R5]
A 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 (a combination of ratios of consecutive objects) that is information relating to a game history. A featured gaming machine.

  According to the feature R5, since the process execution means executes the writing of information in the game history information related process only to a predetermined specific area of the storage area, the game progress process is performed by the process execution means. When executed, it is possible to prevent the game history information related process from affecting the game progress process.

<Feature S group>
The feature S group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 23 of the first embodiment.

[Feature S1]
The entrance part where game balls can enter,
An incoming detection means (entrance detection sensor) for detecting the entrance of a game ball into the entrance part,
Parameter storage means (prize ball totaling buffer) for storing predetermined parameters (prize ball totaling value);
A process execution means (main CPU 62x) for starting execution of a predetermined process (timer interrupt process) at a predetermined interval (4 msec interval),
The process execution means includes
As the predetermined process,
A parameter update process (prize ball counting process) for updating the predetermined parameter stored in the parameter storage means triggered by the entry of a game ball into the pitching unit;
A calculation process (task 1 and task 2 in FIG. 29) for calculating game history information, which is information relating to a game history, based on the predetermined parameter stored in the parameter storage means;
Is possible and
The gaming machine, wherein the calculation process is not executed when the parameter update process is executed in one predetermined process.

  According to the feature S1, when the parameter update process is executed in one predetermined process, the calculation process 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 execution of the predetermined process can be shortened. As a result, the time required for one execution of the predetermined process becomes longer than the predetermined interval for starting the execution of the predetermined process, and the predetermined process cannot be executed at the predetermined interval. Can be suppressed. Furthermore, according to the feature S1, the parameter update process in which the game ball entry status and the processing load correlate are executed in preference to the calculation process in which the game ball entry status and the process load do not correlate. The parameter update process execution interval is suppressed from increasing, and as a result, the process result of the parameter update process (awarded ball total value) cannot accurately reflect the entry status of the game ball. Can be suppressed.

[Feature S2]
A gaming machine according to the feature S1,
Determination means for determining whether or not to execute the calculation process (the process of step S10810 in FIG. 29);
The process execution means includes
A gaming machine, wherein the calculation process is executed when the parameter update process is not executed and the determination unit determines that the calculation process is executed.

  According to the feature S2, since the calculation process is executed when the parameter update process is not executed and the determination unit determines to execute the calculation process, the parameter update process and the calculation process are not executed in the predetermined process. In addition, in this situation, instead of the parameter update process and the calculation process, other processes independent of these processes (for example, a process for determining the updated parameters and the validity of the calculation result of the calculation process) are performed. It becomes possible to execute. Furthermore, if either one of the parameter update process or the calculation process is executed in one predetermined process, the time required for one execution of the predetermined process is shorter than a predetermined interval. In the above, by executing a process having a shorter processing time than the parameter update process and the calculation process, it is possible to reliably prevent the time required for one execution of the predetermined process from becoming longer than the predetermined interval. Can do.

[Feature S3]
A gaming machine according to feature S1 or feature S2,
In the calculation process in one predetermined process, the process execution means can calculate a plurality of types of game history information (a combination ratio, a continuous combination ratio) in the calculation process. The game machine is characterized by executing a process (task 1 or task 2 in FIG. 29) for calculating one type of the game history information.

  According to the feature S3, although a plurality of types of game history information can be calculated in the calculation process, in the calculation process in one predetermined process, a process for calculating one type of game history information is performed. Therefore, the time required for one execution of a predetermined process is shortened compared to a configuration in which a process for calculating a plurality of types of game history information is performed in a calculation process in one predetermined process. be able to. As a result, the time required for executing the predetermined process becomes longer than the predetermined interval for starting the execution of the predetermined process, and the predetermined process cannot be executed at the predetermined interval. Can be suppressed. In addition, the storage capacity for temporarily storing the calculated game history information can be reduced.

[Feature S4]
A gaming machine according to the feature S3,
The process execution means includes
The process of calculating the one type of game history information (task 1 or task 2 in FIG. 29) is executed over a plurality of times of the predetermined process, thereby calculating the one type of game history information. A gaming machine characterized by that.

  According to the feature S4, since the process for calculating one type of game history information is executed over a plurality of predetermined processes, the one type of game history information is calculated. Compared to a configuration in which calculation of one type of game history information is completed in the calculation process in the predetermined process, the time required for executing the predetermined process once can be shortened. As a result, it is possible to prevent the time required for executing the predetermined process from exceeding the execution interval of the predetermined process.

  Note that the inventions of the feature O group to the feature S group solve the following problems.

  In gaming machines such as pachinko machines and slot machines, there are various structures, controls, effects, etc. for the purpose of improving the fun of gaming, reducing the processing load of gaming machines, optimizing processing, simplifying control, etc. Technical improvements have been made from the point of view.

  In addition, various technical improvements have been made for the purpose of improving the soundness of games, such as the discovery and suppression of illegal acts by players and unauthorized modifications to gaming machines.

  For gaming machines such as those mentioned above, further technological improvements are desired for the purposes of improving gaming, reducing the processing load on gaming machines, optimizing processing, simplifying control, and providing healthier games. It is rare.

<Feature T group>
The feature T group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature T1]
Control means for controlling the execution of the game (the main CPU 62x of the aspect 38 of the first embodiment);
Information storage means (flash memory 64x) for storing information obtained based on the executed game (game history information such as prize ball total value, winning ratio, etc., number of entered balls, etc.);
An operation means (flash memory clear button) for receiving a predetermined operation,
An erasure unit (erase IC chip) for erasing the information stored in the information storage unit based on the fact that the operation unit has received the predetermined operation;
A gaming machine comprising
The gaming machine is characterized in that the operation means is stored in a space where an open trace remains (inside a board box to which a seal seal is attached).

  According to the feature T1, since the operation means is stored in the space where the trace of opening remains, in order to erase the information stored in the information storage means of the gaming machine, the space of the gaming machine When the operating means is operated in the open state, a trace of opening remains in the space of the gaming machine. That is, there is a possibility that the information stored in the information storage means has been erased by opening the space of the gaming machine based on whether or not the trace of opening remains in the space of the gaming machine. It becomes possible to grasp whether or not.

  Here, if the gaming machine is illegally modified, the executed game will be affected by the unauthorized modification, and the information stored in the information storage means of the gaming machine will be displayed. The effects of the unauthorized modification may appear. A person who inspects whether or not a normal game is being executed by a gaming machine (hereinafter also referred to as “inspector”) is applied to the gaming machine by checking information stored in the information storage means. Unauthorized alterations can be found. For this reason, there is a person who wants to prevent an inspector from discovering that the gaming machine has been tampered with by deleting the information (hereinafter also referred to as “illegal person”) 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 operate the operating means with the space of the gaming machine open. Then, since the trace of opening remains in the space of the gaming machine, even if the information stored in the information storage means is deleted, the information may be deleted for illegal concealment. Traces will remain. Therefore, it is possible to make it difficult to conceal unauthorized alterations made to gaming machines, and in turn, it is possible to suppress the occurrence of motives such as making unauthorized modifications to gaming machines, thereby improving game soundness. Can be made.

  Note that gaming machines may be circulated by transaction, and those who want to newly distribute gaming machines that have already been played (so-called used gaming machines) are stored in the information storage means of the gaming machine. There are cases where there is a legitimate request to delete the stored information and distribute it. Therefore, if a distribution system can be established so that only those who wish to erase the information stored in the information storage means of the gaming machine for a legitimate reason can erase the trace of the opening of the space, It is possible to promote smooth distribution of gaming machines while ensuring the performance.

[Feature T2]
A gaming machine according to feature T1,
The gaming machine according to claim 1, wherein the information storage means can hold the memory even when power supply is cut off.

  According to the feature T2, even if the power supply to the gaming machine is cut off, the information acquired based on the executed game can be held. Even when power is not supplied, it is possible to check whether or not a normal game has been executed in the gaming machine.

[Feature T3]
A gaming machine according to feature T1 or feature T2,
The information acquired based on the executed game includes information on the number of game balls that have already been paid out as prize balls (award ball total value).

  According to the feature T3, it is possible to inspect whether or not a normal game has been executed in the gaming machine by using information on the number of gaming balls that have already been paid out as prize balls.

[Feature T4]
A gaming machine according to any one of features T1 to T3,
The information storage means is stored in a space where an open trace remains (inside a board box to which a seal seal is attached).

  According to the feature T4, since the information storage means is stored in the space where the trace of opening remains, in order to make an unauthorized modification to the information stored in the information storage means, The space of the gaming machine will be opened, leaving a trace of opening in the space of the gaming machine. That is, based on whether or not there is a trace of opening in the space of the gaming machine, the space of the gaming machine is opened and the information stored in the information storage means has been tampered with. It becomes possible to grasp whether or not there is a possibility. Therefore, it is possible to make it difficult to conceal unauthorized modification applied to information stored in the information storage means, and in turn, to generate motivation to perform unauthorized modification on information stored in the information storage means. Can be suppressed, and the soundness of the game can be improved.

<Feature U group>
The feature U group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature U1]
Control means for controlling the execution of the game (the main CPU 62x of the aspect 39 of the first embodiment);
Information storage means (flash memory 64x) for storing information obtained based on the executed game (game history information such as prize ball total value, winning ratio, etc., number of entered balls, etc.);
Connection means (inspection terminal 65) capable of connecting a predetermined device (inspection machine 320);
An erasing unit (erase IC chip) for erasing the information stored in the information storage unit;
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 that.

  According to the characteristic U1, the erasing means includes means for erasing the information stored in the information storage means based on reception of the predetermined signal from the predetermined apparatus connected to the connection means. Can erase the information stored in the information storage means. In other words, it becomes possible to limit the deletion of the information by a person who does not have a predetermined device.

  Here, if the gaming machine is illegally modified, the executed game will be affected by the unauthorized modification, and the information stored in the information storage means of the gaming machine will be displayed. The effects of the unauthorized modification may appear. A person who inspects whether or not a normal game is being executed by a gaming machine (hereinafter also referred to as “inspector”) is applied to the gaming machine by checking information stored in the information storage means. Unauthorized alterations can be found. For this reason, there is a person who wants to prevent an inspector from discovering that the gaming machine has been tampered with by deleting the information (hereinafter also referred to as “illegal person”) 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. If the persons who can have the predetermined device are restricted, it is possible to prevent the information stored in the information storage means from being erased by an unauthorized person. It is possible to suppress the generation of motivation such as remodeling and improve the soundness of the game.

  Note that gaming machines may be circulated by transaction, and those who want to newly distribute gaming machines that have already been played (so-called used gaming machines) are stored in the information storage means of the gaming machine. There are cases where there is a legitimate request to delete the stored information and distribute it. Therefore, if a person who wants to erase the information stored in the information storage means of the gaming machine for a legitimate reason is established, a distribution system capable of having a predetermined device can be established. It is possible to facilitate the smooth distribution of gaming machines while securing it.

[Feature U2]
A gaming machine according to feature U1,
Prior to erasing the information stored in the information storage means, the erasure means transmits the information stored in the information storage means to the predetermined device connected to the connection means. A gaming machine comprising a means.

  According to the characteristic U2, the transmission unit that transmits the information stored in the information storage unit to a predetermined device connected to the connection unit prior to the deletion of the information stored in the information storage unit. The information stored in the information storage means has been deleted from the information storage means even if the information is accidentally deleted by an operation contrary to the intention of the person having the predetermined device. The information can be confirmed by the predetermined device.

[Feature U3]
A gaming machine according to Feature U1 or Feature U2,
The gaming machine according to claim 1, wherein the information storage means can hold the memory even when power supply is cut off.

  According to the feature U3, even if the supply of power to the gaming machine is cut off, the information acquired based on the executed game can be retained, so that, for example, in the distribution process, the gaming machine Even when power is not supplied, it is possible to check whether or not a normal game has been executed in the gaming machine.

[Feature U4]
A gaming machine according to any one of features U1 to U3,
The information acquired based on the executed game includes information on the number of game balls that have already been paid out as prize balls (award ball total value).

  According to the feature U4, it is possible to inspect whether or not a normal game has been executed in the gaming machine by using information regarding the number of gaming balls that have already been paid out as prize balls.

[Feature U5]
A gaming machine according to any one of features U1 to U4,
The information storage means is stored in a space where an open trace remains (inside a board box to which a seal seal is attached).

  According to the feature U5, since the information storage means is stored inside the space where the trace of opening remains, in order to make an unauthorized modification to the information stored in the information storage means, The space of the gaming machine will be opened, leaving a trace of opening in the space of the gaming machine. That is, based on whether or not there is a trace of opening in the space of the gaming machine, the space of the gaming machine is opened and the information stored in the information storage means has been tampered with. It becomes possible to grasp whether or not there is a possibility. Therefore, it is possible to make it difficult to conceal unauthorized modification applied to information stored in the information storage means, and in turn, to generate motivation to perform unauthorized modification on information stored in the information storage means. Can be suppressed, and the soundness of the game can be improved.

<Feature V group>
The feature V group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature V1]
Control means for controlling the execution of the game (the main CPU 62x of the aspect 40 of the first embodiment);
Information storage means (flash memory 64x) for storing information obtained based on the executed game (game history information such as prize ball total value, winning ratio, etc., number of entered balls, etc.);
Connection means (inspection terminal 65) capable of connecting a predetermined device (inspection machine 320);
An operation means (flash memory clear button) for receiving a predetermined operation,
An erasing unit (erase IC chip) for erasing the information stored in the information storage unit;
A gaming machine comprising
The operation means is stored in a space where an open trace remains (inside a substrate box to which a seal seal is attached),
The erasing unit is configured to receive the predetermined operation from the operation unit and receive a predetermined signal (erase command signal) from the predetermined device connected to the connection unit. A gaming machine comprising: means for deleting the information stored in the game machine.

  According to the feature V1, since the operating means is stored inside the space where the trace of opening remains, in order to erase the information stored in the information storage means of the gaming machine, the space of the gaming machine When the operating means is operated in the open state, a trace of opening remains in the space of the gaming machine. Further, the erasing means includes means for erasing information stored in the information storage means based on reception of a predetermined signal from a predetermined device connected to the connection means. The information stored in the information storage means can be erased. Therefore, there is a possibility that the information stored in the information storage means is erased because the space of the gaming machine is opened based on whether or not the trace of opening remains in the space of the gaming machine. It is possible to determine whether or not the information is erased by a person who does not have a predetermined device.

  Here, if the gaming machine is illegally modified, the executed game will be affected by the unauthorized modification, and the information stored in the information storage means of the gaming machine will be displayed. The effects of the unauthorized modification may appear. A person who inspects whether or not a normal game is being executed by a gaming machine (hereinafter also referred to as “inspector”) is applied to the gaming machine by checking information stored in the information storage means. Unauthorized alterations can be found. For this reason, there is a person who wants to prevent an inspector from discovering that the gaming machine has been tampered with by deleting the information (hereinafter also referred to as “illegal person”) 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. And if the person who can have the said predetermined | prescribed apparatus is restrict | limited, it can suppress that the information memorize | stored in the information storage means will be erased by an unauthorized person. Further, even if an unauthorized person has a predetermined device, in order to erase the information stored in the information storage means, the game machine is opened and the space is opened. It is necessary to operate the means. Then, since the trace of opening remains in the space of the gaming machine, even if the information stored in the information storage means is deleted, the information may be deleted for illegal concealment. Traces will remain. Therefore, it is possible to prevent the information stored in the information storage means from being erased by an unauthorized person, and to make it difficult to conceal the unauthorized modification applied to the gaming machine. As a result, it is possible to further suppress the generation of motivation to improperly modify the gaming machine, and improve the game soundness.

  Note that gaming machines may be circulated by transaction, and those who want to newly distribute gaming machines that have already been played (so-called used gaming machines) are stored in the information storage means of the gaming machine. There are cases where there is a legitimate request to delete the stored information and distribute it. Therefore, only those who have a desire to erase the information stored in the information storage means of the gaming machine for a valid reason can have a predetermined device and erase the trace of opening of the space. If a distribution system that can be used is established, it is possible to promote smooth distribution of gaming machines while ensuring the soundness of games.

[Feature V2]
A gaming machine according to feature V1,
Prior to erasing the information stored in the information storage means, the erasure means transmits the information stored in the information storage means to the predetermined device connected to the connection means. A gaming machine comprising a means.

  According to the feature V2, the transmission unit transmits the information stored in the information storage unit to a predetermined device connected to the connection unit prior to the deletion unit deleting the information stored in the information storage unit. The information stored in the information storage means has been deleted from the information storage means even if the information is accidentally deleted by an operation contrary to the intention of the person having the predetermined device. The information can be confirmed by the predetermined device.

[Feature V3]
A gaming machine according to feature V1 or feature V2,
The gaming machine according to claim 1, wherein the information storage means can hold the memory even when power supply is cut off.

  According to the feature V3, even when the supply of power to the gaming machine is cut off, the information acquired based on the executed game can be held, so that, for example, in the distribution process, the gaming machine Even when power is not supplied, it is possible to check whether or not a normal game has been executed in the gaming machine.

[Feature V4]
The gaming machine according to any one of features V1 to V3,
The information acquired based on the executed game includes information on the number of game balls that have already been paid out as prize balls (award ball total value).

  According to the feature V4, it is possible to inspect whether or not a normal game has been executed in the gaming machine by using information regarding the number of gaming balls that have already been paid out as prize balls.

[Feature V5]
The gaming machine according to any one of features V1 to V4,
The information storage means is stored in a space where an open trace remains (inside a board box to which a seal seal is attached).

  According to the feature V5, since the information storage means is stored inside the space where the trace of opening remains, in order to make an unauthorized modification to the information stored in the information storage means, The space of the gaming machine will be opened, leaving a trace of opening in the space of the gaming machine. That is, based on whether or not there is a trace of opening in the space of the gaming machine, the space of the gaming machine is opened and the information stored in the information storage means has been tampered with. It becomes possible to grasp whether or not there is a possibility. Therefore, it is possible to make it difficult to conceal unauthorized modification applied to information stored in the information storage means, and in turn, to generate motivation to perform unauthorized modification on information stored in the information storage means. Can be suppressed, and the soundness of the game can be improved.

<Feature W group>
The feature W group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature W1]
Control means for controlling the execution of the game (the main CPU 62x of the aspect 46 of the first embodiment);
Based on the first information (information used in the game progress process stored in the first area of the main RAM 64), which is information used for controlling the execution of the game by the control means, and the executed game Information storage means for storing second information which is acquired information (award ball total value stored in the second area of the main side RAM 64, game history information such as an accessory ratio, number of balls entered, etc.) (Main RAM 64),
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. Gaming machine.

  According to the feature W1, since the erasure unit includes a unit for erasing the first information when erasing the second information, the second information which is information acquired based on the executed game is In spite of being erased, it is possible to suppress the occurrence of a situation in which the first information, which is information used for controlling the execution of the game, is maintained without being erased.

  Specifically, for example, the second information, which is information acquired based on the executed game, is information serving as collateral for determining the fairness of the game executed in the gaming machine. When the second information is deleted, the first information used for controlling the execution of the game in the gaming machine (for example, information on the high probability mode flag and the high frequency support mode flag indicating the gaming state) is used. It is preferable to erase and initialize the gaming state of the gaming machine. According to this feature, since the erasing means includes means for erasing the first information when erasing the second information, the second information serving as collateral for judging the fairness of the game is erased. Despite being done, 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 erased.

[Feature W2]
A gaming machine according to the feature W1,
The erasing means comprises means for erasing the first information out of information stored in the information storage means and not erasing the second information.

  According to the feature W2, the erasing means includes means for erasing the first information out of the information stored in the information storage means and not erasing the second information. Therefore, the erasing means is obtained based on the executed game. It is possible to erase the first information, which is information used for controlling the execution of the game, while leaving the second information, which is the information that has been performed.

  Specifically, for example, the first information, which is information used for controlling the execution of the game, is deleted when a malfunction occurs in the control of the game execution or at the start or end of the game hall business. There is a demand for executing initialization of control of the gaming machine but not erasing the second information which is information acquired based on the executed game. According to this feature, the first information, which is information used for controlling the execution of the game, is deleted while the second information, which is information acquired based on the executed game, is left, and the gaming machine It is possible to execute control initialization.

<Feature X group>
The feature X group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature X1]
Control means for controlling the execution of the game (the main CPU 62x of the aspect 42 of the first embodiment);
Based on the first information (information used in the game progress process stored in the first area of the main RAM 64), which is information used for controlling the execution of the game by the control means, and the executed game Information storage means for storing second information which is acquired information (award ball total value stored in the second area of the main side RAM 64, game history information such as an accessory ratio, number of balls entered, etc.) (Main RAM 64),
First operation means (RAM clear button and power switch) for receiving a first operation (operation for 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 unit erases the first information out of the information stored in the information storage unit based on the fact that the first operation unit has received the first operation, and the second operation unit A gaming machine characterized by comprising means for not erasing information.

  According to the feature X1, the erasure unit erases the first information out of the information stored in the information storage unit based on the first operation unit receiving the first operation, and the second operation unit Since there is means for not erasing the information, the first information, which is information used for controlling the execution of the game, is deleted while leaving the second information, which is the information acquired based on the executed game. Is possible.

  Specifically, for example, the first information, which is information used for controlling the execution of the game, is deleted when a malfunction occurs in the control of the game execution or at the start or end of the game hall business. There is a demand for executing initialization of control of the gaming machine but not erasing the second information which is information acquired based on the executed game. According to this feature, the first information that is used for controlling the execution of the game while leaving the second information that is the information acquired based on the executed game by operating the first operating means. It becomes possible to execute initialization of control of the gaming machine by deleting the information of 1.

[Feature X2]
A gaming machine according to feature X1,
A second operation means (second RAM clear button) for accepting a second operation (an operation of pressing the second RAM clear button for a predetermined time while the power of the pachinko machine 10 is ON);
The erasing means includes means for erasing the second information stored in the information storage means based on the fact that the second operation means has accepted the second operation. Gaming machine.

  According to the feature X2, the erasing means includes means for erasing the second information stored in the information storage means based on the fact that the second operating means has accepted the second operation. The second information that cannot be deleted by operating the operating means can be deleted by operating the second operating means.

[Feature X3]
A gaming machine according to feature X2,
The gaming machine, wherein the second operation means (second RAM clear button) is stored inside a space where a trace of opening remains (inside a board box to which a seal seal is affixed).

  According to the feature X3, since the second operation means is stored in the space where the trace of opening remains, in order to erase the second information stored in the information storage means of the gaming machine, The second operating means will be operated with the space of the gaming machine open, leaving a trace of opening in the space of the gaming machine. That is, the second information stored in the information storage means can be erased based on whether or not there is a trace of opening in the space of the gaming machine. It becomes possible to grasp whether or not there is a sex.

  Here, if the gaming machine is illegally modified, the executed game is affected by the unauthorized modification, and is further stored in the information storage means of the gaming machine. In some cases, the information may affect the unauthorized modification. A person who inspects whether or not a normal game is being executed by a gaming machine (hereinafter also referred to as “inspector”) is applied to the gaming machine by checking information stored in the information storage means. Unauthorized alterations can be found. For this reason, there is a person who wants to prevent an inspector from discovering that the gaming machine has been tampered with by deleting the information (hereinafter also referred to as “illegal person”) 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 operate the second operation means with the space of the gaming machine open. Then, since the trace of opening remains in the space of the gaming machine, even if the second information stored in the information storage means is deleted, the information may be deleted for illegal concealment. There will be a trace that there is. Therefore, it is possible to make it difficult to conceal unauthorized alterations made to gaming machines, and in turn, it is possible to suppress the occurrence of motives such as making unauthorized modifications to gaming machines, thereby improving game soundness. Can be made.

  Note that gaming machines may be circulated by transaction, and those who want to newly distribute gaming machines that have already been played (so-called used gaming machines) are stored in the information storage means of the gaming machine. In some cases, there may be a legitimate request to distribute the deleted second information. Therefore, if only those who have a desire to delete the second information stored in the information storage means of the gaming machine for a legitimate reason can establish a distribution system that can erase the trace of the opening of the space, It is possible to promote smooth distribution of gaming machines while ensuring the soundness of games.

<Feature Y group>
The feature Y group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature Y1]
Control means for controlling the execution of the game (the main CPU 62x of aspects 43 and 44 of the first embodiment);
Based on the first information (information used in the game progress process stored in the first area of the main RAM 64), which is information used for controlling the execution of the game by the control means, and the executed game Information storage means for storing second information which is acquired information (award ball total value stored in the second area of the main side RAM 64, game history information such as an accessory ratio, number of balls entered, etc.) (Main RAM 64),
Operation means (RAM clear button and power switch) for receiving a predetermined operation;
Erasing means for erasing the information stored in the information storage means;
A gaming machine comprising
The erasing means includes
The operation means performs a first operation (turning 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 time after the power of the pachinko machine 10 is turned on. The first information stored in the information storage means is erased based on receiving the operation)
A second operation different from the first operation by the operation means (an operation of turning on the power of the pachinko machine 10 while pressing the RAM clear button and continuing the state in which the RAM clear button is pressed for a predetermined time) A gaming machine comprising: means for erasing the second information stored in the information storage means on the basis of accepting the information.

  According to the characteristic Y1, the erasure unit erases the first information stored in the information storage unit based on the fact that the operation unit has accepted the first operation, and the operation unit Includes means for erasing the second information stored in the information storage means on the basis of accepting a different second operation, so that the information storage means can be executed by executing different operations on the operation means. It is possible to select information to be deleted from the information stored in. That is, the target information to be erased can be selected without providing other operating means for selecting the information to be erased, so that the structure of the gaming machine can be simplified.

  Specifically, for example, the first information, which is information used for controlling the execution of the game, is deleted when a malfunction occurs in the control of the game execution or when the game hall starts or ends. When it is desired to execute the initialization of the control of the gaming machine, the first operation is executed, while the second information which is the information acquired based on the executed game is deleted and the gaming machine is newly If it is desired to circulate, the second operation may be executed. As described above, by performing different operations on the operation unit, it is possible to select information to be deleted from the information stored in the information storage unit.

[Feature Y2]
A gaming machine according to feature Y1,
The erasing means accepts the second operation (an operation in which the power of the pachinko machine 10 is turned on while pressing the RAM clear button and the state in which the RAM clear button is pressed is continued for a predetermined time). Based on the above, in addition to erasing the second information stored in the information storage means, the gaming machine further comprises means for erasing the first information.

  According to the feature Y2, the erasure unit erases the second information stored in the information storage unit based on the fact that the operation unit has accepted the second operation. Since the information erasing unit is provided, it is possible to erase both the first information and the second information by executing the second operation on the operation unit.

<Characteristic Z group>
The feature Z group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature Z1]
Control means for controlling the execution of the game (the main CPU 62x of the aspect 41 of the first embodiment);
Information storage means (flash memory 64x) for storing information obtained based on the executed game (game history information such as prize ball total value, winning ratio, etc., number of entered balls, etc.);
An erasing unit (erase IC chip) for erasing the information stored in the information storage unit;
A receiving means for receiving authentication information (password);
A gaming machine comprising
The erasing means comprises means for erasing the information stored in the information storage means based on the fact that the authentication information received by the receiving means satisfies a predetermined condition.

  According to the feature Z1, 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 receiving means satisfies a predetermined condition. A person who has the authentication information to satisfy can erase the information stored in the information storage means. In other words, it is possible to limit deletion of the information by a person who does not have authentication information that satisfies the predetermined condition.

  Here, if the gaming machine is illegally modified, the executed game will be affected by the unauthorized modification, and the information stored in the information storage means of the gaming machine will be displayed. The effects of the unauthorized modification may appear. A person who inspects whether or not a normal game is being executed by a gaming machine (hereinafter also referred to as “inspector”) is applied to the gaming machine by checking information stored in the information storage means. Unauthorized alterations can be found. For this reason, there is a person who wants to prevent an inspector from discovering that the gaming machine has been tampered with by deleting the information (hereinafter also referred to as “illegal person”) there's a possibility that.

  However, according to this feature, in order to erase the information stored in the information storage unit, it is necessary to have authentication information that satisfies the predetermined condition. Then, by restricting who can have authentication information that satisfies the predetermined condition, it is possible to prevent the information stored in the information storage means from being erased by an unauthorized person, and in turn It is possible to suppress the generation of motives for improper modification of the machine, and to improve the soundness of the game.

  Note that gaming machines may be circulated by transaction, and those who want to newly distribute gaming machines that have already been played (so-called used gaming machines) are stored in the information storage means of the gaming machine. There are cases where there is a legitimate request to delete the stored information and distribute it. Therefore, if only a person who has a desire to delete information stored in the information storage means of the gaming machine for a valid reason, a distribution system capable of having authentication information that satisfies the predetermined condition, It is possible to promote smooth distribution of gaming machines while ensuring the soundness of games.

[Feature Z2]
A gaming machine according to the feature Z1,
The gaming machine according to claim 1, wherein the information storage means can hold the memory even when power supply is cut off.

  According to the feature Z2, since the information acquired based on the executed game can be held even when the power supply to the gaming machine is cut off, for example, in the distribution process Even when power is not supplied, it is possible to check whether or not a normal game has been executed in the gaming machine.

[Feature Z3]
A gaming machine according to feature Z1 or feature Z2,
The information acquired based on the executed game includes information on the number of game balls that have already been paid out as prize balls (award ball total value).

