JP5669115B2 - Game machine - Google Patents

Description

  It relates to gaming machines.

  In current gaming machines, a main board (main control device) that mainly controls the progress of the game, a sub main board (sub control device) that mainly determines whether or not to execute effects for enhancing the fun of the game And a plurality of control boards (control devices) such as a sub-sub board (image control device) that mainly executes image display control based on the determination content on the sub-main substrate side. Are generally connected to each other and linked to each other by transmitting and receiving command signals. Then, by making the control for each board a single function, the overall control is divided to reduce the control load.

By the way, each substrate (each control device) is provided with a central processing unit (so-called CPU) for executing a predetermined series of control processes, and when a reset condition is satisfied (for example, a power supply) At the time of input or when the reset button is pressed, the central processing unit is configured to sequentially re-execute from the top of the series of control processes. Under such a configuration, when the gaming machine is operating in a game hall, a situation occurs in which the reset condition is satisfied by an unexpected event (for example, an erroneous reset signal input due to electrostatic noise, etc.) Can do. When such a situation occurs, it is important to investigate the factor that satisfied the reset condition and to execute appropriate processing according to the factor. Techniques have been proposed (for example, Patent Document 1 and Patent Document 2).
JP 2011-182839 A JP 2007-037839 A

  However, in these conventional methods, there is room for further improvement because it may not always be effective when investigating a factor that satisfies the reset condition or when executing appropriate processing according to the factor. There is a problem.

The gaming machine according to this aspect is
A first control unit that operates in a first device having a first CPU;
A second control unit that operates in a second device having a second CPU, and is capable of transmitting information from the first device to the second device, while disabling information transmission from the second device to the first device. Configured,
The first control unit
A first CPU resetting means for releasing the reset state after setting the first CPU in a reset state when the predetermined condition is satisfied;
First control processing execution means for executing the first initial process triggered by the release of the reset state by the first CPU resetting means, and repeatedly executing the first steady process after the execution of the first initial processing; ,
A means for transmitting information to the second device, which transmits initial information during execution of the first initial process, and can transmit operation information during execution of the first steady process. Means and
The second control unit
When the specific condition is satisfied, the second CPU reset means for releasing the reset state after setting the second CPU to the reset state,
It is a means capable of receiving information transmitted from the first device when the reset state is released by the second CPU reset means, and the information received until a predetermined period has passed since the trigger is the initial information. If it is found that there is a reset factor, it is determined that the reset factor is appropriate. On the other hand, if it is found that the information received until the predetermined period elapses from the trigger is operation information, or if the trigger is determined from the trigger A second CPU reset factor determining means for determining that the reset factor is invalid if the information from the first device is not received before the period elapses;
When it is determined by the second CPU reset factor determination means that the reset factor is appropriate, the notification process based on the predetermined notification mode is executed, while when the reset factor is determined to be inappropriate, the the predetermined notification manner is a game machine, characterized by being configured cormorants by performing the notification processing based on different notification manner.
<Appendix>
In addition, although the different aspect different from this aspect is listed below, it can implement without being limited to these at all.
This another aspect is
A first controller (e.g., main controller 1000) that operates on a first device (e.g., main controller board 1000) having a first CPU;
A second control unit (for example, sub-main control unit 2320) that operates on a second device (for example, sub-control board 2000) having a second CPU, and the second device from the first apparatus (for example, main control board 1000). It is configured to be able to transmit information to a device (for example, sub-control board 2000),
The first control unit (for example, main controller 1000)
A first CPU resetting unit (for example, reset circuit 300) for releasing the reset state after setting the first CPU in a reset state when the predetermined condition is satisfied;
When the reset state is released by the first CPU reset means (for example, the reset circuit 300), the first initial process is executed, and the first steady process is repeatedly executed after the first initial process is executed. First control process execution means (for example, main process on the main controller 1000 side);
A means for transmitting information to the second device (for example, the sub-control board 2000). The initial information is transmitted during the execution of the first initial process, and the operation information is transmitted during the execution of the first steady process. First control information transmitting means (for example, information transmission control means 1300) capable of transmitting,
The second control unit (for example, the sub main control unit 2320)
When the specific condition is satisfied, after the second CPU is set in the reset state, the second CPU reset means (for example, the reset switch on the sub control board 2000 side) for releasing the reset state,
A means capable of receiving information transmitted from the first device (for example, the main control board 1000) when the reset state is released by the second CPU reset means (for example, the reset switch on the sub-control board 2000 side). If it is determined that the information received before the predetermined period has passed since the trigger is the initial information, the reset factor is determined to be appropriate, while the predetermined period has elapsed from the trigger. If it is determined that the received information is operation information, or if no information is received from the first device (for example, the main control board 1000) before the predetermined period elapses from the trigger, the reset is performed. Second CPU reset factor determination means (for example, reset cause determination means 2500) for determining that the factor is invalid;
When the second CPU reset factor determination unit (for example, reset cause determination unit 2500) determines that the reset factor is appropriate, the notification process based on a predetermined notification mode is executed, while the reset factor is invalid. When it is determined that there is a game machine, the game machine includes second CPU reset information notification control means (for example, reset cause determination means 2500) that performs control so that the notification process can be executed.

  According to the gaming machine according to this aspect, there is an effect that it is possible to investigate a factor that satisfies the reset condition and to execute appropriate processing according to the factor.

FIG. 1 is a front view of a pachinko gaming machine according to the present embodiment. FIG. 2 is a rear view of the pachinko gaming machine according to the present embodiment. FIG. 3 is a functional block diagram of the pachinko gaming machine according to the present embodiment. FIG. 4 is an overall electrical configuration diagram of the pachinko gaming machine according to the present embodiment. FIG. 5 is a main flowchart on the main controller side in the pachinko gaming machine according to the present embodiment. FIG. 6 is a flowchart of a toggle state switching process on the main controller side in the pachinko gaming machine according to the present embodiment. FIG. 7 is a flowchart of auxiliary game content determination random number acquisition processing on the main controller side in the pachinko gaming machine according to the present embodiment. FIG. 8 is a flowchart of the electric accessory driving determination process on the main controller side in the pachinko gaming machine according to the present embodiment. FIG. 9 is a flowchart of main game content determination random number acquisition processing on the main controller side in the pachinko gaming machine according to the present embodiment. FIG. 10 is a flowchart of main game symbol display processing on the main control device side in the pachinko gaming machine according to the present embodiment. FIG. 11 is a flowchart of the first (second) main game symbol display process on the main controller side in the pachinko gaming machine according to the present embodiment. FIG. 12 is a table configuration diagram used in the first (second) main game symbol display process on the main controller side in the pachinko gaming machine according to the present embodiment. FIG. 13 is a flowchart of the specific game end determination process on the main controller side in the pachinko gaming machine according to the present embodiment. FIG. 14 is a flowchart of the special game operating condition determination process on the main controller side in the pachinko gaming machine according to the present embodiment. FIG. 15 is a flowchart of a special game control process on the main controller side in the pachinko gaming machine according to the present embodiment. FIG. 16 is a flowchart of the gaming state determination process after the completion of another game on the main controller side in the pachinko gaming machine according to the present embodiment. FIG. 17 is an operation diagram of control command transmission processing and communication on the main controller side in the pachinko gaming machine according to the present embodiment. FIG. 18 is a main flowchart on the sub-main control unit side in the pachinko gaming machine according to the present embodiment. FIG. 19 is a flowchart of reset cause determination processing on the sub-main control unit side in the pachinko gaming machine according to the present embodiment. FIG. 20 is a flowchart of a toggle signal determination process on the sub-main control unit side in the pachinko gaming machine according to the present embodiment. FIG. 21 is a flowchart of the hold information management process on the sub-main control unit side in the pachinko gaming machine according to the present embodiment. FIG. 22 is a flowchart of the decorative symbol display content determination process on the sub-main control unit side in the pachinko gaming machine according to the present embodiment. FIG. 23 is a table configuration diagram used in the decorative symbol display content determination process on the sub-main control unit side in the pachinko gaming machine according to the present embodiment. FIG. 24 is a flowchart of the decorative symbol display control process on the sub-main control unit side in the pachinko gaming machine according to the present embodiment. FIG. 25 is a flowchart of the special game display control processing on the sub-main control unit side in the pachinko gaming machine according to the present embodiment. FIG. 26 is a flowchart of display command transmission control processing on the sub-main control unit side in the pachinko gaming machine according to the present embodiment. FIG. 27 is a main flowchart on the sub-sub control unit side in the pachinko gaming machine according to the present embodiment. FIG. 28 is a flowchart of display command reception control processing on the sub-sub control unit side in the pachinko gaming machine according to the present embodiment. FIG. 29 is a flowchart of command analysis / image display control processing on the sub-sub control unit side in the pachinko gaming machine according to the present embodiment. FIG. 30 is a main flowchart on the main controller side in the pachinko gaming machine according to Modification 1 of the present embodiment. FIG. 31 is a flowchart of the port reading process on the main controller side in the pachinko gaming machine according to Modification 1 of the present embodiment. FIG. 32 is a main flowchart on the main controller side in the pachinko gaming machine according to Modification 2 of the present embodiment. FIG. 33 is a front view of a rotating game machine according to the second embodiment. FIG. 34 is a functional block diagram of a spinning cylinder gaming machine according to the second embodiment. FIG. 35 is a main flowchart on the main control device side in the spinning cylinder type gaming machine according to the second embodiment. FIG. 36 is a flowchart of a toggle state switching process on the main control device side in the spinning cylinder game machine according to the second embodiment. FIG. 37 is a flowchart of the control command transmission process on the main control device side in the spinning cylinder game machine according to the second embodiment. FIG. 38 is a flowchart of a prescribed number input control process on the main control device side in the spinning cylinder type gaming machine according to the second embodiment. FIG. 39 is a flowchart of the game start control process on the main control device side in the rotary gaming machine according to the second embodiment. FIG. 40 is a flowchart of the game content determination process on the main control device side in the spinning-reel game machine according to the second embodiment. FIG. 41 is a table configuration diagram used in the game content determination process on the main control device side in the rotary gaming machine according to the second embodiment. FIG. 42 is a flowchart of the reel rotation operation start control process on the main control device side in the spinning cylinder type gaming machine according to the second embodiment. FIG. 43 is a flowchart of a reel rotation operation stop control process on the main controller side in the spinning cylinder type gaming machine according to the second embodiment. FIG. 44 is a flowchart of a winning combination determination control process on the main control device side in the spinning cylinder type gaming machine according to the second embodiment. FIG. 45 is a flowchart of a payout control process on the main control device side in the spinning cylinder type gaming machine according to the second embodiment. FIG. 46 is a table configuration diagram used in the payout control process on the main control device side in the spinning cylinder type gaming machine according to the second embodiment. FIG. 47 is a flowchart of the game state transition control process on the main control device side in the spinning cylinder type gaming machine according to the second embodiment. FIG. 48 is a flowchart of the game end control process on the main control device side in the spinning-reel game machine according to the second embodiment. FIG. 49 is a main flowchart on the side of the sub-main control unit in the rotary type gaming machine according to the second embodiment. FIG. 50 is a flowchart of reset cause determination processing on the sub-main control unit side in the spinning-reel game machine according to the second embodiment. FIG. 51 is a flowchart of a toggle signal determination process on the sub-main control unit side in the spinning-reel game machine according to the second embodiment. FIG. 52 is a flowchart of effect operation content determination processing on the sub-main control unit side in the spinning-reel game machine according to the second embodiment. FIG. 53 is a table configuration diagram used in the effect operation content determination process on the sub-main control unit side in the spinning cylinder game machine according to the second embodiment. FIG. 54 is a flowchart of the rendering operation control process on the sub-main control unit side in the spinning cylinder type gaming machine according to the second embodiment. FIG. 55 is a flowchart of display control processing during special game on the sub-main control unit side in the spinning-reel game machine according to the second embodiment. FIG. 56 is a flowchart of the display command transmission control process on the sub-main control unit side in the swivel type gaming machine according to the second embodiment. FIG. 57 is a main flowchart on the side of the sub-sub control unit in the rotary gaming machine according to the second embodiment. FIG. 58 is a flowchart of the display command reception control process on the sub-sub control unit side in the spinning-reel game machine according to the second embodiment. FIG. 59 is a flowchart of command analysis / image display control processing on the sub-sub control unit side in the spinning-reel game machine according to the second embodiment. FIG. 60 is a flowchart of the reset cause determination process on the sub-main control unit side in the spinning-reel game machine according to Modification 3 of the second embodiment. FIG. 61 is a main flowchart on the side of the sub-sub control unit in the rotating type gaming machine according to Modification 3 of the second embodiment.

Form to carry out

  First, the meaning of each term in the claims and the present specification will be described. First, “specific operation information” refers to information periodically transmitted from the first device to the second device when the first device is operating normally (for example, a toggle signal or serial communication). When a line is used, it means a specific bit string set in advance). “Initial information” means information for informing the second device that the first device has been powered on, and is a concept that includes RAM clear information, a command related to a game before the power is turned off, and the like. “Operation information” means a control command related to a game in a normal time (during a normal game other than at the time of reset and power-off) transmitted from the first device to the second device. “Information relating to the progress of the game” refers to information that affects the outcome of the game {eg, a lottery random number (a so-called “basic random number that affects the outcome of the game, specifically related to the transition of special games” “Winning random number”, “Fluctuation mode determination random number” for determining the variation mode of the identification symbol, “Design determination random number” for determining the stop symbol, “Decision symbol for determining whether to shift to a specific game after a special game” In addition, the “game random number” may be one type or a plurality of types.) And the information associated with the lottery random number, etc.}, as well as information on the operating state of the gaming machine (For example, error occurrence information, information related to a setting change operation state, etc.). For example, in a pachinko gaming machine, for example, a non-game state in which a game is not progressing, a game state in which a game is in progress, a special game state (for example, a predetermined number of winnings in a variable prize opening) And / or a game in which a unit game in which the variable prize opening, which is normally closed, is kept open or is opened or closed one or more times) is opened until the opening or closing time of the variable prize opening reaches a predetermined time. A non-stochastic variation gaming state in which the transition lottery probability is a predetermined value, a probability variation gaming state in which the transition lottery probability to the special gaming state is higher than the non-stochastic variation gaming state, and a transition lottery opportunity to the special game Non-assistant gaming state (no so-called normal symbol non-short-time state) without assistance for winning at the starting opening, auxiliary gaming state (so-called ordinary symbol) with assistance for winning at the starting opening which becomes a lottery trigger for special games In a short state, for example, when a variable member is attached to the start port, the variable member has a long open period, the variable member has a high open probability, and the variable member open lottery notification time is short). Expected non-short-time state (so-called special symbol non-short-time state), production mode state (eg mission mode, latency probability change) where variation time (average value) of identification information related to transition to game is a predetermined value Or a pre-reading effect mode based on a prior determination of the hold result). In addition, in a spinning machine, for example, a non-game state in which a game is not progressing, a game state in which a game is in progress, a special game state (for example, a big bonus, a regular bonus, a middle bonus, a single bonus), an internal Replay and low replay winning probabilities where the winning probability of replay is a predetermined value in the auxiliary gaming state (for example, AT, ART) that assists the establishment of the winning combination, non-auxiliary gaming state that does not assist, and non-special game The winning probability of a small role is higher than that when the replay winning probability is low (RT), and the non-special game has an internal winning probability of a small role (for example, a predetermined value assigned to each small role) The small role winning probability is low and the winning probability of the small role is higher than the small role probability state (only some small roles may be required, and other small roles have low winning probability) It is also possible to have a small role probability high state (for example, CT), a non-stochastic variation gaming state in which the transition lottery probability to a special game is a predetermined value, and a transition lottery probability that is a probability variation gaming state than the probability in the non-stochastic variation gaming state , Etc. “Power interruption state” refers to a state where a small amount of power is supplied to the gaming machine (for example, a backup state) in addition to a state where the power supply to the gaming machine is completely stopped. It is a concept that also includes “Information output contents” can include, for example, effects in the industry at the time of filing, and are typically images and moving images that enhance the fun of games (for example, for effects referred to as decorative designs) Symbol variation display, such as characters and images called so-called notices), sound, lamp lighting, driving action of movable object, etc.

  First, the basic structure of the front side of the pachinko gaming machine according to the present embodiment will be described with reference to FIG. Pachinko gaming machines mainly consist of a gaming machine frame and a gaming board. Hereinafter, these will be described in order.