  According to the feature Z3, it is possible to inspect whether or not a normal game has been executed in the gaming machine by using information on the number of gaming balls that have already been paid out as prize balls.

[Feature Z4]
A gaming machine according to any one of features Z1 to Z3,
The information storage means is stored in a space where an open trace remains (inside a board box to which a seal seal is attached).

  According to the feature Z4, since the information storage means is stored inside the space where the trace of opening remains, in order to make an unauthorized modification to the information stored in the information storage means, The space of the gaming machine will be opened, leaving a trace of opening in the space of the gaming machine. That is, based on whether or not there is a trace of opening in the space of the gaming machine, the space of the gaming machine is opened and the information stored in the information storage means has been tampered with. It becomes possible to grasp whether or not there is a possibility. Therefore, it is possible to make it difficult to conceal unauthorized modification applied to information stored in the information storage means, and in turn, to generate motivation to perform unauthorized modification on information stored in the information storage means. Can be suppressed, and the soundness of the game can be improved.

  The invention of the above-mentioned feature T group to feature Z group solves the following problems.

  In gaming machines such as pachinko machines and slot machines, the structure, control, etc. for the purpose of improving the fun of the game, reducing the processing load of the gaming machine, optimizing the processing, simplifying the control, simplifying the structure, etc. Technical improvements have been made from various viewpoints such as production.

  In addition, various technical improvements have been made for the purpose of improving the soundness of games, such as the discovery and suppression of illegal acts by players and unauthorized modifications to gaming machines.

  In the gaming machines as described above, for the purpose of improving the fun of the game, reducing the processing load of the gaming machine, optimizing the processing, simplifying the control, simplifying the structure, providing a more healthy game, etc. Improvement of technology is desired.

<Characteristic αA group>
The feature αA group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αA1]
The entrance part where game balls can enter,
Signal output means (each of the incoming detection sensors 44a to 44h) for outputting a signal based on the entrance of the game ball into the entrance part;
Judgment information output means for determining whether or not a game ball has entered the pitching unit based on the signal and outputting judgment information (ballistic information) that is information based on the judgment IC62c),
Control means (main CPU 62x) for controlling 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 without going through the control means.

  According to the characteristic αA1, the determination information output unit includes a unit that outputs the determination information to the predetermined device connected to the connection unit without passing through the control unit. Therefore, the predetermined device is influenced by the control unit. It is possible to receive determination information that has not been received.

  For example, if the configuration that outputs the determination information via the control unit to a predetermined device connected to the connection unit without using the configuration of this feature, a problem occurs in the control unit. In the case where it is being performed or illegally modified, the determination information output to a predetermined device may be affected by the malfunction or unauthorized modification.

  On the other hand, according to this feature, the determination information output means includes a means for outputting the determination information to the predetermined device connected to the connection means without going through the control means. Even if it occurs or is illegally modified, the judgment information output to a predetermined device is not affected by the malfunction or unauthorized modification. As a result, the predetermined device connected to the connection means can execute processing based on determination information that is not affected by the malfunction or unauthorized modification.

[Feature αA2]
A gaming machine according to feature αA1,
A plurality of the entrance parts into which game balls can enter, and a plurality of the signal output means for outputting signals based on the entrance of game balls into the entrance parts,
The determination information output means determines whether or not a game ball has entered each of the plurality of ball-entry portions based on the signals output from each of the plurality of signal output means, The determination information (entrance information), which is information based on determination and corresponding to each of the plurality of ingress parts, is transmitted to the predetermined device connected to the connection means with a serial transmission method. A gaming machine characterized by comprising means for outputting according to the above.

  According to the feature αA2, the determination information output means includes a means for outputting the determination information corresponding to each of the plurality of ball-entry units to the predetermined device connected to the connection means by a serial transmission method. Compared with the case where the configuration in which the determination information is output by the parallel transmission method is adopted, the configuration of the connection means for passing the determination information to the predetermined device can be simplified and the predetermined information for receiving the determination information can be received. The configuration of the apparatus can be simplified.

  Specifically, if a configuration is adopted in which determination information corresponding to each of a plurality of balls is output by a parallel transmission method, the connection means outputs outputs corresponding to the number of balls of the plurality of balls. It is necessary to provide a part. Similarly, the predetermined device needs to include input units corresponding to the number of the plurality of ball entering units. In addition, since the number of pitching units provided in the gaming machine differs for each type of gaming machine (for each model), it is necessary to prepare a predetermined device having a different number of terminals for each type of gaming machine (for each model). Occurs.

  On the other hand, according to the present feature, the determination information output means outputs, to the predetermined device connected to the connection means, determination information corresponding to each of the plurality of ball-entry portions by a serial transmission method. Therefore, the connection means may be configured to include at least one output unit that can output the determination information by the serial transmission method regardless of the number of the ball entering units included in the gaming machine. Therefore, the configuration of the connecting means can be simplified. Similarly, the predetermined device may be configured to include at least one input unit that can input the determination information output by the serial transmission method regardless of the number of the entrance units provided in the gaming machine. The configuration of the predetermined apparatus can be simplified. In addition, even when a predetermined device is connected to a gaming machine having a different number of pitching units, the predetermined device inputs determination information corresponding to each of the plurality of pitching units by a serial transmission method. Can do. In other words, the predetermined device can be used for other gaming machines having different numbers of pitching parts. As a result, it is possible to improve the versatility of the predetermined device.

[Feature αA3]
The gaming machine according to feature αA1 or feature αA2,
The connection means is configured to be able to connect to the predetermined device capable of calculating game history information (game history information such as an accessory ratio) that is information relating to a game history based on the determination information. A gaming machine.

  According to the characteristic αA3, the predetermined device connected to the connection unit can calculate the game history information based on the determination information not affected by the control unit. Therefore, the inspector who inspects the performance of the gaming machine can check the game history information that is not affected by the control means by using a predetermined device. As a result, game soundness can be ensured.

<Characteristic αB group>
The feature αB group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αB1]
A plurality of entrances where game balls can enter;
A plurality of signal output means (each of the incoming detection sensors 44a to 44h) for outputting a signal based on the entrance of the game ball to each of the plurality of incoming balls;
Based on the signals output from each of the plurality of signal output means, it is determined whether or not a game ball has entered each of the plurality of entrance parts, and information based on the determination. Determination information output means (entrance detection IC 62c) for outputting determination information (entrance information) which is information corresponding to each of the plurality of entrance parts,
Control means (main CPU 62x) for controlling 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 balls to the predetermined device connected to the connection means by a serial transmission method. To play.

  According to the characteristic αB1, the determination information output means includes a means for outputting the determination information corresponding to each of the plurality of ball-entry units to the predetermined device connected to the connection means by a serial transmission method. Compared with the case where the configuration in which the determination information is output by the parallel transmission method is adopted, the configuration of the connection means for passing the determination information to the predetermined device can be simplified and the predetermined information for receiving the determination information can be received. The configuration of the apparatus can be simplified.

  Specifically, if a configuration is adopted in which determination information corresponding to each of a plurality of balls is output by a parallel transmission method, the connection means outputs outputs corresponding to the number of balls of the plurality of balls. It is necessary to provide a part. Similarly, the predetermined device needs to include input units corresponding to the number of the plurality of ball entering units. In addition, since the number of pitching units provided in the gaming machine differs for each type of gaming machine (for each model), it is necessary to prepare a predetermined device having a different number of terminals for each type of gaming machine (for each model). Occurs.

  On the other hand, according to the present feature, the determination information output means outputs, to the predetermined device connected to the connection means, determination information corresponding to each of the plurality of ball-entry portions by a serial transmission method. Therefore, the connection means may be configured to include at least one output unit that can output the determination information by the serial transmission method regardless of the number of the ball entering units included in the gaming machine. Therefore, the configuration of the connecting means can be simplified. Similarly, the predetermined device may be configured to include at least one input unit that can input the determination information output by the serial transmission method regardless of the number of the entrance units provided in the gaming machine. The configuration of the predetermined apparatus can be simplified. In addition, even when a predetermined device is connected to a gaming machine having a different number of pitching units, the predetermined device inputs determination information corresponding to each of the plurality of pitching units by a serial transmission method. Can do. In other words, the predetermined device can be used for other gaming machines having different numbers of pitching parts. As a result, it is possible to improve the versatility of the predetermined device.

[Feature αB2]
A gaming machine according to the characteristic αB1,
The connection means is configured to be able to connect to the predetermined device capable of calculating game history information (game history information such as an accessory ratio) that is information relating to a game history based on the determination information. A gaming machine.

  According to the characteristic αB2, the predetermined device connected to the connection unit can calculate the game history information based on the determination information not affected by the control unit. Therefore, the inspector who inspects the performance of the gaming machine can check the game history information that is not affected by the control means by using a predetermined device. As a result, game soundness can be ensured.

[Feature αB3]
A gaming machine according to the characteristic αB1 or the characteristic αB2,
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 the characteristic αB3, the determination information output unit includes a unit that outputs the determination information to the predetermined device connected to the connection unit without passing through the control unit. Therefore, the predetermined device is influenced by the control unit. It is possible to receive determination information that has not been received.

  For example, if the configuration that outputs the determination information via the control unit to a predetermined device connected to the connection unit without using the configuration of this feature, a problem occurs in the control unit. In the case where it is being performed or illegally modified, the determination information output to a predetermined device may be affected by the malfunction or unauthorized modification.

  On the other hand, according to this feature, the determination information output means includes a means for outputting the determination information to the predetermined device connected to the connection means without going through the control means. Even if it occurs or is illegally modified, the judgment information output to a predetermined device is not affected by the malfunction or unauthorized modification. As a result, the predetermined device connected to the connection means can execute processing based on determination information that is not affected by the malfunction or unauthorized modification.

<Characteristic αC group>
The feature αC group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αC1]
The entrance part where game balls can enter,
Signal output means (each of the incoming detection sensors 44a to 44h) for outputting a signal based on the entrance of the game ball into the entrance part;
Judgment information output means for determining whether or not a game ball has entered the pitching unit based on the signal and outputting judgment information (ballistic information) that is information based on the judgment IC62c),
Control means (main CPU 62x) for controlling 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 is provided 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 game machine comprising output control means for outputting the determination information to the device.

  According to the characteristic αC1, the determination information output unit includes a unit that outputs determination information to the predetermined device only when a relationship with the predetermined device connected to the connection unit satisfies a predetermined condition. Therefore, it is possible to prevent the determination information of the gaming machine from being output to the outside except when 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]
A gaming machine according to feature αC1,
The predetermined condition includes receiving a predetermined signal from the predetermined device connected to the connection means.

  According to the characteristic αC2, the determination information of the gaming machine is output to the outside when a predetermined condition including receiving a predetermined signal from a predetermined device connected to the connection unit is not satisfied. 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]
A gaming machine according to feature αC1 or feature αC2,
A plurality of the entrance parts into which game balls can enter, and a plurality of the signal output means for outputting signals based on the entrance of game balls into the entrance parts,
The determination information output means determines whether or not a game ball has entered each of the plurality of ball-entry portions based on the signals output from each of the plurality of signal output means, The determination information (entrance information), which is information based on determination and corresponding to each of the plurality of ingress parts, is transmitted to the predetermined device connected to the connection means with a serial transmission method. A gaming machine characterized by comprising means for outputting according to the above.

  According to the feature αC3, the determination information output means includes a means for outputting determination information corresponding to each of the plurality of ball-entry portions to a predetermined device connected to the connection means by a serial transmission method. Compared with the case where the configuration in which the determination information is output by the parallel transmission method is adopted, the configuration of the connection means for passing the determination information to the predetermined device can be simplified and the predetermined information for receiving the determination information can be received. The configuration of the apparatus can be simplified.

  Specifically, if a configuration is adopted in which determination information corresponding to each of a plurality of balls is output by a parallel transmission method, the connection means outputs outputs corresponding to the number of balls of the plurality of balls. It is necessary to provide a part. Similarly, the predetermined device needs to include input units corresponding to the number of the plurality of ball entering units. In addition, since the number of pitching units included in the gaming machine is different for each type of gaming machine (for each model), a predetermined device having a different number of input units for each type of gaming machine (for each model) is prepared. Need arises.

  On the other hand, according to the present feature, the determination information output means outputs, to the predetermined device connected to the connection means, determination information corresponding to each of the plurality of ball-entry portions by a serial transmission method. Therefore, the connection means may be configured to include at least one output unit that can output the determination information by the serial transmission method regardless of the number of the ball entering units included in the gaming machine. Therefore, the configuration of the connecting means can be simplified. Similarly, the predetermined device may be configured to include at least one input unit that can input the determination information output by the serial transmission method regardless of the number of the entrance units provided in the gaming machine. The configuration of the predetermined apparatus can be simplified. In addition, even when a predetermined device is connected to a gaming machine having a different number of pitching units, the predetermined device inputs determination information corresponding to each of the plurality of pitching units by a serial transmission method. Can do. In other words, the predetermined device can be used for other gaming machines having different numbers of pitching parts. As a result, it is possible to improve the versatility of the predetermined device.

[Feature αC4]
The gaming machine according to any one of features αC1 to αC3,
The connection means is configured to be able to connect to the predetermined device capable of calculating game history information (game history information such as an accessory ratio) that is information relating to a game history based on the determination information. A gaming machine.

  According to the characteristic αC4, the predetermined device connected to the connection unit can calculate the game history information based on the determination information not affected by the control unit. Therefore, the inspector who inspects the performance of the gaming machine can check the game history information that is not affected by the control means by using a predetermined device. As a result, game soundness can be ensured.

[Feature αC5]
The gaming machine according to any one of features αC1 to αC4,
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 the characteristic αC5, the determination information output unit includes a unit that outputs the determination information to the predetermined device connected to the connection unit without passing through the control unit. Therefore, the predetermined device is influenced by the control unit. It is possible to receive determination information that has not been received.

  For example, if the configuration that outputs the determination information via the control unit to a predetermined device connected to the connection unit without using the configuration of this feature, a problem occurs in the control unit. In the case where it is being performed or illegally modified, the determination information output to a predetermined device may be affected by the malfunction or unauthorized modification.

  On the other hand, according to this feature, the determination information output means includes a means for outputting the determination information to the predetermined device connected to the connection means without going through the control means. Even if it occurs or is illegally modified, the judgment information output to a predetermined device is not affected by the malfunction or unauthorized modification. As a result, the predetermined device connected to the connection means can execute processing based on determination information that is not affected by the malfunction or unauthorized modification.

<Characteristic αD group>
The feature αD group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αD1]
The entrance part where game balls can enter,
Signal output means (each of the incoming detection sensors 44a to 44h) for outputting a signal based on the entrance of the game ball into the entrance part;
Judgment information output means for determining whether or not a game ball has entered the pitching unit based on the signal and outputting judgment information (ballistic information) that is information based on the judgment IC62c),
Control means (main CPU 62x) for controlling 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:
The number of prize balls that is information that can specify the number of game balls to be paid out as a prize ball when one game ball enters the pitching unit with respect to the predetermined device connected to the connection means A gaming machine comprising a prize ball number information output means for outputting information.

  According to the feature αD1, since the prize ball number information output means for outputting the prize ball number information to the predetermined device connected to the connection means is provided, it is troublesome to manually input the prize ball number information to the predetermined device. Can be omitted, and erroneous prize ball number information can be prevented from being input to a predetermined device. As a result, the predetermined device can execute processing based on the determination information and the accurate prize ball number information output from the prize ball number information output means.

[Feature αD2]
A gaming machine according to feature αD1,
A gaming machine, comprising: type information output means for outputting type information, which is information capable of specifying the type of the pitched part, to the predetermined device connected to the connection means.

  According to the feature αD2, since the type information output unit that outputs the type information to the predetermined device connected to the connection unit is provided, it is possible to save the trouble of manually inputting the type information to the predetermined device. , It is possible to prevent erroneous type information from being input to a predetermined device. As a result, the predetermined apparatus can execute processing based on the determination information output from the determination information output unit and the accurate type information output from the type information output unit. In addition, the type of the entrance portion is, for example, the entrance portion where the signal output means (entrance detection sensors 44a to 44h) such as the first start port, the second start port, the big winning opening, and the discharge passage are provided. It is a type.

[Feature αD3]
A gaming machine according to feature αD1 or feature αD2,
A plurality of the entrance parts into which game balls can enter, and a plurality of the signal output means for outputting signals based on the entrance of game balls into the entrance parts,
The determination information output means determines whether or not a game ball has entered each of the plurality of ball-entry portions based on the signals output from each of the plurality of signal output means, The determination information (entrance information), which is information based on determination and corresponding to each of the plurality of ingress parts, is transmitted to the predetermined device connected to the connection means with a serial transmission method. A gaming machine characterized by comprising means for outputting according to the above.

  According to the feature αD3, the determination information output means includes a means for outputting determination information corresponding to each of the plurality of ball-entry portions to a predetermined device connected to the connection means by a serial transmission method. Compared with the case where the configuration in which the determination information is output by the parallel transmission method is adopted, the configuration of the connection means for passing the determination information to the predetermined device can be simplified and the predetermined information for receiving the determination information can be received. The configuration of the apparatus can be simplified.

  Specifically, if a configuration is adopted in which determination information corresponding to each of a plurality of balls is output by a parallel transmission method, the connection means outputs outputs corresponding to the number of balls of the plurality of balls. It is necessary to provide a part. Similarly, the predetermined device needs to include input units corresponding to the number of the plurality of ball entering units. In addition, since the number of pitching units provided in the gaming machine differs for each type of gaming machine (for each model), it is necessary to prepare a predetermined device having a different number of terminals for each type of gaming machine (for each model). Occurs.

  On the other hand, according to the present feature, the determination information output means outputs, to the predetermined device connected to the connection means, determination information corresponding to each of the plurality of ball-entry portions by a serial transmission method. Therefore, the connection means may be configured to include at least one output unit that can output the determination information by the serial transmission method regardless of the number of the ball entering units included in the gaming machine. Therefore, the configuration of the connecting means can be simplified. Similarly, the predetermined device may be configured to include at least one input unit that can input the determination information output by the serial transmission method regardless of the number of the entrance units provided in the gaming machine. The configuration of the predetermined apparatus can be simplified. In addition, even when a predetermined device is connected to a gaming machine having a different number of pitching units, the predetermined device inputs determination information corresponding to each of the plurality of pitching units by a serial transmission method. Can do. In other words, the predetermined device can be used for other gaming machines having different numbers of pitching parts. As a result, it is possible to improve the versatility of the predetermined device.

[Feature αD4]
The gaming machine according to any one of features αD1 to αD3,
The prize ball number information output means outputs means for outputting the prize ball number information based on receiving a predetermined signal (entrance entrance information transmission request command) from the predetermined device connected to the connection means. A gaming machine characterized by comprising.

  According to the feature αD4, the prize ball number information output means includes means for outputting the prize ball number information based on reception of a predetermined signal from a predetermined device connected to the connection means. It is possible to prevent the prize ball number information from being output to the outside at the timing.

[Feature αD5]
The gaming machine according to any one of features αD1 to αD4,
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 the feature αD5, the prize ball number information output means includes means for outputting the prize ball number information when a predetermined apparatus is connected to the connection means, so that the predetermined apparatus is connected to the connection means. The winning ball number information can be acquired promptly. Therefore, for example, a predetermined device can quickly execute a process that requires the prize ball number information after being connected to the connection means.

[Feature αD6]
The gaming machine according to any one of features αD1 to αD5,
The connection means is configured to be able to connect to the predetermined device capable of calculating game history information (game history information such as an accessory ratio) that is information relating to a game history based on the determination information. A gaming machine.

  According to the feature αD6, the predetermined device connected to the connection unit can calculate the game history information based on the determination information not affected by the control unit. Therefore, the inspector who inspects the performance of the gaming machine can check the game history information that is not affected by the control means by using a predetermined device. As a result, game soundness can be ensured.

[Feature αD7]
The gaming machine according to any one of features αD1 to αD6,
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 the feature αD7, the determination information output unit includes a unit that outputs the determination information to the predetermined device connected to the connection unit without passing through the control unit. Therefore, the predetermined device is influenced by the control unit. It is possible to receive determination information that has not been received.

  For example, if the configuration that outputs the determination information via the control unit to a predetermined device connected to the connection unit without using the configuration of this feature, a problem occurs in the control unit. In the case where it is being performed or illegally modified, the determination information output to a predetermined device may be affected by the malfunction or unauthorized modification.

  On the other hand, according to this feature, the determination information output means includes a means for outputting the determination information to the predetermined device connected to the connection means without going through the control means. Even if it occurs or is illegally modified, the judgment information output to a predetermined device is not affected by the malfunction or unauthorized modification. As a result, the predetermined device connected to the connection means can execute processing based on determination information that is not affected by the malfunction or unauthorized modification.

[Feature αD8]
A gaming machine according to feature αD2,
The type information output means comprises means for outputting the type information based on receiving a predetermined signal (entrance entrance information transmission request command) from the predetermined device connected to the connection means. A gaming machine.

  According to the characteristic αD8, the type information output unit includes a unit that outputs the type information based on reception of a predetermined signal from a predetermined device connected to the connection unit. Information can be prevented from being output to the outside.

[Feature αD9]
The gaming machine according to feature αD2 or feature D8,
The type information output means includes means for outputting the type information when the predetermined device is connected to the connection means.

  According to the characteristic αD9, the type information output unit includes a unit that outputs the type information when the predetermined device is connected to the connection unit, so that the predetermined device is promptly connected after being connected to the connection unit. Type information can be acquired. Therefore, for example, a predetermined device can quickly execute a process that requires the type information after being connected to the connection unit.

<Feature αE group>
The feature αE group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αE1]
The entrance part where game balls can enter,
Signal output means (each of the incoming detection sensors 44a to 44h) for outputting a signal based on the entrance of the game ball into the entrance part;
Judgment information output means for determining whether or not a game ball has entered the pitching unit based on the signal and outputting judgment information (ballistic information) that is information based on the judgment IC62c),
Control means (main CPU 62x) for controlling the progress of the game based on the determination information;
A calculation means (main CPU 62x, game history management chip 300) for calculating game history information (game history information such as an accessory ratio) that is information related to a 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 gaming machine comprising: 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 the feature αE1, since the game history information stored in the storage means and the determination information output means are provided for a predetermined device connected to the connection means, the connection means is connected. The predetermined device can receive the game history information stored in the storage means, and can execute processing based on the determination information.

  Specifically, for example, the 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 the game history information based on the determination information received during the predetermined inspection period connected to the connection means of the gaming machine, and the game history information (hereinafter referred to as the second game history information). Can be displayed. Thus, for example, an inspector who inspects a gaming machine can obtain a second game based on first game history information stored in storage means included in the gaming machine and determination information received by a predetermined device during a predetermined inspection period. It becomes possible to compare with history information.

  Here, if a gaming machine has a problem, or an illegal modification (for example, modification of a nail, etc.) has occurred, the gaming characteristics of the gaming machine have changed. Based on the first game history information (game history information calculated by the calculation means based on the determination information in the past predetermined period) and the determination information in the predetermined inspection period by the predetermined device. There may be a difference between the second game history information calculated in the above. Therefore, an inspector who inspects a gaming machine examines whether or not a malfunction or unauthorized modification (for example, modification of a nail) has occurred in the gaming machine by paying attention to a difference between two game history information. Can do.

[Feature αE2]
A gaming machine according to feature αE1,
The number of prize balls that is information that can specify the number of game balls to be paid out as a prize ball when one game ball enters the pitching unit with respect to the predetermined device connected to the connection means A gaming machine comprising a prize ball number information output means for outputting information.

  According to the feature αE2, since the prize ball number information output means for outputting the prize ball number information to the predetermined device connected to the connection means is provided, it is troublesome to manually input the prize ball number information to the predetermined device. Can be omitted, and erroneous prize ball number information can be prevented from being input to a predetermined device. As a result, the predetermined device can execute processing based on the determination information output from the determination information output means and the accurate prize ball number information output from the prize ball number information output means.

[Feature αE3]
A gaming machine according to feature αE1 or feature αE2,
The connection means is configured to be able to connect to the predetermined device capable of calculating game history information (game history information such as an accessory ratio) that is information relating to a game history based on the determination information. A gaming machine.

  According to the characteristic αE3, the predetermined device connected to the connection unit can calculate the game history information based on the determination information not affected by the control unit. Therefore, the inspector who inspects the performance of the gaming machine can check the game history information that is not affected by the control means by using a predetermined device. As a result, game soundness can be ensured.

[Feature αE4]
The gaming machine according to any one of features αE1 to αE3,
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 the feature αE4, the determination information output unit includes a unit that outputs the determination information to the predetermined device connected to the connection unit without passing through the control unit. Therefore, the predetermined device is influenced by the control unit. It is possible to receive determination information that has not been received.

  For example, if the configuration that outputs the determination information via the control unit to a predetermined device connected to the connection unit without using the configuration of this feature, a problem occurs in the control unit. In the case where it is being performed or illegally modified, the determination information output to a predetermined device may be affected by the malfunction or unauthorized modification.

  On the other hand, according to this feature, the determination information output means includes a means for outputting the determination information to the predetermined device connected to the connection means without going through the control means. Even if it occurs or is illegally modified, the judgment information output to a predetermined device is not affected by the malfunction or unauthorized modification. As a result, the predetermined device connected to the connection means can execute processing based on determination information that is not affected by the malfunction or unauthorized modification.

<Feature αF group>
The feature αF group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αF1]
First process group execution means for repeatedly executing the first process group (residual process of the main process);
Based on the fact that a predetermined condition is satisfied (a predetermined time has elapsed since the start of the previous execution of the second processing group), the second processing group (game progress processing including game times control processing) is Second process group execution means for interrupting and executing the first process group;
A gaming machine comprising
The first process group execution means executes the first process group in a period (residual time) from the end of execution of one second process group to the start of execution of the next second process group. It has a means to execute repeatedly,
The first processing group includes game history information related processing (game history processing) that is processing related to calculation of game history information (such as an accessory ratio, continuous accessory ratio, etc.) that is information relating to a game history. A gaming machine characterized by that.

  According to the feature αF1, the first process group including the game history information related process is repeatedly executed in a period from the end of execution of one second process group to the start of execution of the next second process group. Therefore, it can be suppressed that the execution of the first process group including the game history information related process is started even though the execution of one second process group has not ended. That is, while giving priority to the execution of the second processing group, the game history information is quickly obtained by repeatedly executing the first processing group including the game history information related processing in a period in which the second processing group is not executed. It is possible to calculate.

  In addition, if a configuration in which the game history information related processing is included in the second processing group without executing the configuration of this feature is adopted, the execution of one execution of the second processing group is performed. The time required from the start to the end becomes long. For example, the execution of one second process group is still completed at a timing when a predetermined condition that triggers the start of the execution of the next second process 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 possibility that a malfunction 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 game history information related process is included in the first process group and executed, the game history information related process is included in the second process group and executed. 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 in which the execution of one second processing group has not yet ended at the timing when a predetermined condition that triggers the start of execution of the next second processing group is satisfied. It is possible to suppress the occurrence of a situation in which the execution of the next second processing group cannot be started until the execution of the one second processing group is completed. As a result, it is possible to suppress the occurrence of problems due to the delay in starting execution of the next second processing group.

  As described above, according to this feature, the game history information-related information is generated during a period in which the second processing group is not executed while suppressing the occurrence of a malfunction due to the delay in starting the execution of the next second processing group. It is possible to calculate game history information efficiently and promptly by repeatedly executing the first processing group including the processing.

[Feature αF2]
A gaming machine according to feature αF1,
The second processing group includes a game progress process that is a process related to the progress of a game.

  According to the feature αF2, since it is possible to suppress the start of execution of the second processing group including the game progress process that is a process related to the progress of the game from being delayed, a problem occurs in the progress of the game. While suppressing this, it is possible to quickly calculate the game history information by repeatedly executing the first process group including the game history information related process in the period when the second process group is not executed.

[Feature αF3]
A gaming machine according to feature αF1 or feature αF2,
The game history information-related processing includes a plurality of processing stages (multiple types of tasks) that complete the calculation of the game history information by executing sequentially.
The first processing group execution means executes a part of the plurality of processing steps in one execution of the game history information related processing.

  According to the feature αF3, the first process group executing means executes a part of the plurality of process stages in one execution of the game history information related process. For example, the game history information related process Compared to a configuration in which all of the plurality of processing stages are executed in one execution of the above, 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 is completed in a short time. The time until the execution of the second processing group is started can be shortened. As a result, it is possible to quickly calculate the game history information by repeatedly executing the first process group while suppressing the occurrence of a malfunction due to the delay in starting the execution of the second process group. .

[Feature αF4]
The gaming machine according to any one of features αF1 to αF3,
The predetermined condition includes that a predetermined time has elapsed since the start of the previous execution of the second processing group.

  According to the feature αF4, since the predetermined condition includes that a predetermined time has elapsed since the start of the previous execution of the second processing group, the second processing group can be executed periodically. Then, after the execution of the second processing group is finished and until a predetermined time elapses from the start of the execution of the second processing group, the first processing group including the game history information related processing is changed. By repeatedly executing the game history information, it is possible to quickly calculate the game history information.

  The invention of the above-mentioned feature αA group-feature αF group solves the following problems.