  First, the gaming machine frame of the pachinko gaming machine includes an outer frame 102, a front frame 104, a transparent plate 106, a door 108, an upper ball dish 110, a lower ball dish 112, and a launch handle 116. First, the outer frame 102 is a frame for fixing the pachinko gaming machine to a position where it should be installed. The front frame 104 is a frame body aligned with the opening portion of the outer frame 102, and is attached to the outer frame 102 through a hinge mechanism (not shown) so as to be opened and closed. The front frame 104 includes a mechanism for launching a game ball, a mechanism for detachably storing a game board, a mechanism for guiding or collecting the game ball, and the like. The transparent plate 106 is made of glass or the like and is supported by the door 108. The door 108 is attached to the front frame 104 through an unillustrated hinge mechanism so as to be opened and closed. The upper ball tray 110 has mechanisms for storing game balls, sending the game balls to the launch rail, and extracting the game balls to the lower ball tray 112. The lower ball tray 112 has a mechanism for storing and extracting game balls. Further, a speaker 114 is provided between the upper ball tray 110 and the lower ball tray 112, and a sound effect corresponding to the gaming state or the like is output.

  Next, the game board 120 has a game area 120 defined by an outer rail 122 and an inner rail 124. The game area 120 includes a first main game start port 2210, a second main game start port 2110, an auxiliary game start port 2410, a mechanism such as a plurality of game nails and a windmill (not shown), various general winning ports, and the like. 1st grand prize opening 2120, 2nd big prize opening 2220, 1st main game symbol display device 2130, 2nd main game symbol display device 2230, production display device 2140, auxiliary game symbol display device 2420, center decoration 192 and out mouth 142 is installed. Hereinafter, each element will be described in detail.

  Next, the first main game start port 2210 is installed as a start winning port corresponding to the first main game. As a specific configuration, the first main game start port 2210 includes a first main game start port entrance detection device (first entrance detection device) 2211. Here, the first main game start port entrance detection device 2211 is a sensor that detects the entrance of a game ball into the first main game start port 2210, and the first main game start that indicates the entrance at the time of entrance. The entrance ball information is generated.

  Next, the second main game start port 2110 is installed as a start winning port corresponding to the second main game. Specifically, the second main game start port 2110 includes a second main game start port entrance detection device (second entrance detection device) 2111 and a second main game start port electric accessory (electric accessory). 2112. Here, the second main game start entrance entrance detection device 2111 is a sensor for detecting the entrance of a game ball into the second main game start entrance 2110, and the second main game start indicating the entrance at the time of entrance. The entrance ball information is generated. Next, the second main game start opening electric accessory 2112 changes between a closed state where it is difficult for a game ball to win the second main game start opening 2110 and an open state where the game ball is more likely to win than the normal state.

  Here, in the present example, the first main game start port 2210 and the second main game start port 2110 are arranged at positions that overlap vertically, and in normal times, due to the presence of the first main game start port 2210, The upper part of the second main game starting port 2110 is blocked. As will be described later, during normal games, the second main game start port 2110 is configured so that almost no game balls enter it.

  In the present embodiment, the electric combination is provided on the second main game start port 2110 side, but the present invention is not limited to this, and the electric combination is provided on the first main game start port 2210 side. May be. Furthermore, in the present embodiment, the first main game start port 2210 and the second main game start port 2110 are arranged to overlap each other, but the present invention is not limited to this, and the first main game start port 2210 and the second main game start port 2110 are arranged. You may comprise so that the starting port 2110 may be provided apart. In this case, for example, the first main game start port 2210 and the second main game start port 2110 may be configured to have substantially the same entrance rate, or may be configured to have different entrance rates (so-called It is also possible to use a separate type configuration.

  Next, the auxiliary game start port 2410 includes an auxiliary game start port entrance detection device (entrance detection device) 2411. Here, the auxiliary game start port entrance detection device 2411 is a sensor that detects the entrance of a game ball to the auxiliary game start port 2410, and generates auxiliary game start port entrance information indicating the entrance at the time of entrance. To do. The entry of the game ball into the auxiliary game start port 2410 triggers a lottery for expanding the second main game start port electric accessory 2112 of the second main game start port 2110.

  Next, the first big prize opening 2120 and the second big prize opening 2220 are opened when the first main game symbol (special symbol) or the second main game symbol (special symbol) stops at the big hit symbol or the small hit symbol. This is a winning opening corresponding to the main game, which is in a horizontal rectangular shape and is located above the out opening 142. As a specific configuration, the first grand prize opening 2120 (second grand prize opening 2220) is a first grand prize opening prize detection device (first prize detection device) 2121 for detecting a game ball entry {first prize detection device]. 2 grand prize opening winning detection device (second winning detection device) 2221} and 1st big winning opening electric accessory (first electric accessory) 2122 {second big prize opening electric accessory (second electric accessory) 2222}. Here, the first grand prize winning prize detection device 2121 (second big prize winning prize winning detection device 2221) is a sensor that detects the entry of a game ball into the first big prize winning opening 2120 (second big prize winning opening 2220). The first big winning opening entrance information (second big winning opening entering information) indicating the entering at the time of entering is generated. The first grand prize opening electric role 2122 (second big prize opening electric role 2222) is a game in which the game ball cannot enter the first big prize opening 2120 (second big prize opening 2220) or is difficult to win. The first big prize opening 2120 (second big prize opening 2220) is changed to an open state in which the ball is easy to win a prize {for example, first big prize opening electric combination solenoid 2122a (second big prize opening electric combination solenoid 2222a). It is feasible by exciting and demagnetizing}. In the present embodiment, there are two special winning openings. However, a special game based on the first main game and a special game based on the second main game may be executed with a single special winning opening. Further, in the present embodiment, the mode of the big prize opening is a mode in which a horizontal rectangular shape is formed and the game ball is variable between a normal state where the game ball cannot be won or difficult to win and an open state where the game ball is easy to win, It is not limited to. In that case, for example, an aspect (so-called so-called, a so-called advancing state in which the bar-like member provided in the big prize opening protrudes toward the player side and a retracted state in which it is retracted toward the player side) (Bello-type attacker), which is suitable when it is desired to ensure that the number of balls entered into the big prize opening is a predetermined number (for example, 10). (However, this is only a preferable aspect and is not limited to this.)

  Next, the first main game symbol display device 2130 (second main game symbol display device 2230) is related to the first main game symbol (second main game symbol) corresponding to the first main game (second main game symbol). It is a device that executes the display and the like. Specifically, the first main game symbol display device 2130 (second main game symbol display device 2230) includes a first main game symbol display unit 2131 (second main game symbol display unit 2231) and a first main game. And a symbol hold display unit 2132 (second main game symbol hold display unit 2232). Here, the first main game symbol hold display unit 2132 (second main game symbol hold display unit 2232) is composed of four lamps, and the number of lighting of the lamps is the first main game (second main game). This corresponds to the number of random numbers held (the number of main game symbols that have not been executed). In addition, the 1st main game symbol display part 2131 (2nd main game symbol display part 2231) is comprised by 7 segment LED, for example, and the 1st main game symbol (2nd main game symbol) is "0"-"9". ”Is displayed with 10 types of numbers and“ − ”of losing {but not limited to this, a 7-segment LED is set so that it is difficult for the player to recognize which main game symbol is displayed. It is preferable to use and display by a symbol or the like. In addition, the hold number display is not limited to being composed of four lamps, but can be configured to display a maximum of four hold numbers (for example, composed of one lamp, (Equation 1: lighting, hold number 2: slow blink, hold number 3: medium blink, hold number 4: fast blink)).

  Since the first main game symbol (second main game symbol) does not necessarily have an effect role, in this embodiment, the first main game symbol display device 2130 (second main game symbol display device 2230). The size of is set to be inconspicuous. However, in the case of adopting a technique that does not display the first decorative symbol (second decorative symbol) by giving the first main gaming symbol (second main gaming symbol) itself an effect role, an effect described later You may comprise so that a 1st main game symbol (2nd main game symbol) may be displayed on a liquid crystal display like the display apparatus 2310. FIG.

  Next, the effect display device 2140 mainly performs change display and stop display of effect images including decorative symbols that change and stop in conjunction with the first main game symbol and the second main game symbol, A holding ball display is performed. Specifically, the display control of the effect display control means 2320, which will be described later, displays on the screen a decorative symbol display area 2311 (not shown) in which the decorative symbol change display and stop display are executed, and the first main game symbol. A first hold display unit 2312a (not shown) in which a corresponding decorative symbol hold display is executed, and a second hold display unit 2312b (not shown) in which a decorative symbol hold display corresponding to the second main game symbol is executed; Is formed. The effect display device 2140 is configured by a liquid crystal display in the present embodiment, but may be configured by other display means such as a mechanical drum or LED.

  Next, the auxiliary game symbol display device 2420 is a device that executes display related to the auxiliary game symbols. Specifically, the auxiliary game symbol display device 2420 includes an auxiliary game symbol display unit 2421 and an auxiliary game symbol hold display unit 2422. Here, the auxiliary game symbol hold display unit 2422 is composed of four lamps, and the number of lighting of the lamps corresponds to the number of auxiliary game symbol changes held (the number of auxiliary game symbol changes that have not been executed).

  Finally, the center decoration 192 is installed around the effect display device 2310 and has functions such as a flow path of the game ball, protection of the effect display device 2310, and decoration. In addition, the game effect lamp 190 is provided in the game area 120 or an area other than the game area 120, and plays a role of effect by blinking or the like.

  Next, the basic structure on the back side of the pachinko gaming machine will be described with reference to FIG. The pachinko gaming machine controls the overall operation of the pachinko gaming machine, and in particular controls the overall game operation such as lottery when entering the first main game starting port 2210 (second main game starting port 2110) (ie, game Main control device (main board) 1000 that performs control directly related to the profits of the player, and effect control means (sub control) that performs display control related to various effects on the effect display device 2140 that adds interest to the game content Main control unit) 2320, an effect display device (sub-sub control unit) 2310 that mainly performs effect display, and supply from the prize ball tank 212 in accordance with the prize ball tank 212, the prize ball rail 214, and each prize opening. A prize ball payout mechanism (set base) 210 having a payout unit 216 for paying out the game balls to be played to the upper ball tray 110, and a prize ball payout control device for controlling a payout operation by the payout unit 216 000, a launching device 232 that launches game balls (reserved balls) of the upper ball tray 110 to the game area 120 one by one, a launch control board 230 that controls the launching operation of the launching device 232, and each part of the pachinko gaming machine A power supply unit 290 that supplies electric power, a power switch 292 that is a switch for turning on and off the power supply of the pachinko gaming machine, and the like are provided on the back surface of the front frame 104 (opposite the game side).

  Next, an electrical schematic configuration of the pachinko gaming machine according to the present embodiment will be described with reference to the block diagram of FIG. First, the pachinko gaming machine according to the present embodiment, as described above, pays out game balls based on the main control board 1000 that controls the progress of the game and information (signals, commands, etc.) from the main control board 1000. Based on information (signals, commands, etc.) from the prize ball payout control board 3000 to be controlled, various effects on the effect display device 2140 such as variation / stop of decorative symbols, sound from the speaker 114, Mainly configured are a sub-control board 2000 that controls the execution of the lighting of the game effect lamp 190, error notification, and the like, and a power supply unit 290 that supplies power to the entire gaming machine including these control boards. The sub-control board 2000 includes a sub-main control unit 2320 for controlling various effects on the effect display device 2140 such as decoration pattern change / stop, sound from the speaker 114, lighting of the game effect lamp 190, and error notification. , Two control units of a sub-sub control unit 2310 that performs display processing such as a decorative symbol variation display / stop display and a hold display or a notice display on the effect display device 2140 are provided. Here, the main control board 1000, the prize ball payout control board 3000, the sub-main control unit 2320, and the sub-sub control unit 2310 include a CPU that performs various arithmetic processes, a ROM that stores a program that prescribes arithmetic processes of the CPU, A RAM that temporarily stores data handled by the CPU (various data generated during the game, computer programs read from the ROM, etc.) is mounted. Hereinafter, a schematic configuration of each substrate and an electrical connection mode between each substrate / device will be outlined.

  First, the main control board 1000 includes a winning mouth sensor S {first main game start entrance entrance detection device 2211, second main game start entrance entrance detection device 2111, auxiliary game start entrance entrance detection device 2411, 1st grand prize opening prize detection device 2121, 2nd big prize opening prize detection device 2221, general winning detection apparatus (not shown, the general winning entry is a winning entrance that has a winning ball but does not perform symbol lottery }, A drive solenoid (not shown) (the above-mentioned first big prize opening electric combination solenoid 2122a, second big prize opening electric combination solenoid 2222a, etc.), information display LED (not shown), etc. It is electrically connected to an input / output device that is indispensable to control the progress of the game based on input signals from each input device. Further, the main control board 1000 is also electrically connected to the prize ball payout control board 3000 and the sub control board 2000 (sub-main control unit 2320 and sub-sub control part 2310). And the like (commands) relating to the award ball payout control board 3000 and information (commands) relating to performance / game progress etc. to the sub-control board 2000. The main control board 1000 can be connected to the hall computer H or the like via an external connection terminal (not shown), and is connected to the hall computer H via the external connection terminal, whereby the main control board 1000 is connected. The game-related information can be output from an external device to an external device.

  In the present embodiment, as indicated by the arrows in FIG. 3, the main control board 1000 and the winning ball payout control board 3000 are configured to be capable of bidirectional communication, while the main control board 1000 and the sub main The control unit 2320 is configured to allow one-way communication from the main control board 1000 to the sub-main control unit 2320 (the communication method may be either serial communication or parallel communication). The communication between control boards (between control devices) may be one-way communication or two-way communication.

  Next, the prize ball payout control board 3000 is a device that can be operated by the player and the prize ball payout mechanism 210 for paying out the game balls. The game ball lending request is received and transmitted to the prize ball payout control board 3000. Connected to the game ball lending device 100. Although not shown, in the present embodiment, the control circuit unit of the launching device is provided in the prize ball payout control board, and the prize ball payout control board and the launching device (launching handle, firing motor, ball feeding device). Etc.). In the present embodiment, the game ball lending device 100 is separately provided and adjacent to the game machine. However, the game ball lending device 100 may be integrated with the game machine. Control and management control of a recording medium for lending such as electronic money may be integrated.

  Next, as described above, the sub-control board 2000 is connected to the effect display device 2140 for displaying decorative symbols and the like, the speaker 114, the game effect lamp 190, and other effect drive devices (not shown). In the present embodiment, as described above, the sub-main control unit 2320 and the sub-sub control unit 2310 are provided in the sub-control board 2000, and the sub-main control unit 2320 controls the sound output from the speaker 114 and the gaming effect ( Lighting) Control of lighting of the lamp 190 and determination control of display contents to be displayed on the effect display device are performed, and display control (substantial display control) on the effect display device is performed by the sub-sub control unit 2310. It is configured. In this embodiment, the sub-main control unit 2320 and the sub-sub control unit 2310 are configured to be integrated on the sub-control board 2000. However, the present invention is not limited to this (configured as a separate board). However, it is possible to reduce the situation that space is merited and noise is mixed into the wiring or the like by being configured to be integrated). Also, the work sharing between the two control units can be changed as appropriate, for example, the sub-sub control unit 2310 executes voice control (suitable when a voice control circuit integrated with the VDP is adopted). Further, an electronic value may be given without giving a physical prize ball as a prize ball.

  Next, a method of supplying power to each control board and the configuration of the power interruption detection circuit (configured as a part of the reset circuit in the present embodiment) will be briefly described. The CPU 1000-a included in the main control board 1000 includes a ROM and a RAM, and the main control board 1000 is provided with a reset circuit 300. The power supplied from the power supply unit 290 is configured to be input to the main control board 1000 via the prize ball payout control board 3000. Under such a configuration, in this example, part of the power supplied from the power supply unit 290 is input to one input terminal of the reset circuit 300, and one output terminal of the reset circuit 300 and one of the CPU 1000-a. If the power (voltage) supplied from the power supply unit 290 falls below a predetermined value as a result of the connection with the input terminal (NMI terminal in this example), the reset circuit 300 detects the event. While the power interruption signal is output to the CPU 1000-a, the reset signal is output when the voltage further decreases (this signal is supplied to the reset terminal of each IC including the CPU). Note that the aspect of using the NMI terminal as the input terminal for the power interruption signal is merely an example, and it is possible to create a similar configuration (operation) using another input terminal included in the CPU 1000-a (this point). Will be described later). Similarly, by inputting a signal from a reset button (RAM clear button) provided on the power supply unit 290 to one input terminal of the CPU 1000-a (for example, an input port built in the CPU), The RAM contents are cleared when the reset button is operated. Although not shown, the prize ball payout control board 3000 is also provided on the power supply unit 290 when the power supplied from the power supply unit 290 falls below a predetermined value, similarly to the main control board 1000. When the reset button is operated, these signals may be input to the CPU so that the same processing can be executed.