  In gaming machines such as pachinko machines and slot machines, it is technical from various viewpoints of structure, control, production, etc. for the purpose of improving the fun of gaming, reducing the processing load of gaming machines, and simplifying control. Improvements have been made (for example, Patent Document 1).

  In addition, various technical improvements have been made for the purpose of improving the soundness of games, such as the discovery and suppression of illegal acts by players and unauthorized modifications to gaming machines.

  In the gaming machines as described above, further technical improvements are desired for the purpose of improving the fun of the game, reducing the processing load of the gaming machine, simplifying the control, and providing a more sound game.

<Characteristic αG group>
The feature αG group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αG1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
Change means capable of changing a winning probability for winning a predetermined result in the predetermined lottery process to a different winning probability by receiving a predetermined operation from outside;
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means;
Calculation means for calculating game history information (game history information such as an accessory ratio, continuous accessory ratio, etc.) which is information relating to a game history based on the detection information;
Display means for displaying 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 a change in the winning probability as a boundary,
The calculating means includes means for calculating game history information for each of the plurality of periods based on the detection information for the plurality of periods.
The game machine according to claim 1, wherein the display means includes means for displaying based on the game history information for each of the plurality of periods.

  According to the feature αG1, the inspector of the gaming machine can check the display based on the gaming history information for each of a plurality of periods with the change of the winning probability in the gaming machine as a boundary. For example, when the display based on the game history information is a numerical value of the game history information itself, the inspector may confirm that the game history information is within an appropriate range in the process in which the winning probability has been changed in the past in the gaming machine. It becomes possible to confirm whether or not there is a situation that has not occurred.

<Characteristic αH group>
The feature αH group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αH1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
Change means capable of changing a winning probability for winning a predetermined result in the predetermined lottery process to a different winning probability by receiving a predetermined operation from outside;
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means;
Calculation means for calculating game history information (game history information such as an accessory ratio, continuous accessory ratio, etc.) which is information relating to a game history based on the detection information;
Display means for displaying based on the game history information calculated by the calculation means;
When the winning probability is changed again before the detection 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 the characteristic αH1, the inspector of the gaming machine can confirm whether or not the winning probability has been changed again before the detection information is accumulated up to a predetermined amount by confirming the predetermined information. As a result, it is possible to suppress a change in the winning probability based on an unauthorized intention by the administrator of the gaming machine.

  For example, if the detection information stored before the change of the winning probability is deleted based on the change of the winning probability, the gaming machine is inspected by the inspector. In addition, the manager of the gaming machine changes the winning probability again and stores it in the gaming machine even though the gaming machine is not often played after the winning probability is changed. The detected information may be deleted. However, according to this aspect, when the winning probability is changed again in a short period in spite of the fact that the game machine is not often played after the winning probability is changed, Short-term change information will be recorded and displayed. Therefore, by checking the short-term change information, the inspector can recognize that the winning probability may have been changed in a short time due to an unfair intention such as erasure of the detection information. . As a result, it is possible to suppress a change in the winning probability based on an unauthorized intention by the administrator of the gaming machine.

[Feature αH2]
A gaming machine described in feature αH1,
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 a 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 the plurality of periods.
The display means includes means for displaying based on the game history information for each of the plurality of periods,
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 the feature αH2, the inspector of the gaming machine can confirm the display based on the gaming history information for each of a plurality of periods with the change of the winning probability in the gaming machine as a boundary. For example, when the display based on the game history information is a numerical value of the game history information itself, the inspector may confirm that the game history information is within an appropriate range in the process in which the winning probability has been changed in the past in the gaming machine. It becomes possible to confirm whether or not there is a situation that has not occurred.

  Furthermore, according to this feature, the inspector of the gaming machine can confirm whether or not the winning probability has been changed again before the detection information is accumulated to a predetermined amount by confirming the predetermined information. it can. As a result, it is possible to suppress a change in the winning probability based on an unauthorized intention by the administrator of the gaming machine.

  Specifically, for example, before a gaming machine is inspected by an inspector, the manager of the gaming machine repeatedly changes the winning probability in a short period of time, and changes the winning probability of the gaming machine as a boundary. The detection information in a plurality of periods may be deleted. However, according to this feature, when the winning probability is repeatedly changed in a short period, the above-described 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 winning probability has been changed in a short time due to an unauthorized intention. As a result, it is possible to suppress a change in the winning probability based on an unauthorized intention by the administrator of the gaming machine.

<Characteristic αI group>
The feature αI group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αI1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
Change means capable of changing a winning probability for winning a predetermined result in the predetermined lottery process to a different winning probability by receiving a predetermined operation from outside;
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means;
Calculation means for calculating game history information (game history information such as an accessory ratio, continuous accessory ratio, etc.) which is information relating to a game history based on the detection information;
Display means for displaying 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 erasure means changes the winning probability after the detection information stored in the storage means after the winning probability is changed is accumulated to a predetermined amount. A gaming machine comprising: means for erasing the detection information stored in the storage means before the game.

  According to the characteristic αI1, the detection information stored in the storage unit before the winning probability is changed until the detection information stored in the storage unit after the winning probability is changed is accumulated to a predetermined amount. Since it is not erase | eliminated, it can suppress that the detection information memorize | stored before the change of winning probability is erase | eliminated intentionally by changing the winning probability of a game machine. For example, if the detection information acquired and stored before the change of the winning probability is deleted immediately after the winning probability of the gaming machine is changed, the gaming machine is inspected by the inspector. There is a possibility that the manager of the gaming machine changes the winning probability before the detection information stored before the changing of the winning probability is deleted. On the other hand, according to this feature, the detection information stored before the change of the winning probability is acquired until the detection information acquired and stored after the winning probability is changed is accumulated up to a predetermined amount. Is not erased, it is possible to suppress a change in the winning probability due to an unauthorized intention by the administrator of the gaming machine.

[Feature αI2]
A gaming machine according to the feature αI1,
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 a 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 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 stores the detection information stored in the storage means after the winning probability is changed up to a predetermined amount, and then includes the plurality of periods. A gaming machine comprising: means for erasing the detection information in the oldest period.

  According to the feature αI2, the inspector of the gaming machine can check the display based on the gaming history information for each of a plurality of periods with the change of the winning probability in the gaming machine as a boundary. For example, when the display based on the game history information is a numerical value of the game history information itself, the inspector may confirm that the game history information is within an appropriate range in the process in which the winning probability has been changed in the past in the gaming machine. It becomes possible to confirm whether or not there is a situation that has not occurred.

  Furthermore, according to this feature, the detection information in a plurality of periods with the change in the winning probability as a boundary can be prevented from being intentionally erased by repeatedly changing the winning probability of the gaming machine. it can. For example, if a configuration is adopted in which detection information in the oldest period among a plurality of periods with a change in winning probability as a boundary is deleted immediately after the winning probability of the gaming machine is changed, the gaming machine Before being inspected by the inspector, there is a possibility that the manager of the gaming machine repeatedly changes the winning probability and erases the detection information in a plurality of periods of the gaming machine. On the other hand, according to this feature, the detection information in the oldest period among a plurality of periods with the change in the winning probability as a boundary is the detection information acquired and stored after the winning probability is changed. Since it is not erased until the amount is accumulated, it is possible to suppress a change in the winning probability due to an unauthorized intention by the administrator of the gaming machine.

<Characteristic αJ group>
The feature αJ group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αJ1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
Change means capable of changing a winning probability for winning a predetermined result in the predetermined lottery process to a different winning probability by receiving a predetermined operation from outside;
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means;
Calculation means for calculating game history information (game history information such as an accessory ratio, continuous accessory ratio, etc.) which is information relating to a game history based on the detection information;
Display means for displaying based on the game history information calculated by the calculation means;
A gaming machine comprising
The storage means includes means for distinguishing and storing the detection information for each winning probability at the time when the detection means detects a game ball,
The calculating means includes means for calculating the game history information for each winning probability,
The display means includes means for displaying based on the game history information for each of the winning probabilities.

  According to the feature αJ1, for example, when the display based on the game history information is a numerical value of the game history information itself, the inspector of the gaming machine may determine that each game history information calculated and displayed for each winning probability is appropriate. It can be confirmed whether it is within the range. That is, the inspector can confirm whether or not there is a winning probability setting in which the game history information is not within an appropriate range in the gaming machine.

  Note that the inventions of the above-mentioned feature αG group to feature αJ group solve the following problems.

  In gaming machines such as pachinko machines and slot machines, it is technical from various viewpoints of structure, control, production, etc. for the purpose of improving the fun of gaming, reducing the processing load of gaming machines, and simplifying control. Improvements have been made (for example, Patent Document 1).

  In addition, various technical improvements have been made for the purpose of improving the soundness of games, such as the discovery and suppression of illegal acts by players and unauthorized modifications to gaming machines.

  In the gaming machines as described above, further technical improvements are desired for the purpose of improving the fun of the game, reducing the processing load of the gaming machine, simplifying the control, and providing a more sound game.

<Characteristic αK group>
The feature αK group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αK1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
Change means capable of changing a winning probability for winning a predetermined result in the predetermined lottery process to a different winning probability by receiving a predetermined operation from outside;
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means;
Calculation means for calculating game history information (game history information such as an accessory ratio, a continuous feature ratio, a pitch rate, etc.) that is information relating to a game history based on the detection information;
It has a first display area and a second display area constituted by a plurality of display elements (segment light emitting part, CP light emitting part), and predetermined information is given to the first display area and the second display area. Display means capable of displaying;
A gaming machine comprising
The display means includes
When displaying the game history information, information related to the type of the game history information is displayed in the first display area using the display element, and the game history information is displayed in the second display area. Means for displaying numerical information using the display element;
When the winning probability is changed, the first display area is a display mode that is not displayed when displaying information related to the type of game history information, and displays information related to the type of game history information. Means for displaying a display mode using only display elements used in the event, and displaying numerical information related to the setting of the winning probability in the second display area using the display elements;
A gaming machine characterized by comprising:

  According to the characteristic αK1, the first display area is displayed when the numerical information of the game history information is displayed in the second display area of the display means and when the numerical information regarding the setting of the winning probability is displayed. The display mode of is clearly different. Therefore, for example, the administrator of the gaming machine can clearly determine whether the numerical information of the game history information is displayed in the second display area of the display means or whether the numerical information regarding the setting of the winning probability is displayed. It can be recognized separately. As a result, the manager of the gaming machine is prevented from misidentifying the numerical information displayed in the second display area between the numerical information of the game history information and the numerical information regarding the setting of the winning probability. be able to.

  Furthermore, according to this feature, the display elements of the first display area that are not used when displaying the game history information (for example, the segment light emission parts A and B, the DP light emission part, the left middle 7 of the leftmost 7-segment display 45z1) Since the segment light emitting part B) of the segment indicator 45z2 is not used even when the winning probability is changed, there are display elements that are not used (hereinafter referred to as non-use display elements) in the first display area. . Therefore, for example, even if a defect occurs in the 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 is affected when a defect occurs in the display element of the first display area.

  For example, when a light-emitting element such as an LED is used as the display element, the light-emitting element that is not used does not need to emit light, and thus the components necessary for causing the light-emitting element to emit light are omitted. Can do. Therefore, the cost of the display means can be reduced.

<Characteristic αL group>
The feature αL group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αL1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
Change means capable of changing a winning probability for winning a predetermined result in the predetermined lottery process to a different winning probability by receiving a predetermined operation from outside;
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means;
Calculation means for calculating game history information (game history information such as an accessory ratio, a continuous feature ratio, a pitch rate, etc.) that is information relating to a game history based on the detection information;
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 includes
Means for displaying information relating to a 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 displaying the game history information; ,
Means for displaying nothing in the first display area and numerical information relating to the setting of the winning probability in the second display area when the winning probability is changed;
A gaming machine characterized by comprising:

  According to the characteristic αL1, the first display area includes the case where the numerical information of the game history information is displayed in the second display area of the display means and the case where the numerical information regarding the setting of the winning probability is displayed. The display mode of is clearly different. Therefore, for example, the administrator of the gaming machine can clearly determine whether the numerical information of the game history information is displayed in the second display area of the display means or whether the numerical information regarding the setting of the winning probability is displayed. It can be recognized separately. As a result, the manager of the gaming machine is prevented from misidentifying the numerical information displayed in the second display area between the numerical information of the game 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), predetermined information is displayed when the predetermined light emitting elements emit light, and all the light emitting elements are turned off. Thus, in the case of a configuration in which nothing is displayed, even if there is a problem that some of the light emitting elements constituting the first display area do not emit light, a serious problem that all the light emitting elements do not emit light. As long as no occurrence has occurred, the display mode of the first display area is different between when the game history information is displayed and when the numerical information regarding the setting of the winning probability is displayed. Therefore, according to this feature, even if there is a problem that a part of the light emitting elements constituting the first display area does not emit light, it is important for the administrator that all the light emitting elements do not emit light. As long as no trouble has occurred, it is possible to distinguish and recognize whether the numerical information displayed in the second display area is game history information or numerical information regarding the setting of the winning probability. That is, the manager determines that the numerical value displayed in the second display area is game history information when at least some of the light emitting elements emit light in the first display area, Only when all the light emitting elements constituting the display area are turned off, it can be determined that the numerical value displayed in the second display area is the numerical information related to the setting of the winning probability.

<Feature αM group>
The feature αM group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αM1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
Change means capable of changing a winning probability for winning a predetermined result in the predetermined lottery process to a different winning probability by receiving a predetermined operation from outside;
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means;
Calculation means for calculating game history information (game history information such as an accessory ratio, a continuous feature ratio, a pitch rate, etc.) that is information relating to a game history based on the detection information;
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 includes
Means for displaying numerical information of the game history information in a predetermined number of digits (two digits) in the predetermined display area when displaying the game history information;
Means for displaying numerical information related to the setting of the winning probability in the predetermined display area with a number of digits (one digit) different from the predetermined number of digits when the winning probability is changed;
A gaming machine characterized by comprising:

  According to the feature αM1, the number of digits of the displayed numerical value is displayed when the numerical information related to the game history information is displayed in the predetermined display area and when the numerical information related to the setting of the winning probability is displayed. Will be different. Therefore, for example, the administrator of the gaming machine clearly distinguishes whether the numerical information related to the game history information is displayed in the predetermined display area of the display means or whether the numerical information related to the setting of the winning probability is displayed. Can be recognized. As a result, the administrator of the gaming machine misidentifies the numerical information displayed in the predetermined display area of the display means between the numerical information of the game history information and the numerical information regarding the setting of the winning probability. Can be suppressed.

<Characteristic αN group>
The feature αN group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αN1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
Change means capable of changing a winning probability for winning a predetermined result in the predetermined lottery process to a different winning probability by receiving a predetermined operation from outside;
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means;
Calculation means for calculating game history information (game history information such as an accessory ratio, a continuous feature ratio, a pitch rate, etc.) that is information relating to a game history based on the detection information;
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 includes
Means for displaying information relating to a 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 displaying the game history information; ,
When changing the winning probability, a plurality of types of display modes (display pattern A and display pattern B) that are not displayed when the information related to the type of the game history information is displayed in the first display area are switched. Means for repeatedly displaying, and in the second display area, numerical information relating to the setting of the winning probability;
A gaming machine characterized by comprising:

  According to the feature αN1, the first display area includes the case where the numerical information of the game history information is displayed in the second display area of the display means and the case where the numerical information regarding the setting of the winning probability is displayed. The display mode of is clearly different. Therefore, for example, the administrator of the gaming machine can clearly determine whether the numerical information of the game history information is displayed in the second display area of the display means or whether the numerical information regarding the setting of the winning probability is displayed. It can be recognized separately. As a result, the manager of the gaming machine is prevented from misidentifying the numerical information displayed in the second display area between the numerical information of the game 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 in which the numerical information related to the setting of the winning probability is displayed in the second display area. The manager can be alerted that this is an important state to carefully change the winning probability.

<Characteristic αO group>
The feature αO group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αO1]
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means;
Calculation means for calculating game history information (game history information such as an accessory ratio, a continuous feature ratio, a pitch rate, etc.) that is information relating to a game history based on the detection information;
Display means for performing display based on the game history information calculated by the calculation means (display of type information and numerical information);
The game history in the display means based on the information amount of the detection information (the number of game balls that have passed through the discharge passage during the normal mode (the number of outs during the normal mode)) as a basis for calculating the game history information A determining means for determining a display mode (lighted display or flashing display) based on information;
A gaming machine characterized by comprising:

  According to the characteristic αO1, the administrator of the gaming machine can grasp how much detection information that is the basis for calculating the game history information is accumulated by confirming the display mode on the display means. For example, it is possible to determine whether or not the displayed numerical value of the game history information is calculated with a sufficient amount of statistical data accumulated.

  Note that the invention of the feature αK group to the feature αO group solves the following problems.

  In gaming machines such as pachinko machines and slot machines, it is technical from various viewpoints of structure, control, production, etc. for the purpose of improving the fun of gaming, reducing the processing load of gaming machines, and simplifying control. Improvements have been made (for example, Patent Document 1).

  In addition, various technical improvements have been made for the purpose of improving the soundness of games, such as the discovery and suppression of illegal acts by players and unauthorized modifications to gaming machines.

  In the gaming machines as described above, further technical improvements are desired for the purpose of improving the fun of the game, reducing the processing load of the gaming machine, simplifying the control, and providing a more sound game.

<Characteristic αP group>
The feature αP group is extracted from the above-described embodiments, modified examples, 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;
Program storage means (of the main 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 accessible 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 Stack means (stack means 64b of the main 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 capable of updating data, and a second data storage area corresponding to the second program capable of updating data, which is different from the first data storage area; Data storage means (data storage means 64a of the main 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 referred to And
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 referred to And
The CPU
By executing a program included in the first program, a first process (game progress process) is performed,
After executing the first process, by executing a program included in the first program, a storage process for storing the value of the flag register in the first stack area or the first data storage area is performed,
After executing 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, Storing a second stack area reference address in a stack pointer, and storing a value of each of the plurality of registers in the second data storage area;
After executing the evacuation process, by executing a program included in the second program, the second process (game history information calculation display process) is performed,
After executing the second process, by executing a program included in the second program, the value of each of the plurality of registers is set to the value stored in the second data storage area by the save process, Performing a return process for storing the first stack area reference address stored in the second data storage area by the save process in the stack pointer;
After executing 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 are set by the return process is changed by the storage process. A gaming machine, wherein a change process for changing to a value stored in one stack area or the first data storage area is performed.

  According to the feature αP1, the saving process and the restoring process are performed, so that when the second program returns to the first program, the value of the register used in the first program has changed. Can be avoided.

  Further, according to this feature, even if the value of the flag register changes at the timing after the storage process and before the save process, by executing the change process, the flag register Since the value returns to the same value as that immediately after the end of the first process by the first program, there is no possibility of affecting the process by the first program performed after the return from the process by the second program. As a result, a plurality of programs can be configured independently.

  Moreover, according to this feature, the second process can be added without affecting the process by the first program only by adding the program for performing the second process to the second program. Therefore, it is possible to easily create a program for performing the second process independently of the first program.

  Further, for example, when the capacity of data to be stored in the stack area exceeds the upper limit value of the storage capacity of the stack area, a reset process for erasing all data stored in the stack area is performed. In the configuration, if the value of each of the plurality of registers is stored in the second stack area in the save process, the reset process may be performed. On the other hand, according to this feature, the value of each of the plurality of registers is stored in the second data storage area in the save process, so that it is possible to avoid the risk that the stack area reset process is performed.

<Characteristic αQ group>
The feature αQ group is extracted from the above-described embodiments, modified examples, 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;
Program storage means (of the main 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 accessible 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 Stack means (stack means 64b of the main 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 capable of updating data, and a second data storage area corresponding to the second program capable of updating data, which is different from the first data storage area; Data storage means (data storage means 64a of the main 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 referred to And
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 referred to And
The CPU
By executing a program included in the first program, a first process (game progress process) is performed,
After executing the first process, by executing a program included in the first program, a storage process for storing the value of the flag register in the first stack area or the first data storage area is performed,
After executing the storage process, the second stack area reference address is stored in the stack pointer by executing a program included in the second program, and the value of each of the plurality of registers is set to the second data. Implement save processing to store in the storage area,
After executing the evacuation process, by executing a program included in the second program, the second process (game history information calculation display process) is performed,
After executing the second process, by executing a program included in the second program, the value of each of the plurality of registers is set to the value stored in the second data storage area by the save process and fixed. A return process for storing the first stack area reference address as a value in the stack pointer is performed,
After executing 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 are set by the return process is changed by the storage process. A gaming machine, wherein a change process for changing to a value stored in one stack area or the first data storage area is performed.

  According to the feature αQ1, the saving process and the restoring process are performed, and therefore, when returning from the second program to the first program, the value of the register used in the first program has changed. Can be avoided.

  Further, according to this feature, even if the value of the flag register changes at the timing after the storage process and before the save process, by executing the change process, the flag register Since the value returns to the same value as that immediately after the end of the first process by the first program, there is no possibility of affecting the process by the first program performed after the return from the process by the second program. As a result, a plurality of programs can be configured independently.

  Moreover, according to this feature, the second process can be added without affecting the process by the first program only by adding the program for performing the second process to the second program. Therefore, it is possible to easily create a program for performing the second process independently of the first program.

  Further, for example, when the capacity of data to be stored in the stack area exceeds the upper limit value of the storage capacity of the stack area, a reset process for erasing all data stored in the stack area is performed. In the configuration, if the value of each of the plurality of registers is stored in the second stack area in the save process, the reset process may be performed. On the other hand, according to this feature, the value of each of the plurality of registers is stored in the second data storage area in the save process, so that it is possible to avoid the risk that the stack area reset process is performed.

  Further, according to this feature, the first stack area reference address, which is a fixed value in the return process, is stored in the stack pointer, so that the first stack area reference address stored in the stack pointer in the save process is set to the second address. There is no need to save 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 for saving 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, modified examples, 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;
Program storage means (of the main 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 accessible 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 Stack means (stack means 64b of the main 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 capable of updating data, and a second data storage area corresponding to the second program capable of updating data, which is different from the first data storage area; Data storage means (data storage means 64a of the main 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 referred to And
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 referred to And
The CPU
By executing a program included in the first program, a first process (game progress process) is performed,
After executing the first process, by executing a program included in the first program, a storage process for storing the value of the flag register in the first stack area or the first data storage area is performed,
After executing the storage process, by executing a program included in the first program, to perform a first clear process to set the value of each of the plurality of registers to 0,
After executing the first clear process, by executing a program included in the second program, the first storage process for storing the second stack area reference address in the stack pointer is performed,
After executing the first storage process, by executing a program included in the second program, the second process (game history information calculation display process) is performed,
After executing the second process, by executing a program included in the second program, a second storage process for storing the first stack area reference address that is a fixed value in the stack pointer is performed,
After executing the second storage process, by executing a program included in the second program, a second clear process for setting each of the plurality of registers to 0 is performed,
After executing the second clear 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 performing a change process for changing to a value.

  According to the feature αR1, the first clear process is performed by the program included in the first program and the second clear process is performed by the program included in the second program. The value of each of the plurality of registers can be matched with the value of each of the plurality of registers at the time immediately after the end of execution of the second program. Therefore, when returning from the second program to the first program, it is possible to avoid the occurrence of problems due to the change in the values of the plurality of registers used in the first program.

  In addition, 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 that immediately after the end of the first process by the first program. Therefore, there is no possibility of affecting the processing by the first program performed after returning from the processing by the second program. As a result, a plurality of programs can be configured independently.

  Moreover, according to this feature, the second process can be added without affecting the process by the first program only by adding the program for performing the second process to the second program. Therefore, it is possible to easily create a program for performing the second process independently of the first program.

  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 return process, the first stack area reference address stored in the stack pointer is stored in the save process. There is no need to save 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 for saving 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, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αS1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A change mode execution means for executing a change mode capable of changing a winning probability of winning a predetermined result in the predetermined lottery process to a different winning probability by receiving a predetermined operation from the outside;
Storage means (main-side RAM 64) for storing information relating to the progress of the game;
Detecting means for detecting an abnormality of the storage means;
Initialization means for initializing the storage means when the detection means detects the abnormality;
A gaming machine comprising
The change mode execution means comprises means for executing the change mode even when the predetermined operation is not accepted when the initialization is executed.

  If the storage means is initialized due to an abnormality of the storage means, the setting information of the winning probability may be rewritten with setting information different from the setting information originally intended by the administrator. . If the configuration is such that the winning probability setting information is not initialized (not changed) even if the storage means is initialized, the setting information may be maintained different from the setting information originally intended by the administrator. .

  According to the feature αS1, when the storage unit is initialized due to abnormality of the storage unit, the change mode is executed. Therefore, the administrator of the gaming machine can change the change mode before the game is resumed in the gaming machine. In this case, the winning probability setting information can be changed to the originally intended setting information.

[Feature αS2]
A gaming machine according to the characteristic αS1,
The initialization means includes means for not initializing information relating to a gaming state among the information stored in the storage means when the storage means is initialized.

  According to the feature αS2, even when the storage means is initialized, information regarding the gaming state is not initialized, so that the player can resume the game while maintaining the gaming state. Therefore, it is possible to prevent the player from being disadvantaged by the initialization of the storage means.

[Feature αS3]
A gaming machine according to feature αS1 or feature αS2,
A gaming machine comprising: notification means for notifying that the winning probability is changed when the winning probability is changed in the change mode.

  When the storage means is initialized due to an abnormality of the storage means and the change mode is executed, the player who has played a game in the gaming machine can manage the manager in the change mode after the initialization of the storage means. Whether or not the winning probability has been changed is assumed to become a suspicious assassin. However, according to this feature, when the winning probability is changed, the fact that the winning probability has been changed is notified, so that the player can confirm whether or not the winning probability has been changed. More specifically, do not let the player know what setting information the current winning probability setting information is, but only know whether or not the winning probability has been changed in the change mode. Can do. As a result, it is possible to suppress the occurrence of a situation where the player must restart the game with an uneasy feeling without knowing whether or not the winning probability has been changed by the manager.

<Characteristic αT group>
The feature αT group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αT1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A change mode execution means for executing a change mode capable of changing a winning probability of winning a predetermined result in the predetermined lottery process to a different winning probability by receiving a predetermined operation from the outside;
Informing means for notifying that the winning probability is changed when the winning probability is changed in the change mode;
A gaming machine characterized by comprising:

  According to the characteristic αT1, the player can recognize that the winning probability has been changed in the change mode. Specifically, for example, it is possible to let the player understand only whether or not the winning probability has been changed in the change mode without grasping what the current winning probability setting is. it can.

[Feature αT2]
A gaming machine according to the characteristic αT1,
A gaming machine, comprising: second notification means for notifying in a manner different from the notification by the notification means when the winning probability is not changed in the change mote.

  According to the characteristic αT2, the player can recognize that the winning probability has not been changed in the change mode.

[Feature αT3]
A gaming machine according to feature αT1 or feature αT2,
The second informing means comprises means for informing that the winning probability has not been changed when the winning probability has not been changed in the change mode.

  According to the characteristic 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 the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αU1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A change mode execution means for executing a change mode capable of changing a winning probability for winning a predetermined result in the predetermined lottery process to a different winning probability by receiving a first operation from the outside;
An information display mode executing means for executing an information display mode for displaying information on the winning probability in a mode in which the progress of the game is stopped by accepting a second operation different from the first operation from the outside;
An accessory that continues a certain operation regardless of the result of the predetermined lottery process;
A gaming machine comprising
The gaming machine is characterized in that the constant operation continues even in the information display mode.

  According to the characteristic αU1, since the operation of the accessory does not stop or change even at the start and end timing of the information display mode in which the progress of the game is stopped, for example, It is possible to suppress a player from illegally obtaining an advantageous result by launching a game ball aiming at a timing at which the operation stops or changes.

<Characteristic αV group>
The feature αV group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αV1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A change mode execution means for executing a change mode capable of changing a winning probability for winning a predetermined result in the predetermined lottery process to a different winning probability by receiving a first operation from the outside;
An information display mode executing means for executing an information display mode for displaying information on the winning probability in a mode in which the progress of the game is stopped by accepting a second operation different from the first operation from the outside;
An accessory that continues a certain operation regardless of the result of the predetermined lottery process;
A gaming machine comprising
The gaming machine is in a predetermined state and stops the certain operation during the information display mode.

  According to the feature αV1, for example, it is possible to suppress the occurrence of a failure in an accessory that may cause a failure when the operation is stopped in a state other than a predetermined state.

  The invention of the above-mentioned feature αP group to feature αV group solves the following problems.

  In gaming machines such as pachinko machines and slot machines, there is an increase in gaming interest, a reduction in processing load on gaming machines, optimization of processing, simplification of control, simplification of structure, efficiency of development of gaming machines, Technical improvements have been made from various viewpoints such as structure, control, production, etc. for the purpose of providing gaming machines that are less prone to malfunctions, and providing gaming machines in consideration of players.

  In addition, various technical improvements have been made for the purpose of improving the soundness of games, such as the discovery and suppression of illegal acts by players and unauthorized modifications to gaming machines.

  In gaming machines such as those mentioned above, there is an increase in gaming interest, reduction in processing load on gaming machines, optimization of processing, simplification of control, simplification of structure, efficiency of development of gaming machines, and problems. Further technical improvements are desired for the purpose of providing difficult gaming machines, providing gaming machines in consideration of players, and providing more sound games.