  Next, a reset related part in the sub control board 2000 will be briefly described. In the present embodiment, the CPU 2320-a included in the sub main control unit 2320 includes a ROM and a RAM, and the CPU 2310-a included in the sub sub control unit 2310 includes a ROM and a RAM. In this embodiment, both control units are individually provided with a reset IC similar to the common main control board 1000 (of course, the reset IC can also be shared), and design reset conditions. It is configured to output a reset signal to the CPU when the power is turned on (for example, at the time of further voltage drop after power processing). By the way, when the gaming machine is operating in a game hall, only the CPU on the sub-control board 2000 side is reset due to an unexpected event (for example, an erroneous reset signal input due to electrostatic noise). This can happen. When such a situation occurs, the normal game progress process is continuously executed on the main control board 1000 side, while the subordinate control board 2000 side performs an effect control process (in accordance with the normal game progress process) ( As a result of shifting to the processing after reset instead of the image display processing), a discrepancy in appearance such as inconsistency between the two processings occurs. For example, in the process after resetting on the sub-control board 2000 side, if the sub-control board 2000 side is configured to notify unconditionally that the sub-control board 2000 side has been reset, the player is confused by the notification. As a result, the distrust of the gaming machine is raised, and as a result, there is a risk of developing a useless trouble between the player and the game hall operator. In order to avoid such a situation, it is important to investigate a factor when the sub-control board 2000 side is reset and to execute an appropriate process according to the factor. Therefore, in the present embodiment, a function that enables an appropriate process to be executed is mounted. This function will be described in detail after the description of the entire configuration.

  Next, various functions of the pachinko gaming machine according to the present embodiment will be described with reference to the block diagram of FIG. First, the main control device 1000 includes gaming peripheral devices (first main gaming peripheral device A, second main gaming peripheral device B, first and second main gaming shared peripheral device C, auxiliary gaming peripheral device D), A sub-main control unit 2320 (production display control unit 2320) related to the production is connected to a prize ball payout control device 3000 that performs payout control of a predetermined number of prize balls based on a payout instruction from the main control device 1000, so that information can be transmitted. ing. Further, the sub main control unit 2320 (effect display control means 2320) is electrically connected to the sub sub control unit 2310 (effect display means 2310) for executing image effects, various game effect lamps 190 (for example, side lamps), the speaker 114, and the like. It is connected. Further, the prize ball payout control device 3000 is electrically connected to a prize ball payout device including a stepping motor, a sprocket, and the like. The main control device 1000, the sub main control unit 2320 (effect display control means 2320), the sub sub control unit 2310 (effect display means 2310), the prize ball payout control device 3000, and the like store data and programs in hardware. ROM, RAM, and elements such as a CPU used for arithmetic processing. In the following description, each means included in the main controller 1000 may be configured to be mounted on a peripheral device (for example, the game peripheral device 2000). For example, each unit included in the peripheral device (for example, the game peripheral device 2000) may be configured to be mounted on the main controller 1000. The details of each means (device) will be described below.

  First, the main control device 1000 includes a game control means 1100 for controlling the main game (first main game, second main game, special game), auxiliary game, and general game, and various game information on the game peripheral device 2000 side. {For example, stop symbol information, stop symbol attribute information {for example, 15R big hit (with a ball), 2R big hit (without a ball), small hit, lost}, information on a change mode (for example, change time), special game Information transmission control means 1300 (and a command transmission buffer 1301 for accumulating unsent commands) for transmitting a start signal / status information / end signal, hold information, etc., and a prize for a game ball to various prize openings A prize ball payout determination means 1400 for controlling the prize ball payout control device 3000 so as to pay out a predetermined prize ball based on this, and a toggle state for managing a transmission state of a toggle signal to be described later And management means 1500 (and toggle state temporary storage means 1501 for temporarily storing the transmission status of the toggle signal), a has.

  Here, the game control means 1100 determines whether or not each random number can be acquired by determining whether or not each ball can be acquired, and whether or not the ball determination means 1110 determines whether the game ball flows into each ball entrance (starting port, etc.). Random number acquisition determination execution means 1120 for acquiring each random number, a hold control means 1130 for temporarily storing a ball entering each start port during a variable display as a hold ball within an upper limit number, and a first to be described later On the basis of each random number, a lottery means 1135 for lottery for determining whether the special game is successful or not and whether the second main game starting port electric accessory 2112 is open based on the main game side random number, the second main game side random number, and the auxiliary game side random number, Symbol content determination means 1140 for determining the stop symbol and variation mode (variation time, etc.) of each symbol, display control means 1150 for controlling the variation and stop display of each symbol, and the second main game start port 21 0 for controlling the opening / closing of the second main game start opening electric accessory 2112 and the special control for controlling the special game advantageous to the player over the normal game. With respect to the game control means 1170, the first main game, the second main game, and the auxiliary game, a determination as to which game state the current game state is to be transferred to, and a process for changing the game state based on the determination Specific game control means 1180 and current and past game states [for example, states related to the main game {normal game state, specific game state (probability variation game state, time-reduced game state, limited frequency game state), special game state}, State related to auxiliary games (easy-open state, non-easy-open state), stop symbol and variation mode information related to main game symbol and auxiliary game symbol, on / off status of various flags, special game Have the game state temporary storage means 1190 for temporarily storing the game state (eg, the number of rounds and the winning number information) or the like, the. Hereinafter, each means will be described in detail.

  First, the entrance determination means 1110 is directed to the first main game start entrance entrance determination means 1111 and the second main game start entrance 2110 that determine whether or not a game ball has entered the first main game start entrance 2210. Second main game start opening entrance determining means 1112 that determines whether or not a game ball has entered, and auxiliary game entrance entrance determination that determines whether or not a game ball has flowed into the auxiliary game start opening 2410 Means 1113.

  Next, the random number acquisition determination execution means 1120 determines whether or not to acquire the first main game side random number based on the game ball entering the first main game start port 2210, and according to the determination result, A first main game random number acquisition determination execution means 1121 for acquiring random numbers (for example, a first winning random number, a first variation mode determination random number, a first main game symbol determination random number, etc.) and a game to the second main game start port 2110 It is determined whether or not the second main game random number is acquired based on the incoming ball, and the random number (for example, the second winning random number, the second variation mode determining random number, the second main game symbol, etc.) according to the determination result A second main game random number acquisition determination execution unit 1122 for acquiring a determined random number, etc., and determining whether or not the auxiliary game side selection random number can be acquired, and executing an auxiliary game random number acquisition determination for acquiring the random number based on the determination result Means 1123.

  Here, the “random number” in the claims and the present specification including the above is, for example, “0” to “65535” or “random number” assigned according to the type of random number (for example, a winning random number or a variation mode determining random number). It is a value randomly selected from a predetermined range such as “0” to “255”. The random number may not be a mathematically generated random number, but may be a pseudo random number generated by a hardware random number, a software random number, or the like. For example, the expression method of each value in the random number is a method in which the value is expressed in order along the random number sequence (plus one method), the next value when the final value of the random number sequence is expressed (initial value) ) With a contingent value (initial value update method), a combination of these, and the like.

  Next, the hold control means 1130 determines whether or not to temporarily store the first main game random number acquired in a situation where the first main game symbol variation permission has not been given, and based on the determination result, the random number is determined. The first main game symbol holding means 1131 for holding in the first main game symbol hold information temporary storage means 1131a until the symbol change permission is lowered, and the second acquired in the situation where the second main game symbol change permission is not lowered. It is determined whether or not the main game side random number is temporarily stored, and based on the determination result, the second main game symbol for holding the random number in the second main game symbol hold information temporary storage means 1132a until the symbol variation permission is lowered. It is determined whether or not to temporarily store the holding game 1132 and the auxiliary game side random number acquired in a situation where the auxiliary game symbol variation permission has not been granted, and the random number is reduced based on the determination result. Up has an auxiliary game symbol hold means 1133 for holding the auxiliary game symbol reservation information temporary storage means 1133a, the. Here, the first main game symbol holding means 1131, the second main game symbol holding means 1132 and the auxiliary game symbol holding means 1133 can temporarily store up to four random numbers combined with the holding order. The first main game symbol hold information temporary storage means 1131a, the second main game symbol hold information temporary storage means 1132a, and the auxiliary game symbol hold information temporary storage means 1133a are provided.

  Next, the success / failure lottery means 1135 determines whether or not to win a special game if the result of the success / failure lottery is a win (for example, internally turns on the winning flag), and the success / failure lottery means 1135a. And a success / failure lottery table 1135b which is referred to when performing. Here, the success / failure lottery table 1135b performs the first main game success / failure lottery table 1135b-1 referred to when performing the success / failure lottery with respect to the first main game symbol and the second main game symbol with respect to success / failure lottery. And a second main game success / failure lottery table 1135b-3 referred to at the time. An example of a detailed table configuration will be described later.

  Next, the symbol content determination means 1140 determines the stop symbol and variation mode (variation time, etc.) of the first main game symbol based on the acquired game content determination random number (first main game random number). A second main game content determination unit 1142 that determines a stop pattern and a variation mode (variation time, etc.) of the second main game symbol based on the determination unit 1141 and the acquired game content determination random number (second main game random number); And auxiliary game content determination means 1143 for determining a stop symbol of the auxiliary game symbol based on the acquired auxiliary game symbol winning random number.

  Here, the first main game content determination means 1141 has a first main game content determination lottery table 1141a that is referred to when determining a stop symbol or a variation mode related to the first main game symbol, The first main game content determination lottery table 1141a includes various lottery tables that differ depending on the result of the success / failure and the gaming state (for example, with regard to the gaming state, the lottery table for the first main game normal gaming state, Probability change game → first main game probability change game state lottery table, time reduction game → first main game time reduction game state lottery table). The second main game content determination means 1142 has a second main game content determination lottery table 1142a that is referred to when determining a stop symbol or a variation mode related to the second main game symbol. The two main game content determination lottery table 1142a includes various lottery tables that differ depending on the result of the success / failure and the game state (for example, with regard to the game state, the lottery table for the second main game normal game state, the probability Floating game → second main game probability variable game state lottery table, time reduction game → second main game time reduction game state lottery table). An example of a detailed table configuration will be described later. Furthermore, the auxiliary game content determination means 1143 has an auxiliary game content determination lottery table 1143a that is referred to when determining a stop symbol related to the auxiliary game symbol, and the auxiliary game content determination lottery table 1143a includes: Various winning tables that differ depending on the game state are provided (normal game → auxiliary game normal lottery table, probability variation game and time shortening game → auxiliary game time shortening lottery table).

  Next, the display control means 1150 controls the first main game symbol display unit 2130 of the first main game symbol display device 2130 to stop and display after changing the first main game symbol for a predetermined time. On the game symbol control means 1151 and the second main game symbol display unit 2231 of the second main game symbol display device 2230, the second main game symbol is controlled to stop and display after changing the second main game symbol for a predetermined time. If random numbers are temporarily stored in the control means 1152, the first main game symbol hold information temporary storage means 1131a, and the second main game symbol hold information temporary storage means 1132a, the random number hold means temporarily Main game symbol hold release control means 1154 for determining whether to prioritize fluctuations in the main game symbol based on the stored random number, and the auxiliary game symbol display unit 242 of the auxiliary game symbol display device 2420 Above, and an auxiliary game symbol control means 1153 for performing the control for stopping the display after varying the predetermined time auxiliary game design.

  Here, the first main game symbol control means 1151 further includes first main game symbol change time management means 1151a for managing the change time according to the change mode determined by the first main game content determination means 1141. doing. The first main game symbol variation time management means 1151a further includes a first main game symbol variation management timer 1151a-1 (decrement counter) that can be cleared to zero. Next, the second main game symbol control means 1152 further has second main game symbol change time management means 1152a for managing the change time according to the change mode determined by the second main game content determination means 1142. doing. The second main game symbol variation time management means 1152a further includes a second main game symbol variation management timer 1152a-1 (decrement counter) that can be cleared to zero. Further, the auxiliary game symbol control means 1153 has auxiliary game symbol variation time management means 1153a for managing the variation time of the auxiliary game symbols on the auxiliary game symbol display unit 2421 of the auxiliary game symbol display device 2420. . The auxiliary game symbol variation time management means 1153a further includes an auxiliary game symbol variation management timer 1153a-1 capable of measuring time.

  Next, the electric accessory opening / closing control means 1160 includes a condition determining means 1161 for determining whether or not a condition for performing a process for opening and closing the electric accessory 2112 of the second main game starting port 2110 is satisfied. And an opening timer 1162 for measuring the driving (opening) time of the electric accessory 2112 in the second main game starting port 2110.

  Next, the special game control means 1170 determines whether or not the condition for shifting to the special game (big hit, small win) is satisfied, specifically, the big win or the small hit is won {special game ( When the condition determination means 1171 for determining whether or not an execution permission flag has been generated} and a special game transition condition are satisfied, the contents of the special game (specifically, an open state) A special game content determination means 1172 for setting a special prize-related information temporary storage means 1194 and a first grand prize prize port 2120 or a second big prize prize port 2220 in advance. Special game execution means 1173 for executing a special game (big hit, small hit) that is open under conditions, and time management of various processes related to the special game (for example, the first big prize opening 2120 and the second big prize And a special game time management means 1174 for opening and closing time) of the mouth 2220. Here, the special game time management means 1174 further includes a special game timer 1174a for managing the round time. The special game content determination unit 1172 further includes a special game content reference table 1172a that is referred to when specifying the content of the special game to be set in the special game related information temporary storage unit 1194 (table). Details are not shown).

  Next, the specific game control means 1180 has specific game end condition determination means 1181 for determining whether or not the end condition for the specific game state is satisfied. Here, the specific game end condition determining means 1181 further includes a time reduction counter 1181a capable of counting the time reduction. Here, the “specific game” means, for example, a probability variation game in which a lottery probability for a special game is higher than that in a normal game or a time shortening game in which the variation time of a main game symbol is relatively shorter than that in a normal game. Point to.

  Here, in the present embodiment, during the time reduction, the variation time of the first main game symbol and the second main game symbol is relatively shortened (time reduction function) as compared with the non-time reduction. Furthermore, the variation time of the auxiliary game symbol is also relatively shortened, and the opening extension time of the electric accessory 2112 of the second main game starting port 2110 is relatively extended (opening time extension function). In addition, the time reduction in this embodiment ends when the total value of the number of changes in the first main game symbol and the number of changes in the second main game symbol exceeds a predetermined number (excluding a probability change game with no time limit limitation). ). That is, the number of time reductions is configured to be subtracted every time the first main game symbol and the second main game symbol fluctuate (stop). The above-mentioned specific game end condition determining means 1181 has, for example, a function of performing a lottery transition from a specific game (for example, a probability-change game or a time-reduced game) to a normal game with a predetermined probability every time a symbol changes. Good (in the case of pachinko machines with a falling lottery function).

  Next, the game state temporary storage means 1190 is a first main game state temporary storage means for temporarily storing the current game state in the first main game (game from the change of the first main game symbol to the stop). 1191, second main game state temporary storage means 1192 for temporarily storing the current game state in the second main game (game from the change of the second main game symbol to the stop), and current in the auxiliary game Auxiliary game state temporary storage means 1193 for temporarily storing the game state and the current game state in the special game (for example, the number of rounds, the number of game balls won in any round, on / off of various flags related to the special game, etc.) Special game related information temporary storage means 1194 for temporary storage.

  Here, the first main game state temporary storage means 1191 is a first flag temporary storage means 1191a for temporarily storing ON / OFF information of various flags in various game states related to the first main game, and the first main game state that is currently changing. And a first main game symbol information temporary storage means 1191b for temporarily storing stop symbols and variation mode information related to the game symbols (first main game symbols satisfying the change start condition).

  The second main game state temporary storage means 1192 includes second flag temporary storage means 1192a for temporarily storing ON / OFF information of various flags in various game states related to the second main game, and the second main game that is currently changing. There is a second main game symbol information temporary storage means 1192b for temporarily storing the stop symbol and the variation mode information related to the symbol (second main game symbol for which the variation start condition is satisfied).