<Characteristic αW group>
The feature αW group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αW1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A setting change mode executing means for executing a setting change mode that can be changed by accepting an operation from the outside for setting the winning probability in the predetermined lottery process;
A gaming machine comprising
The setting change mode execution means is configured so that all of the first condition (setting key, frame opening switch and door opening switch are ON, and the RAM clear button is ON when the game machine is powered on. The setting change mode is executed when the first condition is satisfied, but the setting change mode is not executed even when the first condition is satisfied after the power is turned on. A gaming machine characterized by

  According to the feature αW1, in order for a gaming machine that has already been turned on to execute the setting change mode, it is necessary to turn the gaming machine off and then turn it on again. Generally, in a gaming hall, it is difficult for a person other than the manager of the gaming machine to operate the power switch provided on the back of the gaming machine to temporarily turn off the power and turn it on again. Therefore, it is possible to prevent the winning probability setting of the gaming machine from being illegally changed by a person who has an unauthorized intention and is not a manager of the gaming machine.

[Feature αW2]
A gaming machine described in feature αW1,
Setting information display mode executing means for executing a setting information display mode (setting confirmation mode) that displays the setting information that is information related to the setting of the winning probability but cannot change the setting of the winning probability,
The setting information display mode execution means is configured such that when the game machine is powered on, the second condition (the setting key, the frame opening switch, and the door opening switch are all ON, and the RAM clear button is The setting information display mode is executed when the power supply is turned on, but the setting information display mode is not executed even when the second condition is satisfied after the power is turned on. A gaming machine characterized by comprising:

  According to the feature αW2, in order for a gaming machine that has already been turned on to execute the setting information display mode, it is necessary to turn off the gaming machine and then turn it on again. Generally, in a gaming hall, it is difficult for a person other than the manager of the gaming machine to operate the power switch provided on the back of the gaming machine to temporarily turn off the power and turn it on again. Therefore, it is possible to prevent the winning probability setting of the gaming machine from being illegally known by a person who has an unauthorized intention other than the manager of the gaming machine.

[Feature αW3]
A gaming machine according to feature αW1 or feature αW2,
A gaming machine comprising notification means for notifying when the gaming machine is powered on.

  According to the feature αW3, it is possible to make it difficult for a person with an unauthorized intention who is not a manager of a gaming machine to turn off the gaming machine and turn it on again without being noticed by the surroundings. Therefore, it is possible to further suppress a person having an unauthorized intention who is not a manager of the gaming machine from changing or confirming the setting of the winning probability of the gaming machine.

<Characteristic αX group>
The feature αX group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αX1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A setting change mode executing means for executing a setting change mode that can be changed by accepting an operation from the outside for setting the winning probability in the predetermined lottery process;
Setting information display mode execution means for executing a setting information display mode (setting confirmation mode) that displays setting information that is information related to the setting of the winning probability but cannot change the setting of the winning probability;
Storage means (main-side RAM 64) for storing information including the setting information;
Determination processing execution means for executing predetermined determination processing (processing for determining whether the RAM determination value is normal by calculating a RAM determination value) based on the information stored in the storage means;
A gaming machine comprising
The setting information display mode execution means is a result that the result of the predetermined determination process is a predetermined result (a RAM determination value is not normal) even when a condition for executing the setting information display mode is satisfied. ), The game machine is characterized by comprising means for not executing the setting information display mode.

  If the result of the predetermined determination process based on the information stored in the storage means is a predetermined result, the setting information stored in the storage means is an abnormal value that is not intended by the administrator of the gaming machine. There is a possibility that. According to the feature αX1, the setting information display mode is executed while leaving the possibility that the setting information of the winning probability stored in the storage means has become an abnormal value not intended by the administrator. Can be suppressed.

<Characteristic αY group>
The feature αY group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αY1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A setting change mode executing means for executing a setting change mode that can be changed by accepting an operation from the outside for setting the winning probability in the predetermined lottery process;
Operation means (RAM clear button) for receiving a predetermined operation (operation to press);
Storage means (main-side RAM 64) for storing information relating to the progress of the game;
An erasure process (RAM clear process) for erasing the information stored in the storage means when the operation means accepts the predetermined operation (when the RAM clear button is pressed) and the power is turned on. An erasing process executing means for executing
A gaming machine comprising
The setting change mode execution means has predetermined conditions including that the operating means has received the predetermined operation (when the power is turned on, all of the setting key, the frame opening switch, and the door opening switch are turned on. And when the RAM clear button is pressed), the setting change mode is provided.
The erasing process execution means includes means for executing the erasure process before or after execution of the setting change mode when the predetermined condition is satisfied.

  Generally, an administrator who manages a gaming machine executes an erasing process for erasing information stored in the storage means when the operating means is turned on in a state where the operating means accepts a predetermined operation. I recognize that. Therefore, according to the feature αY1, if the administrator changes the setting change mode by executing a setting change mode by satisfying a predetermined condition including that the operation means has received a predetermined operation, the setting change mode It is possible to strongly recognize that not only is executed but also an erasing process is executed. As a result, for example, when the administrator wants to start the gaming machine while maintaining the gaming state such as the high probability mode and restart the game from the previous power-off state, that is, when the gaming machine is started, When it is not allowed to execute, the determination that the setting change mode should not be executed can be ensured. That is, according to this feature, it is possible to provide a gaming machine in which an administrator can easily understand the operation.

<Characteristic αZ group>
The feature αZ group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αZ1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A setting change mode executing means for executing a setting change mode that can be changed by accepting an operation from the outside for setting the winning probability in the predetermined lottery process;
Storage means (main-side RAM 64) for storing information including setting information that is information relating to the setting of the winning probability;
Erasing means for erasing information stored in the storage means;
A gaming machine comprising
The erasing means includes
A first erasure process (first RAM clear process) for erasing information other than the setting information without erasing the setting information among the information stored in the storage means;
A second erasure process (second RAM clear process) for erasing information including the setting information among the information stored in the storage means;
A gaming machine characterized by being able to execute.

  According to the feature αZ1, in the information stored in the storage unit, the setting information remains and other information is deleted, and the processing step including the setting information is deleted. Corresponding processing steps can be realized. For example, if the setting information is normal and maintained while other information is a processing step that should be deleted, the setting information is not deleted and the setting information becomes an abnormal value that is not intended by the administrator. In the case of a processing step that may have occurred, a configuration for erasing information including setting information can be realized.

[Feature αZ2]
A gaming machine according to the feature αZ1,
A determination process execution unit configured to execute a predetermined determination process (a process of determining whether the RAM determination value is normal by calculating a RAM determination value) based on the information stored in the storage unit;
The erasing means includes means for executing the second erasing process when the result of the predetermined determination process is a predetermined result (a result that the RAM determination value is not normal). Machine.

  If the result of the predetermined determination process based on the information stored in the storage means is a predetermined result, the setting information stored in the storage means is an abnormal value that is not intended by the administrator of the gaming machine. There is a possibility that. According to the characteristic αZ2, it is possible to prevent the game from being executed while leaving the possibility that the setting information of the winning probability stored in the storage means has become an abnormal value not intended by the administrator. Can do.

<Characteristic βA group>
The feature βA group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature βA1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A setting change mode executing means for executing a setting change mode that can be changed by accepting an operation from the outside for setting the winning probability in the predetermined lottery process;
Storage means (main side RAM 64) for storing information including setting information which is information relating to the setting of the lottery probability;
Determination processing execution means for executing predetermined determination processing (processing for determining whether the RAM determination value is normal by calculating a RAM determination value) based on the information stored in the storage means;
A gaming machine comprising
The setting change mode execution means is a state in which a predetermined operation for executing the setting change mode (all of the setting key, the frame opening switch, and the door opening switch are ON and the RAM clear button is pressed) Even when the operation of turning on the power of the pachinko machine 10 is not received, 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 the predetermined determination process based on the information stored in the storage means is a predetermined result, the setting information stored in the storage means is an abnormal value that is not intended by the administrator of the gaming machine. There is a possibility that. According to the feature βA1, since the setting change mode is executed when the result of the predetermined determination process is a predetermined result, 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 setting information of the winning probability stored in the storage means has 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, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature βB1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A setting change mode executing means for executing a setting change mode that can be changed by accepting an operation from the outside for setting the winning probability in the predetermined lottery process;
Display means (main display unit 45) for displaying information about the game including the result of the predetermined lottery process;
A gaming machine comprising
The display means includes
A game machine comprising: means for displaying a first display mode (display pattern in which all the LEDs are lit) that are not displayed when the information related to the game is displayed during execution of the setting change mode.

  According to the feature βB1, it is possible to notify the manager and the player that the setting change mode is being executed using the display means for displaying information relating to the game. Further, for example, in the case of a gaming machine provided with display means for displaying information relating to a game, the setting change mode can be changed only by changing the control program of the gaming machine without changing the hardware configuration of the gaming machine. It can change to the structure which can alert | report to a manager or a player that it is performed. Therefore, for example, the manufacturing cost of the gaming machine can be reduced as compared with a configuration in which a dedicated display means for notifying that the setting change mode is being executed is additionally provided.

[Feature βB2]
A gaming machine according to the feature βB1,
Setting information display mode executing means for executing a setting information display mode (setting confirmation mode) that displays the setting information that is information related to the setting of the winning probability but cannot change the setting of the winning probability,
The display means includes
During execution of the setting information display mode, a second display mode (display mode in which all LEDs blink simultaneously) is a display mode that is not displayed when displaying information related to the game, and is different from the first display mode. ) Is displayed. A gaming machine characterized by comprising:

  According to the feature βB2, it is possible to notify the manager and the player that the setting information display mode is being executed instead of the setting change mode using the display means for displaying information relating to the game. In addition, for example, in the case of a gaming machine provided with display means for displaying information related to a game, the setting information display mode can be changed only by changing the control program of the gaming machine without changing the hardware configuration of the gaming machine. Can be changed to a configuration capable of notifying an administrator or a player that the game is being executed. Therefore, for example, the manufacturing cost of the gaming machine can be reduced as compared with a configuration in which 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 the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βC1]
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means (main-side RAM 64) for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means; ,
Calculation means for calculating game history information (game history information such as an accessory ratio, a continuous feature ratio, a pitch rate, etc.) that is information relating to a game history based on the detection information;
Display means (information display section 45z) for performing display (display of type information and numerical information) based on the game history information calculated by the calculation means;
Control means for controlling the display means;
A gaming machine comprising
The display means is composed of a plurality of light emitting units,
The control means includes means for controlling so that all of the plurality of light emitting units constituting the display means are turned on based on the power supply to the gaming machine. Gaming machine.

  According to the feature βC1, when the gaming machine administrator turns on the power of the gaming machine, the light emitting unit constituting the display means checks whether there is a light emitting unit that does not turn on due to a malfunction such as disconnection. be able to.

[Feature βC2]
A gaming machine according to the feature βC1,
The control means includes means for controlling all of the plurality of light emitting units constituting the display means to be in a blinking state based on the power supply to the gaming machine. Gaming machine.

  According to the feature βC2, when the game machine administrator turns on the power of the game machine, there is a light-emitting part that does not turn off due to a malfunction in the light-emitting part that constitutes the display means. Can be confirmed.

<Characteristic βD group>
The feature βD group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βD1]
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means (main-side RAM 64) for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means; ,
Calculation means for calculating game history information (game history information such as an accessory ratio, a continuous feature ratio, a pitch rate, etc.) that is information relating to a game history based on the detection information;
Display means (information display section 45z) for performing display (display of type information and numerical information) based on the game history information calculated by the calculation means;
Control means for controlling the display means;
Operation means (information display section inspection button) for accepting a predetermined operation from the outside;
A gaming machine comprising
The display means is composed of a plurality of light emitting units,
The control means includes means for controlling so that all of the plurality of light emitting units constituting the display means are turned on based on the operation means accepting the predetermined operation. A gaming machine.

  According to the feature βD1, the administrator of the gaming machine can always check whether there is a light-emitting unit that does not turn on due to a failure such as disconnection in the light-emitting unit constituting the display unit by operating the operation unit. Can do.

[Feature βD2]
A gaming machine according to the feature βD1,
The control means includes means for controlling so that all of the plurality of light emitting units constituting the display means blink based on the fact that the operation means has received the predetermined operation. A gaming machine.

  According to the feature βD2, the administrator of the gaming machine can always check whether there is a light-emitting unit that does not turn off due to a malfunction in the light-emitting unit constituting the display unit by operating the operation unit. Can be confirmed.

<Feature βE group>
The feature βE group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βE1]
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means (main-side RAM 64) for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means; ,
Calculation means for calculating game history information (game history information such as an accessory ratio, a continuous feature ratio, a pitch rate, etc.) that is information relating to a game history based on the detection information;
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 the plurality of periods.
The game machine according to claim 1, wherein the display means includes means for switching and displaying the plurality of game history information for each of the plurality of periods.

  According to the feature βE1, an inspector of a gaming machine can check a plurality of pieces of game history information for a plurality of periods with a predetermined timing in the gaming machine as a boundary. For example, the inspector can confirm whether or not there is a situation in which the game history information does not fall within an appropriate range in a plurality of periods with a predetermined timing as a boundary in the gaming machine.

[Feature βE2]
A gaming machine described in the feature βE1,
The gaming machine according to claim 1, wherein the predetermined timing is a timing when a date changes.

  According to the feature βE2, the inspector of the gaming machine can check a plurality of gaming history information for each date in the gaming machine. For example, the inspector can check for each date whether there is a situation where the game history information does not fall within the proper range.

<Characteristic βF group>
The feature βF group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature βF1]
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means (main-side RAM 64) for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means; ,
Calculation means for calculating game history information (game history information such as an accessory ratio, a continuous feature ratio, a pitch rate, etc.) that is information relating to a game history based on the detection information;
Display means (information display section 45z) for displaying the game history information calculated by the calculation means;
An erasing unit for erasing the detection information stored in the storage unit when a predetermined operation is received;
A gaming machine comprising
The display means, after the detection information is erased by the erasure means, until the predetermined condition is satisfied (until the measured discharge passage passage number N _OUT reaches the predetermined number), the game history information A gaming machine characterized by comprising means for not displaying the numerical information.

According to the feature βF1, the inspector of the gaming machine, when the numerical information of the game history information is not displayed on the display means, after the detection information is erased by the erasure means, the predetermined condition is not satisfied Can be recognized.

  Note that the invention of the feature αW group to the feature βF group solves the following problems.

  In gaming machines such as pachinko machines and slot machines, there is an increase in gaming interest, a reduction in processing load on gaming machines, optimization of processing, simplification of control, simplification of structure, efficiency of development of gaming machines, Technical improvements have been made from various viewpoints such as structure, control, production, etc. for the purpose of providing gaming machines that are less prone to malfunctions, and providing gaming machines in consideration of players.

  In addition, various technical improvements have been made for the purpose of improving the soundness of games, such as the discovery and suppression of illegal acts by players and unauthorized modifications to gaming machines.

  In gaming machines such as those mentioned above, there is an increase in gaming interest, reduction in processing load on gaming machines, optimization of processing, simplification of control, simplification of structure, efficiency of development of gaming machines, and problems. Further technical improvements are desired for the purpose of providing difficult gaming machines, providing gaming machines in consideration of players, and providing more sound games.

<Characteristic βG group>
The feature βG group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature βG1]
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means (main-side RAM 64) for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means; ,
Calculation means for calculating game history information (game history information such as an accessory ratio, a continuous feature ratio, a pitch rate, etc.) that is information relating to a game history based on the detection information;
Display means (information display section 45z) for displaying the game history information calculated by the calculation means;
A gaming machine comprising
Based on the detection information for each of a plurality of periods with a boundary that a predetermined condition is satisfied (a measured discharge passage passage number N _OUT has reached a predetermined number). Means for calculating a plurality of the game history information corresponding to each of the periods,
The display means includes
The means for switching and displaying the plurality of game history information corresponding to each of the plurality of periods, wherein the display corresponding to one of the plurality of periods when switching the display of the game history information After shifting from a display mode for displaying game history information (a display mode for displaying a base corresponding to a section of bL) to a display mode for displaying none of the plurality of game history information (all off), the plurality of periods A means for shifting to a display mode (display mode for displaying a base corresponding to a section of b1) that displays the game history information corresponding to another period of the game machine.

  According to the feature βG1, when the display means switches the display of the game history information, the display means displays any of the plurality of game history information from the display mode that displays the game history information corresponding to one period of the plurality of periods. After shifting to a display mode that does not display, since it shifts to a display mode that displays game history information corresponding to other periods among a plurality of periods, it is displayed on the display means for the administrator or the inspector of the gaming machine 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 suppresses erroneously recognizing 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, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature βH1]
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means (main-side RAM 64) for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means; ,
Calculation means for calculating game history information (game history information such as an accessory ratio, a continuous feature ratio, a pitch rate, etc.) that is information relating to a game history based on the detection information;
Display means (information display section 45z) for displaying the game history information calculated by the calculation means;
A gaming machine comprising
Based on the detection information for each of a plurality of periods with a boundary that a predetermined condition is satisfied (a measured discharge passage passage number N _OUT has reached a predetermined number). Means for calculating a plurality of the game history information corresponding to each of the periods,
The display means includes
From the display mode (display mode for displaying bL) corresponding to one of the plurality of periods, the game history information corresponding to another period of the plurality of periods is displayed. In the case of shifting to the display mode to be displayed (display mode to display b1), means for shifting the display mode in the first transition mode (transition mode in which the transition is made with all 300 ms being extinguished),
When the display mode is shifted based on the fact that the predetermined condition is satisfied, the second transition mode is different from the first transition mode (a transition mode in which a transition is made with a hyphen lighting display of 3000 ms). A gaming machine comprising: means for shifting a display mode.

  According to the feature βH1, a transition mode in the case of shifting from a display mode for displaying game history information corresponding to one period to a display mode for displaying game history information corresponding to another period, and a predetermined condition are satisfied. Therefore, the manager or the inspector of the gaming machine recognizes the difference in the transition mode, so that the game history information corresponding to another period can be obtained. Whether the display mode is to be displayed or whether the display mode is to be shifted based on a predetermined condition being satisfied can be clearly distinguished and recognized. Therefore, for example, it is possible to prevent the administrator or the like from continuing to check the game history information without noticing that the predetermined condition has been satisfied.

<Characteristic βI group>
The feature βI group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature βI1]
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means (main-side RAM 64) for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means; ,
Calculation means for calculating game history information (game history information such as an accessory ratio, a continuous feature ratio, a pitch rate, etc.) that is information relating to a game history based on the detection information;
Display means (information display section 45z) for displaying the game history information calculated by the calculation means;
A gaming machine comprising
Based on the detection information for each of a plurality of periods with a boundary that a predetermined condition is satisfied (a measured discharge passage passage number N _OUT has reached a predetermined number). Means for calculating a plurality of the game history information corresponding to each of the periods,
The display means includes
Means for switching and displaying the plurality of game history information corresponding to each of the plurality of periods on the basis that a predetermined display continuation time (5000 ms) has elapsed, wherein the predetermined information is displayed while the game history information is being displayed. If the condition is satisfied, even before the predetermined display duration time of the game history information being displayed has elapsed, a display mode (hyphen lighting) corresponding to the predetermined condition being satisfied The game machine is characterized by comprising means for shifting to a state where all lights are turned off.

  According to the feature βI1, when the predetermined condition is satisfied while the game history information is displayed, the predetermined condition is not changed even before the predetermined display duration of the game history information being displayed has elapsed. Since it shifts to the display mode corresponding to the satisfaction, the administrator or the inspector of the gaming machine can recognize early that the predetermined condition is satisfied. Further, for example, after shifting to a display mode corresponding to the satisfaction of a predetermined condition, it is possible to display game history information for each period after the predetermined condition is satisfied at an early stage. . As a result, the administrator or the like can check game history information for each period at an early stage after the predetermined condition is satisfied, so that the inspection efficiency of the gaming machine can be improved.

<Characteristic βJ group>
The feature βJ group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature βJ1]
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means (main-side RAM 64) for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means; ,
Calculation means for calculating game history information (game history information such as an accessory ratio, a continuous feature ratio, a pitch rate, etc.) that is information relating to a game history based on the detection information;
Display means (information display section 45z) for displaying the game history information calculated by the calculation means;
A gaming machine comprising
Based on the detection information for each of a plurality of periods with a boundary that a predetermined condition is satisfied (a measured discharge passage passage number N _OUT has reached a predetermined number). Means for calculating a plurality of the game history information corresponding to each of the periods,
The display means includes
Means for switching and displaying the plurality of game history information corresponding to each of the plurality of periods on the basis that a predetermined display continuation time (5000 ms) has elapsed, wherein the predetermined information is displayed while the game history information is being displayed. When the condition is satisfied, after the predetermined display duration of the game history information being displayed has elapsed, a display mode corresponding to the predetermined condition being satisfied (hyphen lighting, all extinction) A gaming machine comprising a means for shifting to

  According to the feature βJ1, even when a predetermined condition is satisfied during display of the game history information, the display of the game history information is continued until the display duration time of the displayed game history information elapses. Therefore, for example, the display of the game history information ends when the administrator or the inspector of the gaming machine confirms the game history information being displayed and attempts to transfer it to the inspection table. Generation | occurrence | production of the condition where log | history information was not able to be transferred to a test | inspection table can be suppressed.

<Characteristic βK group>
The feature βK group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature βK1]
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means (main-side RAM 64) for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means; ,
Calculation means for calculating game history information (game history information such as an accessory ratio, a continuous feature ratio, a pitch rate, etc.) that is information relating to a game history based on the detection information;
Display means (information display section 45z) for displaying the game history information calculated by the calculation means;
A gaming machine comprising
Based on the detection information for each of a plurality of periods with a boundary that a predetermined condition is satisfied (a measured discharge passage passage number N _OUT has reached a predetermined number). Means for calculating a plurality of the game history information corresponding to each of the periods,
The display means includes
A means for switching and displaying the plurality of game history information corresponding to each of the plurality of periods according to a predetermined order, and when the predetermined condition is satisfied, regardless of the predetermined order, A gaming machine comprising: means for starting display from game history information (bL) corresponding to a specific period of a plurality of periods.

  According to the feature βK1, when a predetermined condition is satisfied, display is started from game history information corresponding to a specific period of a plurality of periods regardless of a predetermined order. The manager or the inspector can recognize that the predetermined condition is satisfied, and can check the game history information corresponding to the specific period with priority.

  The invention of the above-mentioned feature βG group to feature βK group solves the following problems.

  In gaming machines such as pachinko machines and slot machines, there is an increase in gaming interest, a reduction in processing load on gaming machines, optimization of processing, simplification of control, simplification of structure, efficiency of development of gaming machines, Technical improvements have been made from various viewpoints such as structure, control, production, etc. for the purpose of providing gaming machines that are less prone to malfunctions, and providing gaming machines in consideration of players.

  In addition, various technical improvements have been made for the purpose of improving the soundness of games, such as the discovery and suppression of illegal acts by players and unauthorized modifications to gaming machines.

  In gaming machines such as those mentioned above, there is an increase in gaming interest, reduction in processing load on gaming machines, optimization of processing, simplification of control, simplification of structure, efficiency of development of gaming machines, and problems. Further technical improvements are desired for the purpose of providing difficult gaming machines, providing gaming machines in consideration of players, and providing more sound games.

<Characteristic βL group>
The feature βL group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βL1]
A gaming machine,
Storage means (main-side RAM 64) for storing predetermined information (various flag information and the like) when power supply from the outside is cut off;
Return means for executing a return process (recovery process) for returning the gaming machine to a state before the power supply is cut off based on the predetermined information when the supply of power from the outside is started. When,
A display means (information display unit 45z) configured by a plurality of display elements (segment light emitting unit, CP light emitting unit) and capable of displaying various types of information;
Inspection processing execution means for executing inspection processing (lighting blinking processing) which is processing for operating the plurality of display elements constituting the display means in a predetermined manner;
With
The inspection processing execution means includes means for executing the inspection processing in response to execution of the return processing.

  According to the feature βL1, since the inspection process is executed in response to the execution of the return process, the administrator or the inspector of the gaming machine performs an operation (for example, turning on the power switch once for the gaming machine). By performing an operation of turning on again after turning it off, the gaming machine can be made to execute the inspection process. Then, the administrator or the inspector can inspect whether or not there are display elements that do not operate in a predetermined manner due to a defect among the plurality of display elements constituting the display unit.

[Feature βL2]
A gaming machine described in the feature βL1,
Each of the plurality of display elements can be in a first display mode (light-off state) and a second display mode (light-on state) different from the first display mode,
The inspection process includes a process of controlling so that all of the plurality of display elements constituting the display means are in the second display mode.

  According to the feature βL2, the inspection process includes a process of controlling all of the plurality of display elements constituting the display unit to be in the second display mode. It is possible to inspect whether or not there are display elements (for example, light-emitting portions that do not light up due to disconnection) that cannot be in the second display mode due to a malfunction among the plurality of display elements constituting the means.

[Feature βL3]
A gaming machine according to feature βL1 or feature βL2,
Each of the plurality of display elements can be in a first display mode (light-off state) and a second display mode (light-on state) different from the first display mode,
The inspection process includes a process of controlling so that all of the plurality of display elements constituting the display unit alternately repeat the first display mode and the second display mode. Gaming machine.

  According to the feature βL3, the inspection process includes a process of controlling so that all of the plurality of display elements constituting the display unit alternately repeat the first display mode and the second display mode. The administrator or the inspector of the display element that cannot shift from the second display mode to the first display mode due to a malfunction among the plurality of display elements that constitute the display means (for example, the display unit is always lit) It is possible to inspect whether or not there is a light emitting portion that does not turn off.

<Characteristic βM group>
The feature βM group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature βM1]
Operation accepting means (RAM clear button, setting keyhole, setting changing button) for accepting external operation,
A process execution unit that executes any one of the process flows branched into a plurality based on the operation mode accepted by the operation accepting unit when the supply of power from the outside is started;
A display means (information display unit 45z) configured by a plurality of display elements (segment light emitting unit, CP light emitting unit) and capable of displaying various types of information;
A gaming machine comprising
The process execution means is a process for operating the display elements constituting the display means in a predetermined manner regardless of which of the plurality of process flows is executed. A gaming machine comprising a means for executing an inspection process (lighting / blinking process).

  According to the feature βM1, the inspection processing is executed even when any of the processing flows branched into a plurality of processing flows is executed. Even when a simple operation mode is received, the gaming machine can be made to execute the inspection process. Therefore, the administrator or the inspector of the gaming machine can determine a predetermined number of display elements constituting the display unit depending on a failure regardless of the operation mode received by the operation reception unit when the power supply is started. It can be checked whether there is a display element that does not operate in a manner. That is, it is possible to prevent the inspection from being performed depending on the operation mode received by the operation receiving unit when the supply of power is started.

[Feature βM2]
A gaming machine described in the feature βM1,
Each of the plurality of display elements can be in a first display mode (light-off state) and a second display mode (light-on state) different from the first display mode,
The inspection process includes a process of controlling so that all of the plurality of display elements constituting the display means are in the second display mode.

  According to the feature βM2, the inspection process includes a process for controlling all of the plurality of display elements constituting the display unit to be in the second display mode. It is possible to inspect whether or not there are display elements (for example, light-emitting portions that do not light up due to disconnection) that cannot be in the second display mode due to a malfunction among the plurality of display elements constituting the means.

[Feature βM3]
A gaming machine according to feature βM1 or feature βM2,
Each of the plurality of display elements can be in a first display mode (light-off state) and a second display mode (light-on state) different from the first display mode,
The inspection process includes a process of controlling so that all of the plurality of display elements constituting the display unit alternately repeat the first display mode and the second display mode. Gaming machine.

  According to the feature βM3, the inspection process includes a process of controlling so that all of the plurality of display elements constituting the display means alternately repeat the first display mode and the second display mode. The administrator or the inspector of the display element that cannot shift from the second display mode to the first display mode due to a malfunction among the plurality of display elements that constitute the display means (for example, the display unit is always lit) It is possible to inspect whether or not there is a light emitting portion that does not turn off.

<Characteristic βN group>
The feature βN group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature βN1]
A first process group executing means for executing a first process group (the processes from step S12001 to step S12028 in FIGS. 63 and 64) based on the start of the supply of power from the outside;
A second process group executing means for repeatedly executing a second process group (various processes included in the timer interrupt process, various random number update processes, and a power failure monitoring process) after the execution of the first process group is completed;
A display means (information display unit 45z) configured by a plurality of display elements (segment light emitting unit, CP light emitting unit) and capable of displaying various types of information;
A gaming machine comprising
The first process group executing means is a process for inspection (lighting and flashing) that is a process for operating the plurality of display elements constituting the display means in a predetermined manner as one process included in the first process group. A gaming machine comprising means for executing (processing).

  According to the feature βN1, the first process group including the inspection process is executed based on the start of the supply of electric power from the outside, and after the execution of the first process group is finished, the second process group Since the process group is repeatedly executed, the inspection process can be executed only once after the external power supply is started. If the inspection process is included in the second processing group, the inspection process is repeatedly executed, which increases the processing load on the gaming machine. Further, if the inspection process is repeatedly executed, there is a possibility that the period during which various types of information can be displayed on the display means may be reduced. On the other hand, according to this feature, since the inspection process can be executed only once after the external power supply is started, the processing load on the gaming machine can be reduced, and the game The manager or the inspector of the machine can inspect whether there are any display elements that do not operate in a predetermined manner due to a defect among the plurality of display elements constituting the display means.

[Feature βN2]
A gaming machine according to the feature βN1,
Each of the plurality of display elements can be in a first display mode (light-off state) and a second display mode (light-on state) different from the first display mode,
The inspection process includes a process of controlling so that all of the plurality of display elements constituting the display means are in the second display mode.

  According to the feature βN2, the inspection process includes a process for controlling all of the plurality of display elements constituting the display unit to be in the second display mode. It is possible to inspect whether or not there are display elements (for example, light-emitting portions that do not light up due to disconnection) that cannot be in the second display mode due to a malfunction among the plurality of display elements constituting the means.

[Feature βN3]
A gaming machine according to feature βN1 or feature βN2,
Each of the plurality of display elements can be in a first display mode (light-off state) and a second display mode (light-on state) different from the first display mode,
The inspection process includes a process of controlling so that all of the plurality of display elements constituting the display unit alternately repeat the first display mode and the second display mode. Gaming machine.

  According to the feature βN3, the inspection process includes a process of controlling so that all of the plurality of display elements constituting the display unit alternately repeat the first display mode and the second display mode. The administrator or the inspector of the display element that cannot shift from the second display mode to the first display mode due to a malfunction among the plurality of display elements that constitute the display means (for example, the display unit is always lit) It is possible to inspect whether or not there is a light emitting portion that does not turn off.

<Characteristic βO group>
The feature βO group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature βO1]
A game progress process execution means for executing a game progress process (a ball detection process included in the timer interrupt process, a ball start process for a start opening, a game time control process, etc.) that is a process for enabling the progress of the game; ,
A display means (information display unit 45z) configured by a plurality of display elements (segment light emitting unit, CP light emitting unit) and capable of displaying various types of information;
Inspection processing execution means for executing inspection processing (lighting blinking processing) which is processing for operating the plurality of display elements constituting the display means in a predetermined manner;
A gaming machine comprising
The inspection processing execution means comprises means for executing the inspection processing after the external power supply is started and before the execution of the game progress processing is started. .

  According to the feature βO1, since the inspection process is executed after the external power supply is started and before the execution of the game progress process is started, the administrator or the inspector of the gaming machine can Before the game can proceed in the machine, it is possible to inspect whether or not there are display elements that do not operate in a predetermined manner due to a malfunction among the plurality of display elements constituting the display means.

  If it is configured to execute the inspection process after the execution of the game progress process is started, the player plays the game before the administrator or the inspector can inspect the display means. It becomes possible to start. In this case, after the player starts playing the game machine, the administrator or the inspector may inspect the display unit of the game machine and find a defect in the display element of the display unit. If the administrator or the inspector finds a defect in the display element of the display means of the gaming machine, it is necessary for the player to interrupt or stop the game in order to repair or replace the display means. . As a result, there is a possibility of giving a strong discomfort to the player.

  On the other hand, according to this feature, the manager or the inspector can inspect the display means of the gaming machine before the player can start the game in the gaming machine. , It is possible to prevent the game from being interrupted or stopped and causing the player to feel uncomfortable.

[Feature βO2]
A gaming machine described in the feature βO1,
Each of the plurality of display elements can be in a first display mode (light-off state) and a second display mode (light-on state) different from the first display mode,
The inspection process includes a process of controlling so that all of the plurality of display elements constituting the display means are in the second display mode.

  According to the feature βO2, the inspection process includes a process of controlling all of the plurality of display elements constituting the display unit to be in the second display mode. It is possible to inspect whether or not there are display elements (for example, light-emitting portions that do not light up due to disconnection) that cannot be in the second display mode due to a malfunction among the plurality of display elements constituting the means.

[Feature βO3]
A gaming machine according to feature βO1 or feature βO2,
Each of the plurality of display elements can be in a first display mode (light-off state) and a second display mode (light-on state) different from the first display mode,
The inspection process includes a process of controlling so that all of the plurality of display elements constituting the display unit alternately repeat the first display mode and the second display mode. Gaming machine.

  According to the feature βO3, the inspection process includes a process of controlling all the plurality of display elements constituting the display unit to alternately repeat the first display mode and the second display mode. The administrator or the inspector of the display element that cannot shift from the second display mode to the first display mode due to a malfunction among the plurality of display elements that constitute the display means (for example, the display unit is always lit) It is possible to inspect whether or not there is a light emitting portion that does not turn off.

<Characteristic βP group>
The feature βP group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature βP1]
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means (main-side RAM 64) for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means; ,
Calculation means for calculating game history information (game history information such as an accessory ratio, a continuous feature ratio, a pitch rate, etc.) that is information relating to a game history based on the detection information;
A display means (information display unit 45z) configured by a plurality of display elements (segment light emitting unit, CP light emitting unit) and capable of displaying various types of information;
Game history information display processing execution means for executing game history information display processing (game history processing included in timer interrupt processing), which is processing for displaying information corresponding to the game history information on the display means;
Inspection processing execution means for executing inspection processing (lighting blinking processing) which is processing for operating the plurality of display elements constituting the display means in a predetermined manner;
A gaming machine comprising
The inspection process execution means includes means for executing the inspection process before the game history information display process is executed and information corresponding to the game history information is displayed on the display means. A gaming machine characterized by

  According to the feature βP1, since the inspection process is executed before the information corresponding to the game history information is displayed on the display means, the administrator or the inspector of the gaming machine corresponds to the gaming history information in the gaming machine. Before the information is displayed on the display means, it is possible to check whether there are any display elements that do not operate in a predetermined manner due to a malfunction among the plurality of display elements constituting the display means. As a result, the information corresponding to the game history information displayed on the display means is displayed without noticing that there is a display element that does not operate normally due to a malfunction among the plurality of display elements constituting the display means. Checking can be suppressed.

[Feature βP2]
A gaming machine described in the feature βP1,
Each of the plurality of display elements can be in a first display mode (light-off state) and a second display mode (light-on state) different from the first display mode,
The inspection process includes a process of controlling so that all of the plurality of display elements constituting the display means are in the second display mode.

  According to the feature βP2, the inspection process includes a process for controlling all of the plurality of display elements constituting the display unit to be in the second display mode. It is possible to inspect whether or not there are display elements (for example, light-emitting portions that do not light up due to disconnection) that cannot be in the second display mode due to a malfunction among the plurality of display elements constituting the means.

[Feature βP3]
A gaming machine according to feature βP1 or feature βP2,
Each of the plurality of display elements can be in a first display mode (light-off state) and a second display mode (light-on state) different from the first display mode,
The inspection process includes a process of controlling so that all of the plurality of display elements constituting the display unit alternately repeat the first display mode and the second display mode. Gaming machine.

  According to the feature βP3, the inspection process includes a process of controlling so that all of the plurality of display elements constituting the display unit alternately repeat the first display mode and the second display mode. The administrator or the inspector of the display element that cannot shift from the second display mode to the first display mode due to a malfunction among the plurality of display elements that constitute the display means (for example, the display unit is always lit) It is possible to inspect whether or not there is a light emitting portion that does not turn off.

<Characteristic βQ group>
The feature βQ group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature βQ1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A setting change mode executing means for executing a setting change mode that can be changed by accepting an operation from the outside for setting the winning probability in the predetermined lottery process;
Display means (information display unit 45z) configured by a plurality of display elements (segment light emitting unit, CP light emitting unit) and capable of displaying setting information which is information related to the setting of the winning probability during execution of the setting change mode;
Inspection processing execution means for executing inspection processing (lighting blinking processing) which is processing for operating the plurality of display elements constituting the display means in a predetermined manner;
A gaming machine comprising
The inspection process execution means includes means for executing the inspection process before the setting information is displayed on the display means by executing the setting change mode.

  According to the feature βQ1, since the inspection process is executed before the setting information is displayed on the display unit, the administrator or the inspector of the gaming machine can display the setting information on the display unit before the setting information is displayed on the display unit. It is possible to inspect whether or not there is a 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, it is possible to confirm the setting information displayed on the display means without noticing that there is a display element that does not operate normally due to a malfunction among the plurality of display elements constituting the display means. Can be suppressed.

[Feature βQ2]
A gaming machine described in the feature βQ1,
Each of the plurality of display elements can be in a first display mode (light-off state) and a second display mode (light-on state) different from the first display mode,
The inspection process includes a process of controlling so that all of the plurality of display elements constituting the display means are in the second display mode.

  According to the feature βQ2, the inspection process includes a process of controlling all of the plurality of display elements constituting the display unit to be in the second display mode. It is possible to inspect whether or not there are display elements (for example, light-emitting portions that do not light up due to disconnection) that cannot be in the second display mode due to a malfunction among the plurality of display elements constituting the means.

[Feature βQ3]
A gaming machine according to feature βQ1 or feature βQ2,
Each of the plurality of display elements can be in a first display mode (light-off state) and a second display mode (light-on state) different from the first display mode,
The inspection process includes a process of controlling so that all of the plurality of display elements constituting the display unit alternately repeat the first display mode and the second display mode. Gaming machine.

  According to the feature βQ3, the inspection process includes a process of controlling so that all of the plurality of display elements constituting the display unit alternately repeat the first display mode and the second display mode. The administrator or the inspector of the display element that cannot shift from the second display mode to the first display mode due to a malfunction among the plurality of display elements that constitute the display means (for example, the display unit is always lit) It is possible to inspect whether or not there is a light emitting portion that does not turn off.

  The invention of the above-mentioned feature βL group to feature βQ group solves the following problems.

  In gaming machines such as pachinko machines and slot machines, there is an increase in gaming interest, a reduction in processing load on gaming machines, optimization of processing, simplification of control, simplification of structure, efficiency of development of gaming machines, Technical improvements have been made from various viewpoints such as structure, control, production, etc. for the purpose of providing gaming machines that are less prone to malfunctions, and providing gaming machines in consideration of players.

  In addition, various technical improvements have been made for the purpose of improving the soundness of games, such as the discovery and suppression of illegal acts by players and unauthorized modifications to gaming machines.

  In gaming machines such as those mentioned above, there is an increase in gaming interest, reduction in processing load on gaming machines, optimization of processing, simplification of control, simplification of structure, efficiency of development of gaming machines, and problems. Further technical improvements are desired for the purpose of providing difficult gaming machines, providing gaming machines in consideration of players, and providing more sound games.

<Characteristic βR group>
The feature βR group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment (for example, aspect 100).

[Feature βR1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A setting change mode executing means for executing a setting change mode that can be changed by accepting a predetermined change operation (an operation of pressing a setting change button) from the outside for setting the winning probability in the predetermined lottery process;
Storage means (main RAM 64) for storing predetermined identification information (setting changing flag);
The identification information is set to a first state (ON) at the start of the setting change mode, and the identification information is set to a second state (OFF) different from the first state at the end of the setting change mode. Identification information transition means for transitioning to
A gaming machine comprising
The storage means can maintain the state of the identification information even when power supply to the gaming machine is cut off from the outside.
The setting change mode execution means includes
Predetermined start operation (operation for turning on the power switch of the pachinko machine 10 when the setting key, the frame opening switch, and the door opening switch are all ON and the RAM clear button is pressed) A first starting means for starting the setting change mode based on the acceptance;
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 from the outside is started;
A gaming machine characterized by comprising:

  According to the feature βR1, the first start unit starts the setting change mode based on the reception of the predetermined start operation, and the identification information transition unit sends the identification information to the first information when the setting change mode starts. The identification information is transitioned to the second state when the setting change mode ends. And the memory | storage means can maintain the state of identification information, even if it is the state from which the supply of the electric power to the said game machine from the outside was interrupted. Therefore, for example, if the power supply to the gaming machine is cut off during execution of the setting change mode due to, for example, the power switch of the gaming machine being turned off or a power failure occurring, it is stored in the storage means. The identification information is maintained in the first state.

  And according to this feature, the second starting means changes the setting change mode based on determining that the identification information is in the first state when the supply of power to the gaming machine from the outside is started. Let it begin. That is, according to this feature, when power supply to the gaming machine is cut off during execution of the setting change mode, when the power supply to the gaming machine is resumed, a predetermined start operation is performed. Even in the case of not accepting the setting change mode, the setting change mode is started.

  Therefore, when the supply of power to the gaming machine is cut off from the outside during the execution of the setting change mode, in order for the gaming machine to start the setting change mode again, the power supply to the gaming machine is It is possible to save the trouble that the administrator has to perform a predetermined start operation again after the restart.

  In addition, when power supply to the gaming machine is cut off from outside during the execution of the setting change mode, there is a possibility that the setting of the winning probability of the gaming machine is not intended by the administrator. However, according to this feature, when the supply of power from the outside to the gaming machine is resumed, the setting change mode is started without the administrator of the gaming machine performing a predetermined starting operation again. Thus, it is possible to suppress the setting of the winning probability of the gaming machine from being overlooked in a state not intended by the administrator.

<Characteristic βS group>
The feature βS group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment (for example, aspect 100).

[Feature βS1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A setting change mode executing means for executing a setting change mode that can be changed by accepting a predetermined change operation (an operation of pressing a setting change button) from the outside for setting the winning probability in the predetermined lottery process;
Setting information display mode execution means for executing a setting information display mode (setting confirmation mode) that displays setting information that is information related to the setting of the winning probability but cannot change the setting of the winning probability;
Storage means (main-side RAM 64) for storing predetermined identification information (setting confirmation flag);
The identification information is set to a first state (ON) at the start of the setting information display mode, and the identification information is set to a second state different from the first state at the end of the setting information display mode ( Identification information transition means for transitioning to (OFF),
A gaming machine comprising
The storage means can maintain the state of the identification information even when power supply to the gaming machine is cut off from the outside.
The setting information display mode execution means includes
Predetermined start operation (operation for turning on the power switch of the pachinko machine 10 in a state where all of the setting key, the frame opening switch and the door opening switch are ON and the RAM clear button is not pressed) A first starting means for starting the setting information display mode based on the acceptance;
Second starting means for starting the setting information display mode based on determining that the identification information is in the first state when the supply of power to the gaming machine from the outside is started;
A gaming machine characterized by comprising:

  According to the feature βS1, the first start unit starts the setting information display mode based on the reception of the predetermined start operation, and the identification information transition unit displays the identification information at the start of the setting information display mode. When the setting information display mode ends, the identification information is shifted to the second state. And the memory | storage means can maintain the state of identification information, even if it is the state from which the supply of the electric power to the said game machine from the outside was interrupted. Therefore, for example, when the power supply to the gaming machine is cut off during execution of the setting information display mode due to, for example, the power switch of the gaming machine being turned off or a power failure occurring, the memory is stored in the storage unit. The identified information is maintained in the first state.

  And according to this feature, the second start means is configured to display the setting information display mode based on determining that the identification information is in the first state when the supply of power to the gaming machine from the outside is started. To start. That is, according to this feature, when power supply to the gaming machine is cut off during execution of the setting information display mode, when the power supply to the gaming machine is resumed, a predetermined start Even if the operation is not accepted, the setting information display mode is started.

  Therefore, when the supply of power to the gaming machine is cut off from the outside during the execution of the setting information display mode, in order for the gaming machine to start the setting information display mode again, the power to the gaming machine is It is possible to save the administrator from 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, modified examples, or a combination thereof, and is mainly extracted from the first embodiment (for example, aspect 100).

[Feature βT1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A setting change mode executing means for executing a setting change mode that can be changed by accepting a predetermined change operation (an operation of pressing a setting change button) from the outside for setting the winning probability in the predetermined lottery process;
Storage means for storing setting information, which is information relating to the setting of the winning probability, the first storage 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 RAM 64);
Second storage means (update setting information storage area of the main RAM 64) for storing change setting information (update setting information) that is information used during execution of the setting change mode;
Change means capable of changing the setting information for change during execution of the setting change mode;
A gaming machine comprising
The second storage means includes means for storing information corresponding to the setting information as the setting information for change at the start of the setting change mode,
The changing means comprises means for changing the setting information for change stored in the second storage means by receiving the predetermined changing operation,
The first storage means includes means for storing information corresponding to the setting information for change as the setting information at the end of the setting change mode.

  According to the feature βT1, the second storage unit stores the information corresponding to the setting information as the setting information for change at the start of the setting change mode, and the changing unit receives the predetermined change operation, thereby 2 The setting information for change stored in the storage means is changed, and the first storage means stores information corresponding to the setting information for change as setting information at the end of the setting change mode. Therefore, even when the external power supply is cut off during the execution of the setting change mode, the setting information stored in the first storage means remains at the value before the setting change mode is started. Can be maintained. As a result, it is suppressed that the setting information of the winning probability of the gaming machine becomes a value different from the value intended by the administrator due to the interruption of the external power supply during the execution of the setting change mode. be able to. This will be specifically described below.

  Temporarily, a configuration in which the setting information for change is not used during the execution of the setting change mode, and the configuration in which the setting information stored in the first storage unit is directly changed by receiving a predetermined change operation is adopted. If the external power supply is cut off at the timing when the setting information is different from the value intended by the administrator of the gaming machine during execution of the setting change mode, The setting information of the winning probability is different from the value intended by the administrator.

  On the other hand, according to this feature, the setting information stored in the first storage unit is not changed until the setting change mode is ended, and the setting information for change stored in the second storage unit is not changed. When the setting information for change is different from the value intended by the administrator of the gaming machine during the execution of the setting change mode, the external power supply is cut off. Even if it exists, the setting information memorize | stored in the 1st memory | storage means is maintained with the value before the setting change mode is started. Therefore, it is possible to suppress that the setting information of the winning probability of the gaming machine becomes a value different from the value intended by the administrator due to the interruption of the external power supply during the execution of the setting change mode. Can do.

[Feature βT2]
A gaming machine described in the feature βT1,
A game machine comprising: display means for displaying the setting information for change stored in the second storage means during execution of the setting change mode.

  According to the feature βT2, the display means displays the setting information for change stored in the second storage means during the execution of the setting change mode, so that the administrator can change the setting displayed on the display means. A predetermined changing operation can be performed while checking the information.

<Characteristic βU group>
The feature βU group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment (for example, aspect 100).

[Feature βU1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A setting change mode executing means for executing a setting change mode that can be changed by accepting a predetermined change operation (an operation of pressing a setting change button) from the outside for setting the winning probability in the predetermined lottery process;
Storage means for storing setting information, which is information related to the setting of the winning probability, and capable of maintaining the state of the setting information even when the external power supply is cut off ( Setting information storage area of the main RAM 64),
A setting information determination unit that determines whether or not the setting information satisfies a predetermined condition when the supply of electric power from the outside is started (executes the process of step S12007 in FIG. 65);
A game progress process execution means for executing a game progress process (the process of steps S12304 to S12316 in FIG. 68), which is a process of progressing the game;
A gaming machine comprising
The game progress process execution means determines that the setting information does not satisfy the predetermined condition by the setting information determination means (in step S12007 of FIG. 65, it is determined that the setting information is not within a predetermined range, When the RAM abnormality flag is turned ON in step S12015), the game progress process is not executed.

  According to the feature βU1, the storage means maintains the state of the setting information even when the external power supply is cut off, and the game progress process execution means starts the external power supply When it is determined whether or not the setting information satisfies a predetermined condition, and it is determined that the setting information does not satisfy the predetermined condition, the game progress process for advancing the game is not executed. Therefore, it is possible to prevent the game progress process from being executed in a state where the setting information stored in the storage means does not satisfy the predetermined condition, thereby causing a problem in the progress of the game in the gaming machine. . As a result, for example, it is possible to prevent an unexpected loss from being given to a player or a manager.

<Characteristic βV group>
The feature βV group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment (for example, aspect 100).

[Feature βV1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A setting change mode executing means for executing a setting change mode that can be changed by accepting a predetermined change operation (an operation of pressing a setting change button) from the outside for setting the winning probability in the predetermined lottery process;
Storage means capable of storing various types of information including setting information that is information related to the setting of the winning probability, and can maintain the various types of information even when the external power supply is cut off Storage means (main-side RAM 64);
A setting information determination unit that determines whether or not the setting information satisfies a predetermined condition when the supply of electric power from the outside is started (executes the process of step S12007 in FIG. 65);
An erasure process executing means for executing an erasure process (first RAM clear process) for erasing excluding the setting information among the various information stored in the storage means;
A gaming machine comprising
The erasing process execution means includes
The erasing process based on receiving a predetermined erasing operation (an operation to turn on the power switch of the pachinko machine 10 with the setting key being OFF and the RAM clear button being pressed). Means for performing
When the setting information determining means determines that the setting information does not satisfy the predetermined condition (in step S12007 in FIG. 65, it is determined that the setting information is not within the predetermined range, and in step S12015, the RAM abnormality flag is turned ON. In the case where the predetermined erasing operation is accepted, means for not executing the erasing process,
A gaming machine characterized by comprising:

  According to the feature βV1, the storage unit maintains the state of the setting information even when the external power supply is cut off, and the erasure processing execution unit starts the external power supply. If the setting information satisfies the predetermined condition when it is determined that the setting information does not satisfy the predetermined condition, the erasure process is performed even if the predetermined erasing operation is accepted. Do not execute. Therefore, it is possible to suppress the occurrence of problems due to the erasing process being executed while the setting information does not satisfy the predetermined condition. This will be specifically described below.

  Even if it is determined that the setting information does not satisfy the predetermined condition, if the configuration for executing the erasing process is adopted, for example, the setting information is predetermined among the various information stored in the storage unit. Even if information indicating that the condition is not satisfied (e.g., RAM abnormality flag) is erased and the setting information is in a state that does not satisfy the predetermined condition, the setting information is There is a possibility that a process (for example, a game progress process for advancing a game) on the premise that a predetermined condition is satisfied is executed and a problem occurs.

  On the other hand, according to this feature, when it is determined that the setting information does not satisfy the predetermined condition, even if a predetermined erasing operation is accepted, the erasing process is not executed, so the setting information is It can be suppressed that the erasing process is executed despite the state where the predetermined condition is not satisfied, and the process assuming that the setting information satisfies the predetermined condition is executed. As a result, it is possible to suppress the occurrence of problems due to the deletion process being executed while the setting information does not satisfy the predetermined condition.

<Characteristic βW group>
The feature βW group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment (for example, the aspect 100).

[Feature βW1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A setting change mode executing means for executing a setting change mode that can be changed by accepting a predetermined change operation (an operation of pressing a setting change button) from the outside for setting the winning probability in the predetermined lottery process;
Setting information display mode execution means for executing a setting information display mode (setting confirmation mode) that displays setting information that is information related to the setting of the winning probability but cannot change the setting of the winning probability;
Storage means capable of storing various types of information including the setting information, and capable of maintaining the various types of information even when the external power supply is cut off (setting of the main RAM 64) Information storage area),
A setting information determination unit that determines whether or not the setting information satisfies a predetermined condition when the supply of electric power from the outside is started (executes the process of step S12007 in FIG. 65);
A gaming machine comprising
The setting information display mode execution means includes
Predetermined start operation (operation for turning on the power switch of the pachinko machine 10 in a state where all of the setting key, the frame opening switch and the door opening switch are ON and the RAM clear button is not pressed) Means for executing the setting information display mode based on the received;
When the setting information determining means determines that the setting information does not satisfy the predetermined condition (in step S12007 in FIG. 65, it is determined that the setting information is not within the predetermined range, and in step S12015, the RAM abnormality flag is turned ON. In the case where the setting information display mode is not executed even when the predetermined start operation is received,
A gaming machine characterized by comprising:

  According to the feature βW1, the storage means maintains the state of various information including setting information even when the external power supply is cut off. The setting information display mode execution means When it is determined that the predetermined condition is not satisfied, the setting information display mode is not executed even when a predetermined start operation is accepted. Therefore, it is possible to suppress the execution of the setting information display mode for displaying the setting information even though the setting information stored in the storage unit does not satisfy the predetermined condition.

<Characteristic βX group>
The feature βX group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the first embodiment (for example, the aspect 100).

[Feature βX1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A setting change mode executing means for executing a setting change mode that can be changed by accepting a predetermined change operation (an operation of pressing a setting change button) from the outside for setting the winning probability in the predetermined lottery process;
Storage means capable of storing various types of information including setting information that is information related to the setting of the winning probability, and can maintain the various types of 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 executed 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 memory A calculation execution unit that stores the calculation result (a RAM determination value is calculated and stored in the main RAM 64 in the power failure monitoring process);
When the supply of electric power from the outside is started, the predetermined calculation is executed based on the predetermined information group stored in the storage unit, and a second calculation result that is a result of the predetermined calculation A calculation result determination unit that determines whether or not the first calculation result matches (executes the processing from step S12005 to step S12006 in FIG. 65);
A setting information determination unit that determines whether or not the setting information satisfies a predetermined condition when the supply of electric power from the outside is started (executes the process of step S12007 in FIG. 65);
Based on the fact that the calculation result determination means determines that the second calculation result and the first calculation result match, and the setting information determination means determines that the setting information satisfies the predetermined condition Predetermined process execution means for executing a predetermined process (the process of steps S12304 to S12316 in FIG. 68 which is a process for advancing a game);
A gaming machine characterized by comprising:

  According to the feature βX1, the predetermined process execution means determines whether the second calculation result and the first calculation result match and the setting information is determined to satisfy the predetermined condition. Execute. Therefore, it is possible to prevent the predetermined processing from being executed even though the second calculation result matches the first calculation result, but the setting information does not satisfy the predetermined condition. . As a result, it is possible to suppress the occurrence of problems due to the execution of the predetermined process even though the setting information does not satisfy the predetermined condition. This will be specifically described below.

  When the second calculation result matches the first calculation result, the content of the predetermined information group stored in the storage means when the external power supply is started and the previous power supply are There is a high possibility that the contents of the predetermined information group stored in the storage means at the time of being cut off are the same, and the predetermined information group stored in the storage means is cut off from the external power supply. There is a high possibility that it was maintained normally even if it was in a state. However, even if the predetermined information group stored in the storage means is not normally maintained, the second calculation result and the first calculation result may coincide by chance.

  Therefore, if a configuration is adopted in which it is determined whether or not the second calculation result and the first calculation result match, but the setting information does not determine whether or not the predetermined information satisfies a predetermined condition, the setting information Even if the predetermined condition is not satisfied, there is a possibility that the second calculation result and the first calculation result coincide with each other and the predetermined process is executed. If the predetermined process includes, for example, a process that allows a game to progress, there is a possibility that a fatal problem may occur in the progress of the game.

  On the other hand, according to this feature, it is determined that the second calculation result matches the first calculation result, and the predetermined processing is performed based on the determination that the setting information satisfies the predetermined condition. Execute, in other words, the second calculation result matches the first calculation result, but the predetermined process is not executed when the setting information does not satisfy the predetermined condition. Therefore, it is possible to prevent the predetermined processing from being executed even though the second calculation result matches the first calculation result, but the setting information does not satisfy the predetermined condition. . As a result, it is possible to suppress the occurrence of problems due to the execution of the predetermined process even though the setting information does not satisfy the predetermined condition.

<Characteristic βY group>
The feature βY group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the first embodiment (for example, the aspect 100).

[Feature βY1]
The entrance part where game balls can enter,
Lottery process execution means for executing a predetermined lottery process based on the entry of the game ball into the pitching unit;
A setting change mode executing means for executing a setting change mode that can be changed by accepting a predetermined change operation (an operation of pressing a setting change button) from the outside for setting the winning probability in the predetermined lottery process;
By accepting a predetermined operation (operation for inserting and turning the setting key into the setting keyhole), the second state (from the OFF state) is different from the first state (from the first state). Operation accepting means (setting keyhole) capable of shifting to the ON side state),
A gaming machine comprising
The setting change mode execution means includes
Based on the detection of the transition from the second state to the first state (OFF edge falling from the ON-side state to the OFF-side state) of the operation receiving means during execution of the setting change mode. And a ending means for ending the setting change mode.

  According to the feature βY1, the setting change mode executing unit ends the setting change mode based on the detection of the transition from the second state to the first state of the operation receiving unit during the execution of the setting change mode. Therefore, it can be avoided that the setting change mode ends immediately after the start. This will be specifically described below.

  For example, a first start condition including that the operation accepting means is in the second state (for example, the setting key (keyhole), the frame opening switch, and the door opening switch are all ON, and the RAM clear button In the state where the button is pressed and the operation of turning on the power switch of the pachinko machine 10 is established, and whether the operation accepting means is in the second state or not. In the configuration in which the setting change mode is started when the start condition (for example, the setting changing flag is ON when the power is turned on) is satisfied, the configuration is different from this feature, and the operation receiving unit A case will be described in which a configuration in which the setting change mode is terminated when it is detected that is in the first state. When this configuration is adopted, when the setting change mode is started based on the establishment of the first start condition including that the operation receiving unit is in the second state, the operation receiving unit is in the second state. The setting change mode continues until the first state is shifted to the first state. However, when the setting change mode is started based on the establishment of the second start condition regardless of whether or not the operation reception unit is in the second state, the operation reception unit is set in the first state. Change mode may be initiated. In this case, immediately after the setting change mode is started, it is detected that the operation accepting unit is in the first state, and the setting change mode ends. That is, the setting change mode ends immediately after the start, and it becomes difficult to change the winning probability setting in the setting change mode.