  The auxiliary game state temporary storage unit 1193 temporarily stores information related to the auxiliary game (for example, on / off information of various flags such as an auxiliary game symbol winning flag, a release extension flag, and a time reduction flag). It has storage means 1193a and auxiliary game symbol information temporary storage means 1193b for temporarily storing information such as stop symbols related to the currently changing auxiliary game symbols (auxiliary game symbols for which change start conditions are established). .

  Next, the gaming peripheral device 2000 will be described. Since some of the peripheral devices have already been described in detail, the remaining configuration will be briefly described. First, the game peripheral devices are a first main game peripheral device A that is a peripheral device on the first main game side, a second main game peripheral device B that is a peripheral device on the second main game side, and a first main game side. The first and second main game shared peripheral devices C, which are shared peripheral devices on the second main game side, the auxiliary game peripheral device D related to the auxiliary game, the sub main control unit 2320 (effect display control means 2320), Part 2310 (effect display device 2310) and the like. Here, the effects controlled by the sub-main control unit 2320 are included in the game results, including the variation of the decoration pattern in time synchronized with the variation of the first main game symbol and the second main game symbol. It concerns only the display of information that has no effect. Hereinafter, these peripheral devices will be described in order.

  First, the first main game peripheral device A includes a first main game start port 2210 that triggers the transition to a special game, and a first main game symbol display device 2130 that can display stop and change display of the first main game symbol. ,have.

  Next, the second main game peripheral device B has a second main game start port 2110 that triggers the transition to the special game, and a second main game symbol display device 2230 capable of displaying a stop and change display of the second main game symbol. And have.

  Next, the first / second main game shared peripheral device C is in a closed state during a normal game, and is opened under a predetermined condition during a special game. It has a second grand prize opening 2220 that is in a closed state during a game and is open under a predetermined condition during a special game.

  Next, the auxiliary game peripheral device D includes an auxiliary game start port 2410 that triggers the opening of the second main game start port electric accessory 2112 of the second main game start port 2110, and a stop display and change display of the auxiliary game symbols. And an auxiliary game symbol display device 2420 capable of supporting the above.

  Here, the effect display control means (sub-main control section) 2320, display information receiving means 2321 for receiving various information from the main control device 1000 side, decoration pattern variation mode and stop symbol determination processing and display Decoration design display control means 2322 for controlling the control process, equipment hold information display control means 2323 for managing the number of decoration symbols held and holding display processing, and production general information temporarily for temporarily storing information related to the production control. A storage unit 2324; a reset cause determination unit 2500 that identifies a factor that resets the CPU on the sub-main control unit 2320 side; and an information transmission / reception control unit 2400 that controls information transmission / reception with the sub-sub control unit 2310 side. ing. Hereafter, each said means is explained in full detail.

  First, the display information receiving means 2321 has main-side information temporary storage means 2321a for temporarily storing symbol information and display instruction information related to the first main game and the second main game from the main controller 1000 side. .

  Next, the decorative symbol display control means 2322 is based on the information from the main controller 1000 side, and the decorative symbol display content determining means 2322a for determining the stop symbol and the variation mode of the decorative symbol, and the decorative symbol display variation A drawing display related information temporary storage unit 2322c for temporarily storing various types of information (variation mode information, stop symbol information, various flags, etc.), and a diagram variation time management timer 2322d for measuring the variation time of the decorative symbols, ,have. Here, the drawing display content determination means 2322a has a drawing variation content determination lottery (reference) table 2322a-1 that is referred to when determining the stop symbol and variation mode of the decorative symbol. An example of a detailed table configuration will be described later.

  Next, the drawing hold information display control means 2323 has a drawing hold information temporary storage means 2323a for temporarily storing information related to the hold related to the decorative design.

  Next, the reset cause determination means 2500 is a reset cause determination time management timer 2501 that measures the elapsed time from the reset time in order to determine the presence / absence of a command from the main controller 1000 side, and a reset based on an illegal factor. Reset information temporary storage means 2502 for evacuating the status at the time of resetting, and toggle signal determination means 2503 for determining a reset factor based on a toggle signal to be described later from the main controller 1000 side. Have. Here, the toggle signal determination means 2503 includes a toggle signal determination time management timer 2503a for measuring an elapsed time for determining a change in the toggle signal from the main controller 1000 side, and a toggle signal from the main controller 1000 side. And toggle signal temporary storage means 2503b for temporarily storing the state.

  Next, the information transmission / reception control unit 2400 further includes a sub-command transmission buffer 2401 for buffering a transmission command to the sub-sub control unit 2310.

  Further, the effect display means (sub-sub control unit) 2310 is an image display control means for displaying an image on the decorative symbol display area 2311, the first hold display part 2312a, and the second hold display part 2312b which are display areas on the effect display device 2140. 2313 and sub information transmission / reception control means 2450 for controlling information transmission / reception with the sub main control unit 2320 side. Here, the image display control unit 2313 further includes an image display related information temporary storage unit 2313a for temporarily storing commands received from the sub main control unit 2320 side and information related to various image displays.

  The first main game symbol display device 2130, the second main game symbol display device 2230, and the auxiliary game symbol display device 2420 are connected to the main control device 1000 so as to be able to transmit information, and the remaining effect display means 2310 is an effect. The display control unit 2320 is connected to be able to transmit information. That is, the first main game symbol display device 2130, the second main game symbol display device 2230, and the auxiliary game symbol display device 2420 are controlled by the main control device 1000, and the effect display means 2310 is controlled by the effect display control means 2320. Means that. In addition, you may comprise so that another peripheral device may be controlled via the main controller 1000 and the other peripheral device controlled by one-way communication (one-way communication).

  First, FIG. 5 is a main flowchart showing a flow of general processing performed by the main controller 1000. After powering on the gaming machine, the process of FIG. That is, after the gaming machine is turned on and initialized (not shown), the main controller 1000 confirms the input port of the RAM clear button in step 3002, and resets the RAM (clear RAM) button of the power supply unit 290. Button) has been operated, that is, whether or not an operation of clearing the contents of the RAM has been performed intentionally by a game hall manager or the like. In the case of Yes in step 3002, in step 3004, main controller 1000 clears all the RAM contents (for example, information in gaming state temporary storage means 1190) on the main controller 1000 side. Next, in step 3006, the information transmission control means 1300 transmits ram clear information (command) indicating that the RAM of the main control board 1000 has been cleared to the sub main control unit 2320 side (even if it is transmitted at this timing). Alternatively, the command may be set at this timing and transmitted by the control command transmission process described later), and the process proceeds to step 3014. On the other hand, if No in step 3002, the main controller 1000 checks the contents of the RAM area in the main controller 1000 in step 3008 (for example, the checksum recorded at the time of power failure and the RAM area stored in the RAM area). Comparison with the amount of information). Next, at step 3010, main controller 1000 determines whether or not the contents of the RAM are normal based on the check result (whether or not the information at the time of power interruption has been backed up to RAM correctly). If YES in step 3010, that is, if the data backed up in the RAM is abnormal, the process proceeds to step 3004 (RAM clear process described above). On the other hand, if the data backed up in the RAM in Step 3010 is normal, that is, if the data backed up in the RAM is normal, in Step 3011, the main control device 1000 stores various backups stored (backed up) in the RAM in the main gaming device 1000. An information command is acquired, and in step 3012, the acquired various information commands are transmitted to the sub-main control unit 2320 side (the command may be transmitted at the timing, or the command is set at the timing and described later. It may be configured to transmit in the transmission process), and the process proceeds to step 3014. Next, at step 3014, the main controller 1000 executes an execution scheduled interrupt (for example, about every 1.5 ms as a hardware interrupt) related to the main process on the main controller 1000 side indicated by step 1000 in FIG. However, in this example, the interrupt cycle is set to T) (as a result, when the execution scheduled interrupt timing is reached, step 1000 in FIG. 11 is executed), and the process proceeds to step 3020. . After the transition to step 3020, main controller 1000 repeatedly executes various random number update processing (for example, random number counter increment processing) until the next scheduled interrupt timing is reached.