  On the other hand, according to this feature, since the setting change mode is terminated based on the detection of the transition from the second state to the first state of the operation reception unit, for example, the second start condition Even if the setting change mode is started due to the establishment of and the setting change mode is started while the operation accepting unit is in the first state, the administrator of the gaming machine etc. The setting change mode continues until the first state is changed to the second state and the second state is changed to the first state again. Therefore, even when the setting change mode is started while the operation accepting unit is in the first state, it is possible to avoid the end of the setting change mode immediately after the setting change mode is started. . As a result, it can be suppressed that it is difficult to change the setting of the winning probability by ending the setting change mode immediately after the start.

  Further, according to this feature, only the person who can shift the state of the operation accepting unit ends the setting change mode even when the setting change mode is started by the establishment of the second start condition. Can do. Therefore, the security of the gaming machine can be improved.

[Feature βY2]
A gaming machine according to the feature βY1,
The setting change mode execution means includes
Based on the fact that the first start condition including that the operation receiving means is in the second state (the setting keyhole is in the ON side state) is satisfied, the setting change mode is started. 1 starting means;
Based on the fact that a second start condition (whether the setting change flag is ON when the power is turned on) regardless of whether or not the operation accepting unit is in the second state is satisfied, the setting change mode is changed. Second starting means for starting;
A gaming machine characterized by comprising:

  According to the feature βY2, the first start means starts the setting change mode based on the establishment of the first start condition including that the operation accepting means is in the second state, and the second start means The setting change mode is started based on the fact that the second start condition regardless of whether or not the operation accepting unit is in the second state is satisfied. Therefore, the setting change mode can be started not only when the operation accepting unit is in the second state but also when the operation accepting unit is not in the second state.

  Note that the invention of the feature βR group to the feature βY group solves the following problems.

  In gaming machines such as pachinko machines and slot machines, there is an increase in gaming interest, a reduction in processing load on gaming machines, optimization of processing, simplification of control, simplification of structure, efficiency of development of gaming machines, Technical improvements have been made from various viewpoints such as structure, control, production, etc. for the purpose of providing gaming machines that are less prone to malfunctions, and providing gaming machines in consideration of players.

  In addition, various technical improvements have been made for the purpose of improving the soundness of games, such as the discovery and suppression of illegal acts by players and unauthorized modifications to gaming machines.

  In gaming machines such as those mentioned above, there is an increase in gaming interest, reduction in processing load on gaming machines, optimization of processing, simplification of control, simplification of structure, efficiency of development of gaming machines, and problems. Further technical improvements are desired for the purpose of providing difficult gaming machines, providing gaming machines in consideration of players, and providing more sound games.

<Characteristic βZ group>
The feature βZ group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 101 of the first embodiment.

[Feature βZ1]
A gaming machine,
Timekeeping information updating means (timekeeping register of RTC97) that can update timekeeping information (current date and time information) including information that can specify the time even when the power supply from the outside to the gaming machine is cut off 97b1),
The time keeping information can be stored as start time information (start date and time information), and the stored start time information can be stored even during the power interruption state. Startup time information storage area 97b2),
Based on the start of external power supply to the gaming machine, the time information is acquired from the time information update means, and the start time information storage means is used as the start time information. Storage processing execution means for executing storage processing that is processing to be stored in
An elapsed time calculating means for calculating an elapsed time after the storage process is executed based on the startup time information;
Predetermined processing execution means for executing predetermined processing (RTC effect) based on the elapsed time;
Based on the start of external power supply to the gaming machine, a plurality of types of activation processes with different processing contents (an activation process including a process for transmitting a normal activation command in FIG. 70, a setting change mode) A startup process execution means for executing any one of the startup process including the execution of the configuration confirmation mode, the startup process including the execution of the setting confirmation mode),
With
The storage process execution unit is configured to execute a specific start process (start process including execution of a setting change mode, execution of a setting check mode) among the plurality of start processes in which the type of the start process executed by the start process executing unit In the case of a starting process including the avoidance means for avoiding the execution of the storage process.

  Prior to the description of the effect of the feature βZ1, a game hall in which a plurality of gaming machines are installed will be described. In general, in the gaming hall, power supply to a plurality of gaming machines is started simultaneously (simultaneously). Specifically, for example, a plurality of gaming machines are installed in a so-called island facility with their respective power switches turned on, and the island facility power switch (hereinafter also referred to as an island power switch) is turned on. Then, power supply is started simultaneously (simultaneously) to a plurality of gaming machines installed in the island facility.

  Based on the operation of the gaming machine in the gaming hall described above, the gaming machine having the feature βZ1 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, which is a process for storing the acquired timekeeping information in the activation time information storage means as activation time information. Then, an elapsed time after the storage process is executed is calculated based on the startup time information stored in the startup time information storage means, and a predetermined process is executed based on the calculated elapsed time. The effect of adopting this configuration will be described.

  Temporarily, a configuration for executing a predetermined process based on time information (current date information) updated in time information update means (time register 97b1 of RTC 97) instead of the elapsed time since the storage process was executed (for example, A case where a predetermined production is started at a timing when the time included in the time measurement information becomes 11:00:00 will be described. In this configuration, when there is a difference in the time included in the time information of each gaming machine installed in the island facility (for example, the time included in the time information of the gaming machine A is 11 at a certain moment). When the time is 00:00 and the time included in the timing information of the gaming machine B is 10:59:52), the timing at which a predetermined process (predetermined effect) is started is set for each game. It will be different for each machine, and will give a sense of incongruity to the players who were expected to start a predetermined process (predetermined production) at the same time (simultaneously) in each gaming machine 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 a storage process that is a process of storing the acquired timekeeping information as startup time information in the startup time information storage means is executed.
Therefore, for example, when a game hall administrator turns on the island power switch, power supply to a plurality of gaming machines installed in the island facility is started simultaneously (simultaneously) and installed in the island facility. Each of the gaming machines being executed executes the storage process all at once (simultaneously).

  And according to this feature, each gaming machine installed in the island facility calculates the elapsed time since the storage process was executed based on the activation time information stored in the activation time information storage means. . As described above, since each gaming machine installed in the island facility executes the storage process at the same time (simultaneously), the elapsed time after the storage process calculated in each gaming machine is Even if there is a difference in the time included in the timing information of the gaming machine, it is the same (or substantially the same).

  And according to this feature, since each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, the execution mode of the predetermined process executed in each gaming machine is changed. Can be the same. Specifically, for example, when a configuration in which a specific effect is started when the elapsed time reaches a predetermined time, the specific effect is simultaneously (simultaneously) performed on each gaming machine installed on the island facility. Can be started.

  Furthermore, the gaming machine of this feature includes a startup time information storage unit capable of holding stored startup time information even during a power interruption state, and a startup process executed by the startup process execution unit having a plurality of startup processes. And an avoiding means for avoiding execution of the storage process in the case of a specific activation process. The effect of adopting this configuration will be described.

  A case will be described in which a configuration that does not include the avoidance means described above is employed. In this configuration, when the supply of power is started simultaneously (simultaneously) to the gaming machines installed on the island facility, the gaming machines installed on the island facility are stored together (simultaneously). Execute the process. Thereafter, the manager of the game hall causes one of the gaming machines installed in the island facility to execute a specific activation process (for example, an activation process including execution of the setting change mode). In addition, once the power switch of the one gaming machine is turned off, the particular gaming machine is set in a state in which a specific startup process is executed, and the power switch of the one gaming machine is turned on to perform a specific startup process. May be executed. In this case, the one gaming machine executes the storage process again on the basis that the power switch is turned on and the supply of power is started. Then, the elapsed time calculated in the one gaming machine is different from the elapsed time calculated in the other gaming machine, and the timing at which the predetermined processing (predetermined effect) is started in the one gaming machine. However, there is a problem in that it is different from the timing at which a predetermined process (predetermined effect) is started in another gaming machine, and gives a sense of incongruity to a player who is playing a game in the one gaming machine.

  On the other hand, according to this feature, even if the manager of the gaming hall turns off the power switch of the one gaming machine and turns it off, it is stored in the starting time information storage means of the one gaming machine. The startup time information is retained. Thereafter, when the administrator turns on the power switch with the one gaming machine being in a state where a specific starting process is executed, the specific starting process is executed in the one gaming machine, and the execution of the storage process is avoided. Therefore, the storage process executed when the start time information stored in the start time information storage means of the one gaming machine is not overwritten and the supply of power is started simultaneously (simultaneously) with other gaming machines. The startup time information stored at is maintained. As a result, the elapsed time calculated in each gaming machine installed in the island facility including the one gaming machine is the same (or substantially the same).

  And according to this feature, each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, so once the power switch is turned off, the power switch is turned on again. The execution mode 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, in a case where a configuration in which a specific effect is started when the elapsed time reaches a predetermined time, a gaming machine in which the power switch is turned on again after the power switch is turned off is included. It is possible to start specific performances simultaneously (simultaneously) in each gaming machine installed in the island facility. As a result, it is possible to improve the interest of the game.

<Feature γA group>
The feature γA group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 101 of the first embodiment.

[Feature γA1]
A gaming machine,
Timekeeping information updating means (timekeeping register of RTC97) that can update timekeeping information (current date and time information) including information that can specify the time even when the power supply from the outside to the gaming machine is cut off 97b1),
The time keeping information can be stored as start time information (start date and time information), and the stored start time information can be stored even during the power interruption state. Startup time information storage area 97b2),
Based on the start of external power supply to the gaming machine, the time information is acquired from the time information update means, and the start time information storage means is used as the start time information. Storage processing execution means for executing storage processing that is processing to be stored in
An elapsed time calculating means for calculating an elapsed time after the storage process is executed based on the startup time information;
Predetermined processing execution means for executing predetermined processing (RTC effect) based on the elapsed time;
Operation accepting means for accepting a predetermined operation (setting keyhole);
With
The storage process execution means avoids execution of the storage process when the operation accepting means accepts the predetermined operation when the external power supply to the gaming machine is started. A gaming machine characterized by comprising:

  Prior to the description of the effect of the feature γA1, a game hall in which a plurality of gaming machines are installed will be described. In general, in the gaming hall, power supply to a plurality of gaming machines is started simultaneously (simultaneously). Specifically, for example, a plurality of gaming machines are installed in a so-called island facility with their respective power switches turned on, and the island facility power switch (hereinafter also referred to as an island power switch) is turned on. Then, power supply is started simultaneously (simultaneously) to a plurality of gaming machines installed in the island facility.

  Based on the operation of the gaming machine in the gaming hall described above, the gaming machine having the characteristic γA1 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, which is a process for storing the acquired timekeeping information in the activation time information storage means as activation time information. Then, an elapsed time after the storage process is executed is calculated based on the activation time information, and a predetermined process is executed based on the calculated elapsed time. The effect of adopting this configuration will be described.

  Temporarily, a configuration for executing a predetermined process based on time information (current date information) updated in time information update means (time register 97b1 of RTC 97) instead of the elapsed time since the storage process was executed (for example, A case where a predetermined production is started at a timing when the time included in the time measurement information becomes 11:00:00 will be described. In this configuration, when there is a difference in the time included in the time information of each gaming machine installed in the island facility (for example, the time included in the time information of the gaming machine A is 11 at a certain moment). When the time is 00:00 and the time included in the timing information of the gaming machine B is 10:59:52), the timing at which a predetermined process (predetermined effect) is started is set for each game. It will be different for each machine, and will give a sense of incongruity to the players who were expected to start a predetermined process (predetermined production) at the same time (simultaneously) in each gaming machine 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 a storage process that is a process of storing the acquired timekeeping information as startup time information in the startup time information storage means is executed. Therefore, for example, when a game hall administrator turns on the island power switch, power supply to a plurality of gaming machines installed in the island facility is started simultaneously (simultaneously) and installed in the island facility. Each of the gaming machines being executed executes the storage process all at once (simultaneously).

  And according to this feature, each gaming machine installed in the island facility calculates the elapsed time since the storage process was executed based on the activation time information stored in the activation time information storage means. . As described above, since each gaming machine installed in the island facility executes the storage process at the same time (simultaneously), the elapsed time after the storage process calculated in each gaming machine is Even if there is a difference in the time included in the timing information of the gaming machine, it is the same (or substantially the same).

  And according to this feature, since each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, the execution mode of the predetermined process executed in each gaming machine is changed. Can be the same. Specifically, for example, when a configuration in which a specific effect is started when the elapsed time reaches a predetermined time, the specific effect is simultaneously (simultaneously) performed on each gaming machine installed on the island facility. Can be started.

  In addition, the gaming machine of this feature has an activation time information storage means capable of holding the stored activation time information even during a power interruption state, and when an external power supply to the gaming machine is started. And an avoiding means for avoiding execution of the storage process when the operation accepting means accepts a predetermined operation. The effect of adopting this configuration will be described.

  A case will be described in which a configuration that does not include the avoidance means described above is employed. In this configuration, when the supply of power is started simultaneously (simultaneously) to the gaming machines installed on the island facility, the gaming machines installed on the island facility are stored together (simultaneously). Execute the process. After that, the manager of the game hall temporarily turns off the power switch of one of the plurality of gaming machines installed in the island facility for various reasons, and then selects the one gaming machine. There is a case where the power switch of the one gaming machine is turned on while the operation is accepted. In this case, the one gaming machine executes the storage process again on the basis that the power switch is turned on and the supply of power is started. Then, the elapsed time calculated in the one gaming machine is different from the elapsed time calculated in the other gaming machine, and the timing at which the predetermined processing (predetermined effect) is started in the one gaming machine. However, there is a problem in that it is different from the timing at which a predetermined process (predetermined effect) is started in another gaming machine, and gives a sense of incongruity to a player who is playing a game in the one gaming machine.

  On the other hand, according to this feature, even if the manager of the gaming hall turns off the power switch of the one gaming machine and turns it off, it is stored in the starting time information storage means of the one gaming machine. The startup time information is retained. After that, if the administrator turns on the power switch with the one gaming machine receiving a predetermined operation, the execution of the storage process is avoided, so the start time information storage means of the one gaming machine The stored startup time information is not overwritten, and the startup time information stored in the storage process executed when the supply of power is started simultaneously (simultaneously) with other gaming machines is maintained. As a result, the elapsed time calculated in each gaming machine installed in the island facility including the one gaming machine is the same (or substantially the same).

  And according to this feature, each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, so once the power switch is turned off, the power switch is turned on again. The execution mode 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, in a case where a configuration in which a specific effect is started when the elapsed time reaches a predetermined time, a gaming machine in which the power switch is turned on again after the power switch is turned off is included. It is possible to start specific performances simultaneously (simultaneously) in each gaming machine installed in the island facility. As a result, it is possible to improve the interest of the game.

<Feature γB group>
The feature γB group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 101 of the first embodiment.

[Feature γB1]
A gaming machine,
A ball entry means that allows a game ball to enter,
Lottery process execution means for executing a predetermined lottery process based on a game ball entering the ball entry means;
A setting change mode executing means for executing a setting change mode that can be changed by accepting a predetermined change operation (an operation of pressing a setting change button) from the outside for setting the winning probability in the predetermined lottery process;
Timekeeping information updating means (timekeeping register of RTC97) that can update timekeeping information (current date and time information) including information that can specify the time even when the power supply from the outside to the gaming machine is cut off 97b1),
The time keeping information can be stored as start time information (start date and time information), and the stored start time information can be stored even during the power interruption state. Startup time information storage area 97b2),
Based on the start of external power supply to the gaming machine, the time information is acquired from the time information update means, and the start time information storage means is used as the start time information. Storage processing execution means for executing storage processing that is processing to be stored in
An elapsed time calculating means for calculating an elapsed time after the storage process is executed based on the startup time information;
Predetermined processing execution means for executing predetermined processing (RTC effect) based on the elapsed time;
With
The setting change mode execution means includes
Determining means for determining whether or not a predetermined start condition is satisfied when supply of electric power from the outside to the gaming machine is started;
Setting change mode starting means for starting the setting change mode based on establishment of the predetermined start condition;
With
The storage processing execution means includes avoidance means for avoiding execution of the storage processing when the setting change mode is started.

  Prior to the description of the effect of the feature γB1, a gaming hall in which a plurality of gaming machines are installed will be described. In general, in the gaming hall, power supply to a plurality of gaming machines is started simultaneously (simultaneously). Specifically, for example, a plurality of gaming machines are installed in a so-called island facility with their respective power switches turned on, and the island facility power switch (hereinafter also referred to as an island power switch) is turned on. Then, power supply is started simultaneously (simultaneously) to a plurality of gaming machines installed in the island facility.

  Based on the operation of the gaming machine in the gaming hall described above, the gaming machine having the characteristic 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, which is a process for storing the acquired timekeeping information in the activation time information storage means as activation time information. Then, an elapsed time after the storage process is executed is calculated based on the activation time information, and a predetermined process is executed based on the calculated elapsed time. The effect of adopting this configuration will be described.

  Temporarily, a configuration for executing a predetermined process based on time information (current date information) updated in time information update means (time register 97b1 of RTC 97) instead of the elapsed time since the storage process was executed (for example, A case where a predetermined production is started at a timing when the time included in the time measurement information becomes 11:00:00 will be described. In this configuration, when there is a difference in the time included in the time information of each gaming machine installed in the island facility (for example, the time included in the time information of the gaming machine A is 11 at a certain moment). When the time is 00:00 and the time included in the timing information of the gaming machine B is 10:59:52), the timing at which a predetermined process (predetermined effect) is started is set for each game. It will be different for each machine, and will give a sense of incongruity to the players who were expected to start a predetermined process (predetermined production) at the same time (simultaneously) in each gaming machine 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 a storage process that is a process of storing the acquired timekeeping information as startup time information in the startup time information storage means is executed.
Therefore, for example, when a game hall administrator turns on the island power switch, power supply to a plurality of gaming machines installed in the island facility is started simultaneously (simultaneously) and installed in the island facility. Each of the gaming machines being executed executes the storage process all at once (simultaneously).

  And according to this feature, each gaming machine installed in the island facility calculates the elapsed time since the storage process was executed based on the activation time information stored in the activation time information storage means. . As described above, since each gaming machine installed in the island facility executes the storage process at the same time (simultaneously), the elapsed time after the storage process calculated in each gaming machine is Even if there is a difference in the time included in the timing information of the gaming machine, it is the same (or substantially the same).

  And according to this feature, since each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, the execution mode of the predetermined process executed in each gaming machine is changed. Can be the same. Specifically, for example, when a configuration in which a specific effect is started when the elapsed time reaches a predetermined time, the specific effect is simultaneously (simultaneously) performed on each gaming machine installed on the island facility. Can be started.

  Furthermore, the gaming machine of this feature avoids execution of storage processing when the setting time change mode is started, and the start time information storage means capable of holding the stored start time information even during a power interruption state. And avoidance means. The effect of adopting this configuration will be described.

  A case will be described in which a configuration that does not include the avoidance means described above is employed. In this configuration, when the supply of power is started simultaneously (simultaneously) to the gaming machines installed on the island facility, the gaming machines installed on the island facility are stored together (simultaneously). Execute the process. Thereafter, the game hall administrator executes the setting change mode to change the winning probability setting of the gaming machine, and the power source of one of the gaming machines installed in the island facility After the switch is once turned off, there is a case where the setting change mode is started by turning on the power switch of the one gaming machine in a state where a start condition for starting the setting changing mode is established. In this case, the one gaming machine executes the storage process again on the basis that the power switch is turned on and the supply of power is started. Then, the elapsed time calculated in the one gaming machine is different from the elapsed time calculated in the other gaming machine, and the timing at which the predetermined processing (predetermined effect) is started in the one gaming machine. However, there is a problem in that it is different from the timing at which a predetermined process (predetermined effect) is started in another gaming machine, and gives a sense of incongruity to a player who is playing a game in the one gaming machine.

  On the other hand, according to this feature, even if the manager of the gaming hall turns off the power switch of the one gaming machine and turns it off, it is stored in the starting time information storage means of the one gaming machine. The startup time information is retained. Thereafter, when the administrator turns on the power switch in a state where the start condition for starting the setting change mode for the one gaming machine is satisfied, the setting changing mode is started in the one gaming machine, and the storage process is executed. Therefore, the activation time information stored in the activation time information storage means of the one gaming machine is not overwritten, and is executed when power supply is started simultaneously (simultaneously) with other gaming machines. The startup time information stored in the storage process is maintained. As a result, the elapsed time calculated in each gaming machine installed in the island facility including the one gaming machine is the same (or substantially the same).

  And according to this feature, each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, so once the power switch is turned off, the power switch is turned on again. The execution mode 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, in a case where a configuration in which a specific effect is started when the elapsed time reaches a predetermined time, a gaming machine in which the power switch is turned on again after the power switch is turned off is included. It is possible to start specific performances simultaneously (simultaneously) in each gaming machine installed in the island facility. As a result, it is possible to improve the interest of the game.

<Feature γC group>
The feature γC group is extracted from each of the above-described embodiments, modified examples, 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 that allows a game ball to enter,
Lottery process execution means for executing a predetermined lottery process based on a game ball entering the ball entry means;
A setting change mode executing means for executing a setting change mode that can be changed by accepting a predetermined change operation (an operation of pressing a setting change button) from the outside for setting the winning probability in the predetermined lottery process;
Setting information display mode execution means for executing a setting information display mode (setting confirmation mode) that displays setting information that is information related to the setting of the winning probability but cannot change the setting of the winning probability;
Timekeeping information updating means (timekeeping register of RTC97) that can update timekeeping information (current date and time information) including information that can specify the time even when the power supply from the outside to the gaming machine is cut off 97b1),
The time keeping information can be stored as start time information (start date and time information), and the stored start time information can be stored even during the power interruption state. Startup time information storage area 97b2),
Based on the start of external power supply to the gaming machine, the time information is acquired from the time information update means, and the start time information storage means is used as the start time information. Storage processing execution means for executing storage processing that is processing to be stored in
An elapsed time calculating means for calculating an elapsed time after the storage process is executed based on the startup time information;
Predetermined processing execution means for executing predetermined processing (RTC effect) based on the elapsed time;
With
The setting information display mode execution means includes
Determining means for determining whether or not a predetermined start condition is satisfied when supply of electric power from the outside to the gaming machine is started;
Setting information display mode start means for starting the setting information display mode based on the establishment of the predetermined start condition;
With
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 the description of the effect of the feature γC1, a game hall in which a plurality of gaming machines are installed will be described. In general, in the gaming hall, power supply to a plurality of gaming machines is started simultaneously (simultaneously). Specifically, for example, a plurality of gaming machines are installed in a so-called island facility with their respective power switches turned on, and the island facility power switch (hereinafter also referred to as an island power switch) is turned on. Then, power supply is started simultaneously (simultaneously) to a plurality of gaming machines installed in the island facility.

  Based on the operation of the gaming machine in the gaming hall described above, the gaming machine with the characteristic γC1 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, which is a process for storing the acquired timekeeping information in the activation time information storage means as activation time information. Then, an elapsed time after the storage process is executed is calculated based on the activation time information, and a predetermined process is executed based on the calculated elapsed time. The effect of adopting this configuration will be described.

  Temporarily, a configuration for executing a predetermined process based on time information (current date information) updated in time information update means (time register 97b1 of RTC 97) instead of the elapsed time since the storage process was executed (for example, A case where a predetermined production is started at a timing when the time included in the time measurement information becomes 11:00:00 will be described. In this configuration, when there is a difference in the time included in the time information of each gaming machine installed in the island facility (for example, the time included in the time information of the gaming machine A is 11 at a certain moment). When the time is 00:00 and the time included in the timing information of the gaming machine B is 10:59:52), the timing at which a predetermined process (predetermined effect) is started is set for each game. It will be different for each machine, and will give a sense of incongruity to the players who were expected to start a predetermined process (predetermined production) at the same time (simultaneously) in each gaming machine 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 a storage process that is a process of storing the acquired timekeeping information as startup time information in the startup time information storage means is executed.
Therefore, for example, when a game hall administrator turns on the island power switch, power supply to a plurality of gaming machines installed in the island facility is started simultaneously (simultaneously) and installed in the island facility. Each of the gaming machines being executed executes the storage process all at once (simultaneously).

  And according to this feature, each gaming machine installed in the island facility calculates the elapsed time since the storage process was executed based on the activation time information stored in the activation time information storage means. . As described above, since each gaming machine installed in the island facility executes the storage process at the same time (simultaneously), the elapsed time after the storage process calculated in each gaming machine is Even if there is a difference in the time included in the timing information of the gaming machine, it is the same (or substantially the same).

  And according to this feature, since each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, the execution mode of the predetermined process executed in each gaming machine is changed. Can be the same. Specifically, for example, when a configuration in which a specific effect is started when the elapsed time reaches a predetermined time, the specific effect is simultaneously (simultaneously) performed on each gaming machine installed on the island facility. Can be started.

  Furthermore, the gaming machine of this feature includes an activation time information storage means capable of holding the stored activation time information even during a power interruption state, and a storage process when the setting information display mode is started. And avoidance means for avoiding. The effect of adopting this configuration will be described.

  A case will be described in which a configuration that does not include the avoidance means described above is employed. In this configuration, when the supply of power is started simultaneously (simultaneously) to the gaming machines installed on the island facility, the gaming machines installed on the island facility are stored together (simultaneously). Execute the process. Thereafter, the manager of the gaming hall executes the setting information display mode to confirm the setting of the winning probability of the gaming machine, so that one of the gaming machines installed in the island facility When turning off the power switch and then turning on the power switch of the one gaming machine to start the setting information display mode with the start condition for starting the setting information display mode of the one gaming machine being satisfied There is. In this case, the one gaming machine executes the storage process again on the basis that the power switch is turned on and the supply of power is started. Then, the elapsed time calculated in the one gaming machine is different from the elapsed time calculated in the other gaming machine, and the timing at which the predetermined processing (predetermined effect) is started in the one gaming machine. However, there is a problem in that it is different from the timing at which a predetermined process (predetermined effect) is started in another gaming machine, and gives a sense of incongruity to a player who is playing a game in the one gaming machine.

  On the other hand, according to this feature, even if the manager of the gaming hall turns off the power switch of the one gaming machine and turns it off, it is stored in the starting time information storage means of the one gaming machine. 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 for the one gaming machine being satisfied, the setting information display mode is started in the one gaming machine, and the storage process Since the execution is avoided, the start time information stored in the start time information storage means of the one gaming machine is not overwritten, and the supply of power is started simultaneously (simultaneously) with other gaming machines. The startup time information stored in the executed storage process is maintained. As a result, the elapsed time calculated in each gaming machine installed in the island facility including the one gaming machine is the same (or substantially the same).

  And according to this feature, each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, so once the power switch is turned off, the power switch is turned on again. The execution mode 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, in a case where a configuration in which a specific effect is started when the elapsed time reaches a predetermined time, a gaming machine in which the power switch is turned on again after the power switch is turned off is included. It is possible to start specific performances simultaneously (simultaneously) in each gaming machine installed in the island facility. As a result, it is possible to improve the interest of the game.

<Feature γD group>
The feature γD group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 102 of the first embodiment.

[Feature γD1]
A gaming machine,
Timekeeping information updating means (timekeeping register of RTC97) that can update timekeeping information (current date and time information) including information that can specify the time even when the power supply from the outside to the gaming machine is cut off 97b1),
The time keeping information can be stored as start time information (start date and time information), and the stored start time information can be stored even during the power interruption state. Startup time information storage area 97b2),
Based on the start of external power supply to the gaming machine, the time information is acquired from the time information update means, and the start time information storage means is used as the start time information. Storage processing execution means for executing storage processing that is processing to be stored in
An elapsed time calculating means for calculating an elapsed time after the storage process is executed based on the startup time information;
Predetermined processing execution means for executing predetermined processing (RTC effect) based on the elapsed time;
With
The storage processing execution means stores the time included in the timekeeping information in the timekeeping information update means when the supply of electric power from the outside to the gaming machine is started. A game machine comprising: avoiding means for avoiding execution of the storage process when a predetermined time (30 minutes) has not elapsed since the time included in the startup time information.

  Prior to the description of the effect of the feature γD1, a game hall in which a plurality of gaming machines are installed will be described. In general, in the gaming hall, power supply to a plurality of gaming machines is started simultaneously (simultaneously). Specifically, for example, a plurality of gaming machines are installed in a so-called island facility with their respective power switches turned on, and the island facility power switch (hereinafter also referred to as an island power switch) is turned on. Then, power supply is started simultaneously (simultaneously) to a plurality of gaming machines installed in the island facility.

  Based on the operation of the gaming machine in the gaming hall described above, the gaming machine having the characteristic γD1 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, which is a process for storing the acquired timekeeping information in the activation time information storage means as activation time information. Then, an elapsed time after the storage process is executed is calculated based on the activation time information, and a predetermined process is executed based on the calculated elapsed time. The effect of adopting this configuration will be described.

  Temporarily, a configuration for executing a predetermined process based on time information (current date information) updated in time information update means (time register 97b1 of RTC 97) instead of the elapsed time since the storage process was executed (for example, A case where a predetermined production is started at a timing when the time included in the time measurement information becomes 11:00:00 will be described. In this configuration, when there is a difference in the time included in the time information of each gaming machine installed in the island facility (for example, the time included in the time information of the gaming machine A is 11 at a certain moment). When the time is 00:00 and the time included in the timing information of the gaming machine B is 10:59:52), the timing at which a predetermined process (predetermined effect) is started is set for each game. It will be different for each machine, and will give a sense of incongruity to the players who were expected to start a predetermined process (predetermined production) at the same time (simultaneously) in each gaming machine 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 a storage process that is a process of storing the acquired timekeeping information as startup time information in the startup time information storage means is executed.
Therefore, for example, when a game hall administrator turns on the island power switch, power supply to a plurality of gaming machines installed in the island facility is started simultaneously (simultaneously) and installed in the island facility. Each of the gaming machines being executed executes the storage process all at once (simultaneously).

  And according to this feature, each gaming machine installed in the island facility calculates the elapsed time since the storage process was executed based on the activation time information stored in the activation time information storage means. . As described above, since each gaming machine installed in the island facility executes the storage process at the same time (simultaneously), the elapsed time after the storage process calculated in each gaming machine is Even if there is a difference in the time included in the timing information of the gaming machine, it is the same (or substantially the same).

  And according to this feature, since each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, the execution mode of the predetermined process executed in each gaming machine is changed. Can be the same. Specifically, for example, when a configuration in which a specific effect is started when the elapsed time reaches a predetermined time, the specific effect is simultaneously (simultaneously) performed on each gaming machine installed on the island facility. Can be started.

  In addition, the gaming machine of this feature has an activation time information storage means capable of holding the stored activation time information even during a power interruption state, and when an external power supply to the gaming machine is started. If the predetermined time (for example, 30 minutes) has not elapsed from the time included in the start time information stored in the start time information storage means, the time included in the time information in the time information update means is stored. Avoiding means for avoiding the execution of. The effect of adopting this configuration will be described.

  A case will be described in which a configuration that does not include the avoidance means described above is employed. In this configuration, when the supply of power is started simultaneously (simultaneously) to the gaming machines installed on the island facility, the gaming machines installed on the island facility are stored together (simultaneously). Execute the process. Thereafter, the manager of the gaming hall temporarily turns off the power switch of one gaming machine among the plurality of gaming machines installed in the island facility for various reasons, and then again the one gaming machine. The power switch may be turned on. Specifically, for example, in order to execute the setting change mode and change the setting of the winning probability of the gaming machine, the power switch of one gaming machine among the plurality of gaming machines installed in the island facility is set. Once turned off, there is a case where the setting change mode is started by turning on the power switch of the one gaming machine in a state where a start condition for starting the setting changing mode is established. In this case, the one gaming machine executes the storage process again on the basis that the power switch is turned on and the supply of power is started. Then, the elapsed time calculated in the one gaming machine is different from the elapsed time calculated in the other gaming machine, and the timing at which the predetermined processing (predetermined effect) is started in the one gaming machine. However, there is a problem in that it is different from the timing at which a predetermined process (predetermined effect) is started in another gaming machine, and gives a sense of incongruity to a player who is playing a game in the one gaming machine.

  On the other hand, according to this feature, even if the manager of the gaming hall turns off the power switch of the one gaming machine and turns it off, it is stored in the starting time information storage means of the one gaming machine. The startup time information is retained. Thereafter, if the administrator turns on the power switch of the one gaming machine within a predetermined time (for example, 30 minutes), the execution of the storage process is avoided, so that it is stored in the starting time information storage means of the one gaming machine. The activated activation time information is not overwritten, and the activation time information stored in the storage process executed when power supply is started simultaneously (simultaneously) with other gaming machines is maintained. As a result, the elapsed time calculated in each gaming machine installed in the island facility including the one gaming machine is the same (or substantially the same).

  And according to this feature, each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, so once the power switch is turned off, the power switch is turned on again. The execution mode 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, in a case where a configuration in which a specific effect is started when the elapsed time reaches a predetermined time, a gaming machine in which the power switch is turned on again after the power switch is turned off is included. It is possible to start specific performances simultaneously (simultaneously) in each gaming machine installed in the island facility.

  That is, the administrator turns on the island power switch of the island facility, starts supplying power to a plurality of gaming machines installed in the island facility all at once (for example, after a predetermined time (for example, Within 30 minutes), after turning off the power switch of one of the gaming machines installed on the island facility to change the setting of the winning probability, When the start condition for starting the setting change mode is satisfied and the setting switch mode is started by turning on the power switch of the one gaming machine, the winning probability setting of the one gaming machine can be changed. It is possible to start a specific performance all at once (simultaneously) in each gaming machine installed on the island facility including the one gaming machine in which the power switch is turned off and then turned on again. It is possible. As a result, it is possible to improve the interest of the game.

[Feature γD2]
A gaming machine described in the feature γD1,
A gaming machine comprising a changing means for changing the length of the predetermined time.

  According to the feature γD2, the length of the predetermined time can be changed as appropriate according to the number and size of the gaming machines installed in the gaming hall. For example, a plurality of the gaming machines installed in the gaming hall It is possible to suppress the occurrence of a situation in which a predetermined time elapses before the operation for changing the winning probability setting for the gaming machine is completed.

<Feature γE group>
The feature γE group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 101 of the first embodiment.

[Feature γE1]
A gaming machine,
An activation process executing means for executing any one of the activation processes of a plurality of types having different processing contents based on the start of external power supply to the gaming machine;
Next time when a specific activation process among the plurality of types of activation processes is executed by the activation process execution means (when an activation process including a process of transmitting a RAM abnormality command is executed by the main control device) An informing means for informing information related to the type of the activation process to be executed by the activation process executing means at the start of power supply (notifying "Please activate in the setting change mode");
A gaming machine characterized by comprising:

  According to the feature γE1, since the information regarding the type of the activation process to be executed at the start of the next power supply is notified, the administrator of the gaming machine again ends the power supply to the gaming machine. When the power supply to the gaming machine is started, the notified type of activation process can be executed. Therefore, the manageability of the gaming machine can be improved.

  Specifically, for example, when power supply to one gaming machine of a plurality of gaming machines installed in the island facility is terminated and then power supply to the one gaming machine is started again. In addition, if the start processing of the notified type is not executed, the start timing of the specific effect executed in the one gaming machine is different from the start timing of the specific effect executed in the plurality of other gaming machines. In this configuration, it is possible to prevent the administrator from causing the one gaming machine to execute another type of activation process, and as a result, the start of a specific effect executed in the one gaming machine. Can be prevented from deviating from the timing of the start of a specific performance executed in a plurality of other gaming machines.

[Feature γE2]
A gaming machine described in the feature γE1,
The notification means comprises means for continuing notification of information relating to the type of the activation process until the external power supply to the gaming machine is cut off (until the power switch is turned off). Gaming machine.

  According to the feature γE2, the notification of information related to the type of activation processing is continued until the external power supply to the gaming machine is cut off. This effect will be described. For example, in a case where the notification of the information regarding the type of activation process is terminated in 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 facility. After the power supply from the outside to the gaming machine is started, the notification is terminated before the manager reaches the gaming machine, and the activation process execution means is executed at the start of the next power supply. The administrator may not be able to grasp the type of activation process to be performed. On the other hand, according to the feature γE2, since the notification of information regarding the type of activation process is continued until the external power supply to the gaming machine is cut off, before the administrator reaches the gaming machine It is possible to avoid the occurrence of a situation in which the notification is terminated and the administrator cannot grasp the type of activation process to be performed by the activation process execution unit when the next power supply is started.

  The invention of the above-mentioned feature βZ group to feature γE group solves the following problems.

  In gaming machines such as pachinko machines and slot machines, there is an increase in gaming interest, a reduction in processing load on gaming machines, optimization of processing, simplification of control, simplification of structure, efficiency of development of gaming machines, Technical improvements have been made from various viewpoints such as structure, control, production, etc. for the purpose of providing gaming machines that are less prone to malfunctions, and providing gaming machines in consideration of players.

  In addition, various technical improvements have been made for the purpose of improving the soundness of games, such as the discovery and suppression of illegal acts by players and unauthorized modifications to gaming machines.

  In gaming machines such as those mentioned above, there is an increase in gaming interest, reduction in processing load on gaming machines, optimization of processing, simplification of control, simplification of structure, efficiency of development of gaming machines, and problems. Further technical improvements are desired for the purpose of providing difficult gaming machines, providing gaming machines in consideration of players, and providing more sound games.

<Feature γF group>
The feature γF group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is extracted mainly from the aspects 103 to 106 of the first embodiment.

[Feature γF1]
A ball entry means that allows a game ball to 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 for executing special information determination processing for determining whether or not the special information satisfies a privilege granting condition;
A privilege granting means for granting a privilege to a player when it is determined in the special information determination process that the special information satisfies the privilege granting condition;
A winning probability changing means (setting change mode) capable of changing a setting of a winning probability which is a probability that the special information is determined to satisfy the privilege granting condition in the special information determining process;
Setting information storage means for storing setting information that is information for determining the setting of the winning probability;
Setting information determination means for executing setting information determination processing for determining whether or not the setting information satisfies a predetermined condition;
Game stop means for executing a game stop process (a process for turning on a game stop flag), which is a process for stopping the progress of a predetermined game;
With
The setting information determination means includes
First setting information determination means for performing the setting information determination processing (performing setting information determination at the time of entering) triggered by the entry of a game ball into the pitching means;
Second setting information determining means for executing the setting information determining process (performing setting information determination at variation start) in association with execution of the special information determining process;
With
The game stop means is
When the setting information is determined not to satisfy the predetermined condition by the second determination processing execution means, the game stop processing is executed. However, the setting information is determined by the first determination processing execution means. A gaming machine comprising: means for not executing the game stop process when it is determined that the condition is not satisfied.

  According to the feature γF1, when the setting information determination process executed in conjunction with the execution of the special information determination process determines that the setting information does not satisfy the predetermined condition, the process of stopping the progress of the predetermined game is executed. On the other hand, if the setting information is determined not to satisfy the predetermined condition in the setting information determination process executed when the game ball enters the ball entry means, a process of stopping the progress of the predetermined game is performed. Do not execute. The reason for adopting such a configuration will be described.

  First, unlike this feature, when the setting information is determined not to satisfy the predetermined condition in the setting information determination process executed when the game ball enters the ball entry means, The case where the structure which performs the process which stops progress is employ | adopted is demonstrated. In this configuration, for example, a game ball enters the ball entry means during the privilege grant period (during execution of the opening / closing execution mode), and the setting information is set to a predetermined condition in the setting information determination process executed when the ball is entered. If it is determined that the requirement is not satisfied, the bonus grant period is interrupted and the progress of the game is stopped, resulting in great discomfort and disadvantage to the player.

  On the other hand, according to this feature, even when it is determined that the setting information does not satisfy the predetermined condition in the setting information determination process executed when the game ball enters the ball entry means. Since the process for stopping the progress of the predetermined game is not executed, the privilege grant period (opening / closing execution mode) that has already been started before the game ball that triggered the setting information determination process is interrupted. There is no. And, 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 condition in the setting information determination process executed in conjunction with the execution of the special information determination process, Since it is not during the grant period, the discomfort or disadvantage given to the player is that the setting information satisfies a predetermined condition in the setting information determination process executed when the game ball enters the ball entry means. It is not larger than the case where it is determined that there is no and the process of stopping the predetermined game is executed. Therefore, according to this feature, it is possible to stop the progress of the game while reducing discomfort and disadvantage given to the player. And it can suppress that a game continues in the state where setting information does not satisfy | fill predetermined conditions.

[Feature γF2]
A gaming machine described in the feature γF1,
The second setting information determination means includes means for executing the setting information determination processing prior to execution of the special information determination processing,
The gaming machine is
A gaming machine, comprising: avoidance means for avoiding execution of the special information determination process when the setting information is determined not to satisfy the predetermined condition by the second determination process execution means.

  According to the feature γF2, since the second determination process execution unit includes an avoidance unit that avoids execution of the special information determination process when it is determined that the setting information does not satisfy the predetermined condition, the setting information is predetermined. It is possible to prevent the special information determination process from being executed in a state where the above condition is not satisfied.

[Feature γF3]
A gaming machine according to the characteristic γF1 or the characteristic γF2,
Comprising a destination determination process execution means for executing a destination determination process for determining whether or not the special information satisfies the privilege grant condition before the special information is subjected to the special information determination process;
The first setting information determination means includes means for executing the setting information determination process prior to the execution of the first determination process, triggered by a game ball entering the ball entry means,
The gaming machine is
A gaming machine comprising: avoiding 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 the feature γF3, since the first setting information determination unit includes the avoidance unit that avoids the execution of the first determination process when it is determined that the setting information does not satisfy the predetermined condition, the setting information satisfies the predetermined condition. It is possible to prevent the destination determination process from being performed in a state where there is no state.

[Feature γF4]
The gaming machine according to any one of features γF1 to feature γF3,
A gaming machine comprising: a specific effect executing means for executing a specific effect when the first setting information determining means determines that the setting information does not satisfy the predetermined condition.

  According to the feature γF4, since the first setting information determining unit includes the specific effect executing unit that executes the specific effect when the setting information is determined not to satisfy the predetermined condition, for example, the setting information includes noise or the like. Discomfort that is given to the player due to the fact that the predetermined condition is not satisfied due to the influence can be reduced by the specific performance.

<Feature γG group>
The feature γG group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the aspect 104 of the first embodiment.

[Feature γG1]
A ball entry means that allows a game ball to 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 for executing special information determination processing for determining whether or not the special information satisfies a privilege granting condition;
A privilege granting means for granting a privilege to a player when it is determined in the special information determination process that the special information satisfies the privilege granting condition;
A winning probability changing means (setting change mode) capable of changing a setting of a winning probability which is a probability that the special information is determined to satisfy the privilege granting condition in the special information determining process;
Setting information storage means for storing setting information that is information for determining the setting of the winning probability;
Accompanying the execution of the special information determination process, the setting information stored in the setting information storage unit and the setting information at the time when the special information to be subjected to the special information determination process is acquired are stored. Setting information determination means for determining whether or not the special information acquisition setting information (entrance setting information) matches,
A gaming machine characterized by comprising:

  According to the feature γG1, with the execution of the special information determination process, the setting information stored in the setting information storage unit and the setting information at the time when the special information targeted for the special information determination process is acquired are stored. Setting information determining means for determining whether or not the special information acquisition setting information that has been set matches. When 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 does not match the special information acquisition setting information. Therefore, according to this feature, rewriting of the setting information can be detected with the execution of the special information determination process.

[Feature γG2]
A gaming machine described in the feature γG1,
The setting information determination means comprises means for executing a determination as to whether or not the setting information and the special information acquisition setting information match prior to the execution of the special information determination process,
The gaming machine is
A gaming machine comprising: avoiding means for avoiding execution of the special information determining process when the setting information determining means determines that the setting information does not match the setting information at the time of obtaining the special information.

  According to the feature γG2, since the setting information is provided with avoidance means for avoiding the execution of the special information determination process when it is determined that the setting information does not match the setting information at the time of obtaining the special information, the setting information is It is possible to prevent the special information determination process from being executed in a state where the value is rewritten to another value that is not intended.

[Feature γG3]
A gaming machine according to the feature γG1 or the feature γG2,
When the setting information determination unit determines that the setting information does not match the setting information at the time of obtaining the special information, a process for stopping the progress of a predetermined game (a process for turning on a game stop flag) is executed. A gaming machine comprising a means.

  According to the feature γG3, since the setting information includes means for executing processing for stopping the progress of the predetermined game when it is determined that the setting information does not match the setting information at the time of obtaining the special information, the setting information is affected by noise or the like It is possible to prevent the game from progressing while being rewritten to another value not intended by the administrator.

<Feature γH group>
The feature γH group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 105 of the first embodiment.

[Feature γH1]
A ball entry means that allows a game ball to 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 for executing special information determination processing for determining whether or not the special information satisfies a privilege granting condition;
A privilege granting means for granting a privilege to a player when it is determined in the special information determination process that the special information satisfies the privilege granting condition;
A winning probability changing means (setting change mode) capable of changing a setting of a winning probability which is a probability that the special information is determined to satisfy the privilege granting condition in the special information determining process;
Setting information storage means for storing setting information that is information for determining the setting of the winning probability;
With the execution of the special information determination process, special information acquisition setting information (entrance setting information) stored as the setting information at the time when the special information to be subjected to the special information determination process is acquired And setting information determination for determining whether or not the previous execution time setting information (previous hit determination processing time setting information) stored as the setting information at the time of execution of the special information determination processing executed last time matches Means,
A gaming machine comprising:

  According to the characteristic γH1, with the execution of the special information determination process, the special information acquisition time setting information stored as the setting information at the time when the special information to be subjected to the special information determination process is acquired; There is provided setting information determination means for determining whether or not the previous execution time setting information stored as the setting information at the time of execution of the special information determination process executed last time matches. When the setting information is rewritten to another value not intended by the administrator due to the influence of noise or the like, the special information acquisition setting information and the previous execution setting information do not match. Therefore, according to this feature, rewriting of the setting information can be detected with the execution of the special information determination process.

[Feature γH2]
A gaming machine described in the feature γH1,
The setting information determination means includes means for executing a determination as to whether or not the special information acquisition time setting information matches the previous execution time setting information prior to the execution of the special information determination process,
The gaming machine is
When the setting information determination unit determines that the setting information at the time of special information acquisition and the setting information at the time of previous execution do not match, an avoiding unit that avoids execution of the special information determination process is provided. Gaming machine.

  According to the feature γH2, since the special information acquisition time setting information and the previous execution time setting information are determined not to coincide with each other, the setting information is affected by noise or the like. Thus, it is possible to prevent the special information determination process from being executed in a state where the value is rewritten to another value not intended by the administrator.

[Feature γH3]
A gaming machine according to feature γH1 or feature γH2,
Processing for stopping the progress of a predetermined game (processing for turning on a game stop flag) when it is determined by the setting information determination means that the special information acquisition time setting information and the previous execution time setting information do not match A gaming machine comprising means for executing

  According to the characteristic γH3, since the setting information includes noise or the like because the setting information includes noise or the like when the special information acquisition setting information and the previous execution setting information are determined not to coincide with each other. It is possible to prevent the game from progressing while being rewritten to another value that is not intended by the administrator due to the influence of.

<Feature γI group>
The feature γI group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is extracted mainly from the aspect 106 of the first embodiment.

[Feature γI1]
A ball entry means that allows a game ball to 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 for executing special information determination processing for determining whether or not the special information satisfies a privilege granting condition;
A privilege granting means for granting a privilege to a player when it is determined in the special information determination process that the special information satisfies the privilege granting condition;
A winning probability changing means (setting change mode) capable of changing a setting of a winning probability which is a probability that the special information is determined to satisfy the privilege granting condition in the special information determining process;
Setting information storage means for storing setting information that is information for determining the setting of the winning probability;
With the execution of the special information determination process, the setting information stored in the setting information storage unit and the previous execution time stored as the setting information at the time of the execution of the special information determination process executed last time Setting information determination means for determining whether or not the setting information (the setting information at the time of the previous hit determination process) matches;
A gaming machine comprising:

  According to the feature γI1, with the execution of the special information determination process, the setting information stored in the setting information storage unit and the previous execution stored as the setting information at the time of execution of the special information determination process executed last time Setting information determination means for determining whether or not the hour setting information matches is provided. When 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 previous execution time setting information do not match. Therefore, according to this feature, rewriting of the setting information can be detected with the execution of the special information determination process.

[Feature γI2]
A gaming machine described in the feature γI1,
The setting information determination means includes means for executing a determination as to whether or not the setting information matches the previous execution time setting information prior to the execution of the special information determination 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 time setting information do not match.

  According to the feature γI2, since the setting information is provided with avoidance means for avoiding execution of the special information determination process when it is determined that the setting information at the previous execution does not match, the setting information is It is possible to prevent the special information determination process from being executed in a state where the value is rewritten to another value that is not intended.

[Feature γI3]
A gaming machine according to feature γI1 or feature γI2,
Means for executing a process for stopping the progress of a predetermined game (a process for turning on a game stop flag) when the setting information determination means determines that the setting information and the previous execution time setting information do not match. A gaming machine characterized by comprising:

  According to the feature γI3, since the setting information is provided with means for executing processing for stopping the progress of a predetermined game when it is determined that the setting information does not match the previous execution setting information, the setting information is managed by the influence of noise or the like It is possible to prevent the game from progressing while being rewritten to another value not intended by the player.

<Feature γJ group>
The feature γJ group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 106 of the first embodiment.

[Feature γJ1]
A ball entry means that allows a game ball to 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 for executing special information determination processing for determining whether or not the special information satisfies a privilege granting condition;
A privilege granting means for granting a privilege to a player when it is determined in the special information determination process that the special information satisfies the privilege granting condition;
A winning probability changing means (setting change mode) capable of changing a setting of a winning probability which is a probability that the special information is determined to satisfy the privilege granting condition in the special information determining process;
Setting information storage means for storing setting information that is information for determining the setting of the winning probability;
When the game ball enters the ball entry means, the setting information when the game ball enters the ball entry means and the setting information when the special information determination process executed last time is executed. Setting information determination means for determining whether or not the previous execution time setting information (previous determination processing time setting information) stored as
A gaming machine characterized by comprising:

  According to the feature γJ1, when the game ball enters the ball entry means, the setting information when the game ball enters the ball entry means and the special information determination process executed last time are executed. Setting information determination means for determining whether or not the previous execution time setting information stored as setting information matches. If the setting information is rewritten to other values not intended by the administrator due to the influence of noise or the like, the setting information at the time of entering the game ball and the previous execution setting information will not match. . Therefore, according to this feature, the rewriting of the setting information can be detected when the game ball enters the ball entry means. As a result, various processes based on the assumption that the setting information has been rewritten to other values unintended by the administrator due to the influence of noise or the like are executed when the game ball enters the ball entry means. It becomes possible.

[Feature γJ2]
A gaming machine described in 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 privilege grant condition before the special information is subjected to the special information determination process;
The setting information determining means is a means for executing a determination as to whether or not the setting information at the time of entering the game ball matches the previous execution time setting information prior to the execution of the preceding determination process. Prepared,
The gaming machine is
When the setting information determination unit determines that the setting information at the time of entry of the game ball and the previous execution time setting information do not match, an avoiding unit for avoiding the execution of the destination determination process is provided. A gaming machine characterized by

  According to the feature γJ2, since the setting information at the time of entering the game ball and the previous execution time setting information are determined not to coincide with each other, the setting information includes noise or the like. It is possible to prevent the destination determination process from being executed in a state where the value is rewritten to another value not intended by the administrator due to the influence of the above.

[Feature γJ3]
A gaming machine according to feature γJ1 or feature γJ2,
When it is determined by the setting information determination means that the setting information at the time of entry of the game ball and the setting information at the time of acquisition of the special information do not match, specific effect execution means for executing a specific effect is provided. A gaming machine characterized by

  According to the feature γJ3, since it includes the specific effect execution means for executing the specific effect when it is determined that the setting information at the time of entering the game ball and the previous execution time setting information do not match, for example, The unpleasant feeling given to the player due to the determination that the setting information at the time of entering and the setting information at the time of previous execution do not match can be reduced by the specific effect.

<Feature γK group>
The feature γK group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspects 103 to 106 of the first embodiment.

[Feature γK1]
A gaming machine,
A ball entry means that allows a game ball to 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 for executing special information determination processing for determining whether or not the special information satisfies a privilege granting condition;
A privilege granting means for granting a privilege to a player when it is determined in the special information determination process that the special information satisfies the privilege granting condition;
A winning probability changing means (setting change mode) capable of changing a setting of a winning probability which is a probability that the special information is determined to satisfy the privilege granting condition in the special information determining process;
Setting information storage means for storing setting information that is information for determining the setting of the winning probability;
Setting information determination means for executing setting information determination processing for determining whether or not the setting information satisfies a predetermined condition;
A hold display means for displaying a hold display indicating that the special information which is the special information acquired by the special information acquisition means and is held until being subjected to the special information determination process;
Production execution means for executing a hold change effect, which is an effect of changing the display mode of the hold display, when it is determined 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, there may be a problem in the progress of the game or the progress of the game may be stopped. According to the feature γK1, the hold change effect, which is an effect of changing the display mode of the hold display, is executed when it is determined that the setting information does not satisfy the predetermined condition. In addition, it is possible to reduce discomfort experienced by the player due to the determination that the setting information does not satisfy the predetermined condition, by the hold change effect.

[Feature γK2]
A gaming machine described in the feature γK1,
The hold display means can display the hold display in a plurality of types of display modes (blue, green, red, gold, rainbow),
When the degree of expectation of each display mode of the hold display is defined as a high probability of a result advantageous to the player when the hold display of each display mode is displayed,
The effect execution means includes means for executing a hold demotion effect for changing the display mode of the hold display already displayed to a display mode with a lower expectation as the hold change effect. Machine.

  If the setting information does not satisfy a predetermined condition, there may be a problem in the progress of the game or the progress of the game may be stopped. According to the feature γK2, the hold demotion effect that changes the display mode of the hold display that has already been displayed to a display mode with a lower degree of expectation is triggered when it is determined that the setting information does not satisfy the predetermined condition. Since it performs, it can suppress that progress of a game stops in the state with the hold display of the display aspect with high expectation displayed. Therefore, it is possible to reduce the player's disappointment that the progress of the game has stopped. More specific description will be given below.

  First, unlike this feature, a case will be described in which a configuration is employed in which the hold demotion effect is not executed even when it is determined that the setting information does not satisfy the predetermined condition. In this configuration, for example, when it is determined that the setting information does not satisfy a predetermined condition in a situation where a hold display in a display mode with a high expectation is displayed, the player has a display mode with a high expectation. Although there is a strong expectation for special information corresponding to the hold display, the progress of the game may stop before the special information determination process is executed for the special information. The player has a strong anger, disappointment, and disbelief that the game has been stopped without executing the special information determination process based on the special information corresponding to the hold display in the display mode with high expectation. You will have a feeling.

  On the other hand, in this feature, when it is determined that the setting information does not satisfy the predetermined condition, the hold demotion effect is produced. Change. Therefore, the player initially had a strong expectation with respect to the display mode with a high expectation level, but the display mode with a high expectation level is a display with a low expectation level. By changing to, the recognition that the special information corresponding to the hold display is not highly expected is changed. After that, even if the game stops before the special information corresponding to the hold display becomes the target of the special information determination process, the player already has a strong sense of expectation for the special information corresponding to the hold display. Since it is not held, even if the game stops before the special information corresponding to the hold display becomes the target of the special information determination process, it is not necessary to have so much anger or disappointment. Therefore, according to this feature, it is possible to reduce the player's anger and disappointment that the game has stopped.

[Feature γK3]
A gaming machine described in the feature γK2,
The effect execution means includes means for changing the display mode of the hold display already displayed as the hold demotion effect to a display mode (blue) having the lowest expectation among the plurality of types of display modes. A gaming machine characterized by

  According to the characteristic γK3, the effect execution means is a means for changing the display mode of the hold display that is already displayed to the display mode (blue) having the lowest expectation among a plurality of types of display modes as the hold down demoting effect. Since the player initially has a strong expectation for the hold display of the display mode with the high expectation level, the hold display of the display mode with the high expectation level is the display mode with the lowest expectation level. By changing to the hold display, the recognition that the special information corresponding to the hold display is the least expected is changed. After that, even if the game is stopped before the special information corresponding to the hold display becomes the target of the special information determination process, there is no need to feel so much anger or disappointment. Therefore, according to this feature, it is possible to further reduce the player's anger and disappointment that the game has stopped.

[Feature γK4]
The gaming machine according to any one of features γK2 to feature γK3,
The hold display means includes means for continuously displaying the hold display corresponding to the special information even after the special information is subjected to the special information determination process.
The effect execution means includes a hold change suggestion effect execution means for executing a hold change suggestion effect, which is an effect suggesting that the display mode of the hold display may change, prior to the hold change effect,
The hold display means corresponds to the special information after the special information is subjected to the special information determination process, with the hold display in the display mode (rainbow color) having the highest expectation among the plurality of types of display modes. A gaming machine comprising: means for displaying only when the hold display is continuously displayed.

  According to the feature γK4, the hold display means displays the hold display in the display mode (rainbow color) having the highest expectation among a plurality of types of display modes after the special information is subjected to the special information determination process. Means for displaying only when the hold display corresponding to is continuously displayed. The reason for adopting such a configuration will be described below.

  First, unlike this feature, the case where the hold display of the display mode with the highest expectation is adopted such that the hold special information can be displayed even before the special information determination processing target is displayed. explain. In this configuration, when the hold change suggesting effect is executed in a situation where the hold display in the display mode with the highest expectation is displayed for the special information before being subjected to the special information determination process, The player who has recognized the suggestion effect has no room to change the hold display in the display mode with the highest expectation to the hold display in the display mode with a higher expectation, so the hold executed after the hold change suggestion effect. The change effect can be predicted to change the hold display of the display mode with the highest expectation to the hold display of the display mode with a lower expectation, and the game for the hold change suggestion effect The expectation of the person will be reduced.

  On the other hand, according to this feature, in the stage before the special information that is held becomes the target of the special information determination process, the hold display always has room to change to a hold display having a higher expectation display mode. Therefore, even if the hold change suggestion effect is executed, the player who has recognized the hold change suggestion effect has a hold change effect executed after the hold change suggestion effect, It cannot be determined whether the display mode is changed to a display mode with a high expectation level or to a display mode with a low expectation level. Therefore, according to this feature, it is possible to suppress a decrease in the player's expectation with respect to the pending change suggestion effect.

[Feature γK5]
The gaming machine according to any one of features γK1 to feature γK4,
A gaming machine comprising: a game stop unit that executes a process of stopping the progress of a predetermined game based on the determination that the setting information does not satisfy the predetermined condition.

  According to the feature γK5, since the process for stopping the progress of the predetermined game is executed when it is determined that the setting information does not satisfy the predetermined condition, the game remains in a state where the setting information does not satisfy the predetermined condition. It can be suppressed that the disadvantage of the player is expanded by continuing the progress of the game.

<Feature γL group>
The feature γL group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspects 103 to 106 of the first embodiment.

[Feature γL1]
A gaming machine,
A ball entry means that allows a game ball to 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 for executing special information determination processing for determining whether or not the special information satisfies a privilege granting condition;
A privilege granting means for granting a privilege to a player when it is determined in the special information determination process that the special information satisfies the privilege granting condition;
A winning probability changing means (setting change mode) capable of changing a setting of a winning probability which is a probability that the special information is determined to satisfy the privilege granting condition in the special information determining process;
Setting information storage means for storing setting information that is information for determining the setting of the winning probability;
Setting information determination means for executing setting information determination processing for determining whether or not the setting information satisfies a predetermined condition;
A hold display means for displaying a hold display indicating that the special information which is the special information acquired by the special information acquisition means and is held until being subjected to the special information determination process;
An effect execution means for executing a hold change effect, which is an effect of changing the display mode of the hold display,
If it is determined that the setting information does not satisfy the predetermined condition, the setting information is already scheduled to be executed before it is determined that the setting information does not satisfy the predetermined condition, but has not yet been executed. Canceling means for canceling the execution schedule of the hold change effect;
A gaming machine characterized by comprising:

  When the setting information does not satisfy a predetermined condition, there is a case where the progress of the game is stopped due to a problem in the progress of the game. According to the feature γL1, when it is determined that the setting information does not satisfy the predetermined condition, the setting information is already scheduled to be executed before it is determined that the setting information does not satisfy the predetermined condition. Since the execution schedule of the pending change effect is canceled, the player's expectation has increased with respect to the pending display whose display mode has changed due to the pending change effect. Thus, it is possible to prevent the game from being stopped without executing the special information determination process and causing the player to feel distrust.

[Feature γL2]
A gaming machine described in the feature γL1,
The hold display means can display the hold display in a plurality of types of display modes (blue, green, red, gold, rainbow),
When the degree of expectation of each display mode of the hold display is defined as a high probability of a result advantageous to the player when the hold display of each display mode is displayed,
The effect execution means can execute a hold promotion effect that changes the display mode of the hold display that is already displayed to a display mode with higher expectation as the hold change effect,
When the setting information is determined not to satisfy the predetermined condition, the cancellation means is already scheduled to be executed at a time point 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 reserved promotion effect that has not yet been executed.

  When the setting information does not satisfy a predetermined condition, there is a case where the progress of the game is stopped due to a problem in the progress of the game. According to the feature γL2, when it is determined that the setting information does not satisfy the predetermined condition, the setting information is already scheduled to be executed before it is determined that the setting information does not satisfy the predetermined condition. Since the execution schedule of the hold promotion effect that has not been canceled is canceled, the player's expectation has increased with respect to the hold display that has changed to a display mode with a higher expectation level due to the hold promotion effect. It is possible to prevent the game from being stopped without executing the special information determination process for the special information, and the player having a strong distrust.

  The inventions of the above-described feature γF group to feature γL group solve the following problems.

  In gaming machines such as pachinko machines and slot machines, there is an increase in gaming interest, a reduction in processing load on gaming machines, optimization of processing, simplification of control, simplification of structure, efficiency of development of gaming machines, Technical improvements have been made from various viewpoints such as structure, control, production, etc. for the purpose of providing gaming machines that are less prone to malfunctions, and providing gaming machines in consideration of players.

  In addition, various technical improvements have been made for the purpose of improving the soundness of games, such as the discovery and suppression of illegal acts by players and unauthorized modifications to gaming machines.

  In gaming machines such as those mentioned above, there is an increase in gaming interest, reduction in processing load on gaming machines, optimization of processing, simplification of control, simplification of structure, efficiency of development of gaming machines, and problems. Further technical improvements are desired for the purpose of providing difficult gaming machines, providing gaming machines in consideration of players, and providing more sound games.

<Feature γM group>
The feature γM group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 110 of the first embodiment.

[Feature γM1]
Setting information changing means (setting change mode) capable of changing setting information which is information for determining one privilege granting condition from a plurality of privilege granting conditions (a jackpot random number counter value group set in the success / failure table);
Privilege grant condition storage means (main-side RAM 64) for storing the one privilege grant condition corresponding to the setting information, triggered by at least the setting information being changed,
A ball entry means that allows a game ball to 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 one privilege grant condition stored in the privilege grant condition storage means;
A privilege granting means for granting a privilege to a player when it is determined that the special information satisfies the one privilege granting condition;
A gaming machine characterized by comprising:

  According to the feature γM1, at least a privilege grant condition storage unit that stores one privilege grant condition corresponding to the setting information when the setting information is changed, and special information are stored in the privilege grant condition storage unit. Special information determining means for determining whether or not one privilege condition is met, the special information determining means does not refer to the setting information when determining whether or not the special information satisfies the privilege grant condition. May be. Therefore, for example, even if the setting information is rewritten to another value that is not intended by the administrator due to the influence of noise or the like, it is one privilege granting condition stored in the privilege granting condition storage unit. The special information can be determined based on one privilege provision condition corresponding to the setting information before rewriting. Therefore, it is possible to provide a gaming machine that is not easily affected by noise or the like.

<Feature γN group>
The feature γN group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 110 of the first embodiment.

[Feature γN1]
A setting information change mode executing means for executing a setting information change mode (setting change mode) capable of changing setting information, which is information for determining one privilege granting condition from among a plurality of privilege granting conditions;
Change operation accepting means (setting change button) for accepting a change operation for changing the setting information in the setting information change mode;
Confirming operation accepting means (setting keyhole) for accepting a confirming operation for confirming the setting information in the setting information change mode (operation for turning the setting change keyhole to the OFF side);
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 that allows a game ball to 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 privilege granting condition corresponding to the setting information;
A privilege granting means for granting a privilege to a player when it is determined that the special information satisfies the privilege granting condition;
Display means (DP light emitting portion of the right end 7-segment display 45z4 of the information display portion 45z) that can be at least the first display mode (flashing state) and the 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 until the confirmation operation is accepted;
A second period that is a period after the confirmation operation is accepted and until the setting information change mode in which the change operation cannot be accepted ends;
Consists of
The display means (DP light emitting part of the right end 7-segment display 45z4 of the information display part 45z)
Means for becoming the first display mode (blinking state) in the first period of the setting information change mode;
Means for becoming the second display mode (lighting state) in the second period of the setting information change mode;
Means for becoming the second display mode (lighting state) in the setting information display mode;
A gaming machine characterized by comprising:

  According to the feature γN1, the display means includes a means that becomes the first display mode in the first period of the setting information change mode, a means that becomes the second display mode in the second period of the setting information change mode, and the setting information. Means is provided for the second display mode in the display mode. Therefore, according to this feature, it is clear to the administrator whether the currently executed mode is the setting information change mode or the setting information display mode only by using display means that can be at least two display modes. In addition to being able to recognize, it is possible to make the administrator clearly recognize that the setting information being changed in the setting information change mode has been confirmed and has shifted from the first period to the second period. Moreover, according to this feature, both the second period of the setting information change mode and the setting information display mode are in a state where the setting information cannot be changed, and the display means is in the second display mode. Yes. Therefore, the administrator can recognize that the display means is in the second display mode that the setting information cannot be changed.

<Feature γO group>
The feature γO group is extracted from the above-described embodiments, modified examples, or combinations thereof, and is mainly extracted from the aspect 111 of the first embodiment.

[Feature γO1]
A gaming machine,
Processing execution means for executing a plurality of processes triggered by the start of power supply to the gaming machine;
Display means that can be in a predetermined display mode (lighting state);
With
The process execution means may execute a specific process (setting change mode) as one of the plurality of processes and may not execute the specific process.
The game machine according to claim 1, wherein the display unit includes a unit that becomes the predetermined display mode when the specific process is executed.

  According to the feature γO1, since the display means includes means that becomes a predetermined display mode when a specific process is executed, the administrator of the gaming machine determines whether or not the display means is in a predetermined display mode. By confirming, it is possible to confirm whether or not a specific process is being executed in the gaming machine. Then, for example, when the administrator confirms that the display means is in a predetermined display mode in a gaming machine that should not execute a specific process when power supply is started, It can be recognized that some kind of fraud has been made on the gaming machine so that a specific process is executed by the person (eg, Goto).

[Feature γO2]
A gaming machine described in the feature γO1,
The gaming machine, wherein the display means is provided at a position visible from the front of the gaming machine.

  According to the feature γO2, the display means is provided at a position that can be seen from the front of the gaming machine, so that the manager does not move to the back side of the gaming machine, for example, in a game hall that is in operation. However, it is possible to confirm the display mode of the display means only by going around the passage through which the player comes and goes.

[Feature γO3]
A gaming machine described in the characteristic γO1 or the characteristic γO2,
The game machine according to claim 1, wherein the display means includes means for maintaining the predetermined display mode even after the specific process is completed.

  According to the feature γO3, the display unit includes a unit that maintains a predetermined display mode even after the specific process is completed. Therefore, the administrator can execute a specific process in the gaming machine when power supply is started. It is possible to confirm whether or not has been executed even after the specific processing is completed.

[Feature γO4]
A gaming machine according to any one of features γO1 to γO3,
A setting information change mode executing means for executing a setting information change mode (setting change mode) capable of changing setting information, which is information for determining one privilege granting condition from among a plurality of privilege granting conditions;
A ball entry means that allows a game ball to 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 privilege granting condition corresponding to the setting information;
A privilege granting means for granting a privilege to a player when it is determined that the special information satisfies the privilege granting condition;
With
The game machine according to claim 1, wherein the display unit includes a unit that becomes the predetermined display mode when the setting information change mode is executed as the specific process.

  According to the feature γO4, the display unit includes a unit that becomes a predetermined display mode when the setting information change mode is executed as a specific process. Therefore, the administrator determines whether the display unit is in the predetermined display mode. By confirming whether or not, it is possible to confirm whether or not the setting information change mode has been executed in the gaming machine. And, for example, when the administrator confirms that the display means is in a predetermined display mode in the gaming machine that should not have been executed the setting information change mode when the supply of power is started, It can be recognized that some sort of injustice has been made to the gaming machine so that the setting information change mode is executed by a person other than the administrator (for example, Goto).

<Feature γP group>
The feature γP group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 113 of the first embodiment.

[Feature γP1]
Setting information changing means (setting change mode) capable of changing setting information, which is information for determining one privilege granting condition from among a plurality of privilege granting conditions;
A ball entry means that allows a game ball to 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 privilege granting condition corresponding to the setting information;
A privilege granting means for granting a privilege to a player when it is determined that the special information satisfies the privilege granting condition;
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means (main-side RAM 64) for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means; ,
A calculation means (main CPU 62x) for calculating game history information (game history information such as an accessory ratio, continuous accessory ratio, base, etc.) that is information related to a game history based on the detection information;
Erasing means for erasing the detection information;
A gaming machine comprising
The calculating means includes
First calculation means for calculating first type game history information (base) which is the game history information not affected by the change of the setting information;
Second calculation means for calculating second type game history information (a combination ratio, a continuous combination ratio) that is the game history information affected by the change in the setting information;
With
The erasing means includes
Triggered by the change of the setting information, the detection information that is the basis for the calculation of the second type game history information is deleted from the detection information, and the detection that is the basis for the calculation of the first type game history information A gaming machine comprising means for not erasing information.

  According to the feature γP1, the detection information that is the basis for calculating the second type game history information is deleted from the detection information when the setting information is changed. It is possible to prevent the detection information after the change from coexisting and to prevent the second type game history information from being calculated based on both the detection information before and after the change of the setting information. The storage capacity of the detection information after the change of the setting information to be stored can be ensured. On the other hand, triggered by the change in the setting information, the detection information that is the basis for calculating the first type game history information is not deleted from the detection information. The first type game history information with high accuracy can be calculated based on the accumulated detection information. Therefore, the administrator or the inspector can confirm the second type game history information based on the detection information after the setting information is changed, and the first accuracy is high based on the detection information accumulated over a long period of time. It is possible to check seed game history information.

<Feature γQ group>
The feature γQ group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 114 of the first embodiment.

[Feature γQ1]
Setting information changing means (setting change mode) capable of changing setting information, which is information for determining one privilege granting condition from among a plurality of privilege granting conditions;
A ball entry means that allows a game ball to 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 privilege granting condition corresponding to the setting information;
A privilege granting means for granting a privilege to a player when it is determined that the special information satisfies the privilege granting condition;
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means (main-side RAM 64) for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means; ,
A calculation means (main CPU 62x) for calculating game history information (game history information such as an accessory ratio, continuous accessory ratio, base, etc.) that is information related to a game history based on the detection information;
A gaming machine comprising
The calculating means includes
First calculation means for calculating first type game history information (base) which is the game history information not affected by the change of the setting information;
Second calculation means for calculating second type game history information (a combination ratio, a continuous combination ratio) that is the game history information affected by the change in the setting information;
With
The first calculation means includes means for calculating the first type game history information (base) without dividing the first type game history information (base) into sections with a change of the setting information as a boundary,
The second calculating means includes means for calculating the second type game history information (combination ratio, continuous combination ratio) separately for each section with the change of the setting information as a boundary. Gaming machine.

  According to the feature γQ1, the first calculation means includes means for calculating the first type game history information (base) without dividing the first type game history information (base) into sections with the change of the setting information as a boundary, and the second calculation means includes: Since there is a means to calculate and divide the two types of game history information (compositions ratio, continuous ratios) for each section with the change of setting information as a boundary, the administrator and the inspector have a wide range that does not divide the section The first type game history information (base) with high accuracy calculated from (period) can be confirmed, and the second type game history information that is affected by the change of the setting information (a combination ratio, a continuous combination ratio) ) Can be confirmed separately for each section with the change of the setting information as a boundary.

<Feature γR group>
The feature γR group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 115 of the first embodiment.

[Feature γR1]
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Detection information storage means (main-side RAM 64) for storing detection information (game information basic information such as incoming ball information, incoming ball number information, prize ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means. )When,
A calculation means (main CPU 62x) for calculating game history information (game history information such as an accessory ratio, continuous accessory ratio, base, etc.) that is information related to a game history based on the detection information;
Game history information storage means (main-side RAM 64) for storing the calculated game history information;
An erasure unit that does not erase the game history information calculated based on the detection information, although the detection information is erased when a predetermined condition is established (setting information is changed) ,
A gaming machine characterized by comprising:

  According to the feature γR1, the game history information calculated based on the detection information is not deleted even though the detection information is deleted when a predetermined condition is satisfied. The storage capacity for the detection information can be ensured, and the administrator or the inspector can obtain the game history information calculated based on the detection information that has been deleted before the predetermined condition is satisfied. It is possible to confirm even after the detection information that is the basis for calculating the game history information is deleted.

[Feature γR2]
A gaming machine described in the feature γR1,
Setting information changing means (setting change mode) capable of changing setting information, which is information for determining one privilege granting condition from among a plurality of privilege granting conditions;
A ball entry means that allows a game ball to 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 privilege granting condition corresponding to the setting information;
A privilege granting means for granting a privilege to a player when it is determined that the special information satisfies the privilege granting condition;
With
The predetermined condition includes that the setting information has been changed,
The erasure unit includes a unit that does not erase the game history information calculated based on the detection information, even though the detection information is erased when the setting information is changed. A gaming machine.

  According to the feature γR2, the game history information calculated based on the detection information is not deleted even though the detection information is deleted when the setting information is changed. The storage capacity for the detection information can be ensured, and the administrator or the inspector can obtain the game history information calculated based on the detection information that has been deleted before the setting information is changed. Further, it is possible to check even after the detection information that is the basis for calculating the game history information is deleted (that is, after the setting information is changed).

<Feature γS group>
The feature γS group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 116 of the first embodiment.

[Feature γS1]
Setting information changing means (setting change mode) capable of changing setting information, which is information for determining one privilege granting condition from among a plurality of privilege granting conditions;
A ball entry means that allows a game ball to 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 privilege granting condition corresponding to the setting information;
A privilege granting means for granting a privilege to a player when it is determined that the special information satisfies the privilege granting condition;
Storage means (main-side RAM 64) capable of storing various types of information;
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Control means (mainly storing detection information (game history basic information such as incoming ball information, incoming ball number information, award ball total value)) that is information based on the fact that a game ball has been detected by the detecting means (main game information) Side CPU 62x),
A calculation means for calculating game history information (game history information such as an accessory ratio, a continuous accessory ratio, a base, etc.) that is information relating to a game history based on the detection information;
Erasing means for erasing information stored in the storage means;
A gaming machine comprising
The calculating means includes
First calculation means for calculating first type game history information (base) which is game history information not affected by the change of the setting information;
Second calculation means for calculating second type game history information (a combination ratio, a continuous combination ratio) which is game history information affected by the change in the setting information;
With
The storage means
First storage means (a specific area designated by a predetermined continuous address in area 2 of the main RAM 64);
Second storage means (an area other than a specific area in area 2 of the main RAM 64);
With
The erasing means includes
In response to the change of the setting information, the information stored in the first storage unit is erased, and the information stored in the second storage unit is not erased.
The control means includes
Means for storing, in the first storage means, second-type detection information that is a basis for calculating the second-type game history information (a combination ratio, a continuous combination ratio) of the detection information;
Means for storing, in the second storage means, first type detection information serving as a basis for calculating the first type game history information (base) among the detection information;
A gaming machine characterized by comprising:

  According to the characteristic γS1, the erasure unit includes a unit that erases the information stored in the first storage unit and does not erase the information stored in the second storage unit when the setting information is changed. Among the detection information, the means stores the second type detection information, which is the basis for calculating the second type game history information (a combination ratio, a continuous combination ratio), in the first storage unit, and the detection information And means for storing the first type detection information that is the basis of the calculation of 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 the type 2 game history information that is affected by the change of the setting information in a lump without determining whether the detection information is to be deleted or not to be deleted. Delete and set the type 2 detection information It can be left without erasing the first two detection information underlying the calculation of the one game history information which is not affected by the distribution of the changes. That is, it is possible to omit the process of determining the detection information to be deleted and the detection information not to be deleted when the detection information is deleted in response to the change of the setting information, and the process can be simplified.

[Feature γS2]
A gaming machine described in the feature γS1,
The gaming machine, wherein the first storage means is a specific storage area specified by a predetermined continuous address of a predetermined memory area.

  According to the feature γS2, since the first storage means is a specific storage area specified by a predetermined continuous address of a predetermined memory area, the second type detection information stored in the first storage means is collectively displayed. The process of erasing can be simplified.

<Feature γT group>
The feature γT group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 117 of the first embodiment.

[Feature γT1]
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means (main-side RAM 64) for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means; ,
A calculation means for calculating game history information (game history information such as an accessory ratio, a continuous accessory ratio, a base, etc.) that is information relating to a game history based on the detection 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 discharge passage passage number N _OUT 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 detection information in the excluded period.

  According to the feature γT1, since the calculation means includes means for calculating game history information based on detection information in a period excluding a predetermined period, detection information based on detection of a game ball in a predetermined period is It is not the basis for calculating game history information. Therefore, for example, an operation test for checking whether or not the gaming machine operates normally by putting the gaming ball directly into the winning opening or the starting opening with the gaming board open is performed during the predetermined period. By doing so, it is possible to prevent the influence of the operation inspection from affecting the game history information. As a result, the administrator or the inspector can check accurate game history information that is not affected by the operation inspection.

[Feature γT2]
A gaming machine described in the feature γT1,
The predetermined period includes a period until the number of game balls detected by predetermined detection means (discharge passage detection sensor provided in the discharge passage) reaches a predetermined number.

  According to the feature γT2, since the predetermined period includes a period until the number of game balls detected by the predetermined detection unit reaches the predetermined number, the number of game balls detected by the predetermined detection unit is The detection information in the period until the predetermined number is reached does not serve as a basis for calculating the game history information. Therefore, for example, the predetermined detection means detects an operation test in which the game board is opened and a game ball is directly inserted into a winning opening or a start port to check whether or not the gaming machine operates normally. If it is performed in a period until the number of played game balls reaches a predetermined number, it is possible to prevent the influence of the operation inspection from affecting the game history information.

[Feature γT3]
A gaming machine according to feature γT1 or feature γT2,
Comprising an operation accepting means for accepting a predetermined operation;
The predetermined period includes a period during which the operation accepting unit accepts the predetermined operation.

  According to the feature γT3, the predetermined period includes a period during which the operation accepting unit accepts the predetermined operation. Therefore, the detection information in the period during which the operation accepting unit accepts the predetermined operation is the basis for calculating the game history information. It will not be. Therefore, for example, the operation accepting means performs an operation test for checking whether or not the gaming machine operates normally by directly entering a game ball into a winning opening or a starting port with the game board opened. If this operation is performed during the period in which the operation is accepted, it is possible to prevent the influence of the operation inspection from affecting the game history information. Furthermore, when the administrator wants to perform an operation inspection of the gaming machine without affecting the game history information, the administrator may perform a predetermined operation on the operation accepting unit. The operation inspection can be performed at the timing.

<Feature γU group>
The feature γU group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 118 of the first embodiment.

[Feature γU1]
Information output means (main MPU 62) for outputting information;
Display means (information display section 45z) for displaying the information output from the information output means;
Maintaining means (information display unit driving IC 45y) for maintaining 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 the feature γU1, since the display unit has a maintaining unit that maintains the display mode until the next information is output from the information output unit, the next information is output until the next information is output from the information output unit. The previously output information can be continuously displayed on the display means. For example, after the one information is output from the information output means, the one information is continuously displayed on the display means until the next information after the one information is output. Therefore, for example, even if the administrator or the inspector of the gaming machine is in a situation where the next information is not output after the one information is output from the information output means due to a malfunction or the like, the one information is displayed on the display means. Since the information is continuously displayed, it is possible to confirm the one piece of information that is continuously displayed on the display means.

[Feature γU2]
A gaming machine described in the feature γU1,
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means;
A calculation means for calculating game history information (game history information such as an accessory ratio, a continuous accessory ratio, a base, etc.) that is information relating to a game history based on the detection information;
With
The information output means comprises means for sequentially outputting the calculated game history information.

  According to the feature γU2, since the information output means includes means for sequentially outputting the calculated game history information, 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. Until the game history information is output, the game history information output before the next game history information can be continuously displayed on the display means. 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 game history information next to the one game history information is output. become. Therefore, for example, even if the administrator or the inspector of a gaming machine is in a situation where the next game history information is not output after the one game history information is output from the information output means due to a defect or the like, the one game history Since the information continues to be displayed on the display means, the one game history information that is continuously displayed on the display means can be confirmed.

<Feature γV group>
The feature γV group is extracted from each of the above-described embodiments, modified examples, or a combination thereof, and is mainly extracted from the aspect 119 of the first embodiment.

[Feature γV1]
A gaming machine,
A plurality of detection means (entrance detection sensors 44a to 44h) for detecting a game ball that has passed a predetermined area;
Storage means (main-side RAM 64) for storing detection information (game information basic information such as incoming ball information, incoming ball number information, winning ball total value, etc.) that is information based on the fact that a game ball has been detected by the detecting means; ,
Calculation means for calculating game history information (game history information such as an accessory ratio, a continuous feature ratio, a pitch rate, etc.) that is information relating to a game history based on the detection information;
Fault information storage means (main RAM 64) for storing fault information (error code) which is information relating to faults occurring in the gaming machine;
Display means for displaying information (information display section 45z);
With
The display means includes
Means for receiving a signal for displaying the game history information;
Means for receiving a signal for displaying the defect information;
A gaming machine characterized by comprising:

  According to the 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 the defect information. In addition, it is possible to display defect information. Therefore, in the gaming machine provided with the display means capable of displaying the game history information, it is not necessary to provide another display means for displaying the defect information, so that the manufacturing cost of the gaming machine can be reduced.

[Feature γV2]
A gaming machine described in the feature γV1,
A payout means (payout control device 70, payout device 71) for paying out game balls;
A failure detection means for detecting a failure occurring in the payout means;
With
The defect information storage means includes means for storing the defect information generated in the payout means,
The game machine according to claim 1, wherein the display means includes means for receiving a signal for displaying the defect information generated in the payout means.

  According to the feature γV2, the display means includes means for receiving a signal for displaying defect information generated in the payout means. Therefore, in a gaming machine including display means capable of displaying game history information, the payout means Since it is not necessary to provide another display means for displaying the generated defect information, the manufacturing cost of the gaming machine can be reduced.

  The invention of the above-mentioned feature γM group to feature γV group solves the following problems.

  In gaming machines such as pachinko machines and slot machines, there is an increase in gaming interest, a reduction in processing load on gaming machines, optimization of processing, simplification of control, simplification of structure, efficiency of development of gaming machines, Technical improvements have been made from various viewpoints such as structure, control, production, etc. for the purpose of providing gaming machines that are less prone to malfunctions, and providing gaming machines in consideration of players.

  In addition, various technical improvements have been made for the purpose of improving the soundness of games, such as the discovery and suppression of illegal acts by players and unauthorized modifications to gaming machines.

  In gaming machines such as those mentioned above, there is an increase in gaming interest, reduction in processing load on gaming machines, optimization of processing, simplification of control, simplification of structure, efficiency of development of gaming machines, and problems. Further technical improvements are desired for the purpose of providing difficult gaming machines, providing gaming machines in consideration of players, and providing more sound games.

  A configuration in which one or a plurality of configurations included in the feature A group to the feature γV group is appropriately combined may be employed. Thereby, it becomes possible to produce a synergistic effect by the combined configuration.

  The basic configuration of the gaming machine to which each of the above features can be applied or applied to each feature is shown below.

  Pachinko machine: Launching means for launching a game ball toward a game area based on a launch operation by a player, and a start ball that is provided in the game area and can enter the game ball flowing down the game area And an acquisition information storage means for storing the special information acquired by the information acquisition means based on the fact that a game ball has entered the start ball entering section. Machine.

  Revolving type gaming machine such as a slot machine: picture display means for variably displaying a plurality of pictures, start means for starting variable display of the plurality of pictures due to operation of the start operation means, and operation of stop operation means A gaming machine comprising stop means for stopping the variable display of the plurality of pictures due to or after elapse of a predetermined time, and privilege grant means for granting a privilege to the player in accordance with the stopped picture.

  The present invention is not limited to the above-described embodiments and modifications, and can be realized with various configurations without departing from the spirit thereof. For example, the technical features in the embodiments and the modifications corresponding to the technical features in each embodiment described in the summary section of the invention are to solve some or all of the above-described problems, or In order to achieve part or all of the effects, replacement or combination can be performed as appropriate. Further, if the technical feature is not described as essential in the present 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 19 ... Glass unit 20 ... Upper plate 21 ... Lower plate 22 ... Discharge port 23 ... Lever 24 ... Direction operation button 25 ... Operation handle 25a ... Touch sensor 25b ... weight button 25c ... variable resistor 26 ... game ball launch button 30 ... game board 31 ... guide rail 31a ... inner rail part 31b ... outer rail part 32 ... General prize opening 32a ... First prize opening 32b ... Second prize opening 32c ... Third prize opening 33 ... First start opening 34 ... Second start opening 34a ... Electric accessory 34b ... Electrical accessory drive unit 35 ... Through gate 36 ... Variable winning device 36a ... Large winning opening 36b ... Opening / closing door 36c ... Variable winning drive unit 37 ... Special figure unit 37a ... 1st symbol display part 37 ... 2nd symbol display part 37c ... 1st hold display part 37d ... 2nd hold display part 38 ... Normal figure unit 39 ... Round display part 40 ... Variable display unit 41 .. . Symbol display device 42 ... Nail 43 ... Out port 45 ... Main display part 45z ... Game history information display part (information display part)
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 controller 61 ... Main control board 62 ... Main side MPU
62x ... Main CPU
63 ... Main 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 failure monitoring circuit 90 .. .Sound Emission Control Device 91 ... Sound Emission Control Board 96 ... RTC
DESCRIPTION OF SYMBOLS 100 ... Display control apparatus 300 ... Game history management chip 302 ... Buffer 304 ... Register 306 ... Prize ball number data storage memory 307 ... Calculation execution condition storage memory 307a ... Memory for storage execution condition storage 308 ... CPU
309 ... Memory for calculation result storage 309a ... Memory for storing number of balls 309b ... Memory for storing ball information 320 ... Inspection machine 321 ... CPU
328 ... Display section 329 ... Connection cable

Claims (1)

Setting information changing means capable of changing setting information, which is information for determining one privilege granting condition from among a plurality of privilege granting conditions;
Privilege grant condition storage means for storing the one privilege grant condition corresponding to the setting information, triggered by at least the setting information being changed,
A ball entry means that allows a game ball to 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 one privilege grant condition stored in the privilege grant condition storage means;
A privilege granting means for granting a privilege to a player when it is determined that the special information satisfies the one privilege granting condition;
A gaming machine characterized by comprising:

Images