  Next, timer interrupt processing will be described. Main controller 1000 executes the process shown in FIG. 5B based on an interrupt request generated when the scheduled interrupt timing is reached. That is, triggered by the arrival of the scheduled interrupt period T (for example, a hardware interrupt about every 1.5 ms), in step 2000, main controller 1000 executes a toggle state switching process described later. Next, at step 1100, main controller 1000 executes an auxiliary game content determination random number acquisition process, which will be described later. Next, in step 1200, main controller 1000 executes an electric accessory driving determination process described later. Next, at step 1300, main controller 1000 executes a main game content determination random number acquisition process, which will be described later. Next, at step 1400, main controller 1000 executes a main game symbol display process described later. Next, at step 1500, main controller 1000 executes special game operating condition determination processing described later. Next, at step 1600, main controller 1000 executes a special game control process described later. Next, at step 1700, the main controller 1000 (especially the prize ball payout determining means 1400) determines the prize ball payout control process (drive control of the prize ball payout mechanism 210, etc.) based on the winning opening where the game ball has won. The payout control board 3000 is executed and processing for managing the result is performed. Next, at step 1800, main controller 1000 executes external signal output processing (output of information to external terminal board, hall computer H, etc.). Next, at step 1900, main controller 1000 executes a control command transmission process, which will be described later, and returns to the process executed immediately before the execution of this interrupt process.

  Next, NMI interrupt processing will be described. As described above, the main controller 1000 is configured such that the power interruption signal from the reset IC is input to the NMI terminal of the CPU, and the process of FIG. Is done. That is, when the gaming machine is powered off (NMI interrupt in this example), in step 3604, main controller 1000 sets power interruption information (for example, checksum) based on the information in the RAM area. Next, in step 3606, main controller 1000 prohibits writing to the RAM area, prohibits timer interrupt processing, and shifts to power-off waiting loop processing.

  Next, the toggle state switching process according to the subroutine of step 2000 in FIG. 5 will be described using the flowchart of the toggle state switching process in FIG. First, in step 2002, the toggle state switching unit 1500 refers to the toggle state temporary storage unit 1501 to determine whether or not the toggle switching flag is on (the initial state at the time of power-off recovery is on). . In the case of Yes in step 2002, in step 2004, the toggle state switching unit 1500 changes the toggle switching flag in the toggle state temporary storage unit 1501 to OFF, and proceeds to the processing in step 2006. On the other hand, in the case of No in step 2002, in step 2006, the toggle state switching unit 1500 changes the toggle switching flag in the toggle state temporary storage unit 1501 to ON and ends the toggle state switching process. {Transfer to next processing (auxiliary game content determination random number acquisition processing in step 1100)}. That is, with these processes, the toggle state flag is changed in a pulse shape for each timer interrupt process.

  Next, the auxiliary game content determination random number acquisition process according to the subroutine of step 1100 in FIG. 5 will be described using the flowchart of the auxiliary game content determination random number acquisition process in FIG. First, in Step 1102, the auxiliary game entrance entrance determination means 1113 determines whether or not a game ball enters (inflow, passes in the case of a gate) into the auxiliary game entrance 2410. In the case of Yes in step 1102, in step 1104, the auxiliary game random number acquisition determination execution means 1123 refers to the auxiliary game symbol hold information temporary storage means 1133a, and determines whether or not the number of hold balls is not the upper limit (for example, 4). . In the case of Yes in step 1104, in step 1106, the auxiliary game random number acquisition determination execution means 1123 acquires an auxiliary game content determination random number (for example, an auxiliary game symbol winning random number). Next, in step 1108, the auxiliary game symbol hold means 1133 adds 1 hold ball in the form of setting the random number in the auxiliary game symbol hold information temporary storage means 1133a together with information on what number of holds. Then, the process proceeds to the next process (the electric accessory drive determination process in step 1200). In addition, also when it is No in step 1102 and step 1104, it transfers to the following process (electric-powered article drive determination process of step 1200).

  Next, the electric accessory drive determination process according to the subroutine of step 1200 in FIG. 5 will be described using the flowchart of the electric accessory drive determination process in FIG. First, in step 1202, the electric accessory opening / closing control means 1160 refers to the auxiliary game related information temporary storage means 1193a to determine whether or not the electric accessory open flag is off. In the case of Yes in step 1202, in step 1204, the auxiliary game symbol control means 1153 refers to the auxiliary game related information temporary storage means 1193a and determines whether or not the auxiliary game symbol changing flag is off. In the case of Yes in step 1204, in step 1206, the auxiliary game content determination unit 1143 accesses the auxiliary game symbol hold information temporary storage unit 1133a and determines whether or not there is a hold ball related to the auxiliary game symbol. In the case of Yes in step 1206, in step 1216, the auxiliary game content determination unit 1143 refers to the auxiliary game state temporary storage unit 1193 to acquire the auxiliary game side game state (flag state of the auxiliary game short time flag), and Referring to the auxiliary game content determination lottery table 1143a, a stop symbol is determined based on the acquired auxiliary game side gaming state and the auxiliary game symbol random number based on the reserved ball (for example, when the auxiliary game short time flag is on) Is selected with a higher probability than in the case of being off) and temporarily stored in the auxiliary game symbol information temporary storage means 1193b. Next, in step 1218, the auxiliary game symbol variation time managing means 1153a stores the auxiliary game symbol variation management timer 1153a-1 in the auxiliary game symbol variation management timer 1153a-1 based on the game state on the auxiliary game side (flag state of the auxiliary game short time flag). A predetermined time (for example, 5 seconds when the auxiliary game short flag is on, and 30 seconds when the auxiliary game short flag is off) related to the variable time is set. In step 1220, the auxiliary game symbol control means 1153 turns on the auxiliary game symbol fluctuation flag in the auxiliary game related information temporary storage means 1193a. Next, in step 1222, the auxiliary game symbol holding means 1133 updates the hold information recorded in the auxiliary game symbol hold information temporary storage means 1133a after subtracting 1 from the reserved ball related to the auxiliary game symbol, and also assists. The game symbol control means 1153 starts the auxiliary game symbol variation management timer 1153 a-1, and then starts the auxiliary game symbol variation display on the auxiliary game symbol display unit 2421. Next, in step 1224, the auxiliary game symbol variation time management means 1153a refers to the auxiliary game symbol variation management timer 1153a-1, and determines whether or not a predetermined time related to the variation time of the auxiliary game symbol has been reached. To do. In the case of Yes in step 1224, in step 1226, the auxiliary game symbol control means 1153 refers to the auxiliary game symbol information temporary storage means 1193b, acquires the stop symbol of the auxiliary game symbol, and stops the acquired auxiliary game symbol. The symbol is fixedly displayed on the auxiliary game symbol display unit 2421. In step 1228, the auxiliary game symbol control means 1153 turns off the auxiliary game symbol fluctuation flag in the auxiliary game related information temporary storage means 1193a. Next, in step 1230, the condition determination means 1161 determines whether or not the stop symbol of the auxiliary game symbol is “winning”. In the case of Yes in Step 1230, in Step 1232, the electric accessory opening / closing control means 1160 relates to the opening time of the electric accessory in the opening timer 1162 based on the auxiliary gaming side gaming state (the flag state of the auxiliary gaming short time flag). A predetermined time (for example, 5 seconds when the auxiliary game short flag is on, and 0.5 seconds when the auxiliary game short flag is off) is set. Next, in step 1234, the electric accessory opening / closing control means 1160 turns on the electric accessory open flag in the auxiliary game related information temporary storage means 1193a. In step 1236, the electric accessory opening / closing control means 1160 opens the electric accessory 2112 of the second main game starting port 2110. Next, at step 1238, the electric accessory opening / closing control means 1160 refers to the release timer 1162, and determines whether or not a predetermined time related to the opening time of the electric accessory has been reached. In the case of Yes in step 1238, in step 1240 and step 1242, the electric accessory opening / closing control means 1160 closes the electric accessory 2112 of the second main game starting port 2110, and in the auxiliary game related information temporary storage means 1193a. The electric-operated article releasing flag is turned off, and the process proceeds to the next process (main game content determination random number acquisition process in step 1300).

  If NO in step 1202, the process proceeds to step 1238. If NO in step 1204, the process proceeds to step 1224. If NO in step 1206, step 1224, step 1230, and step 1238, the next process is performed. The process proceeds to (main game content determination random number acquisition process in step 1300).

  Further, in this flowchart, for the sake of convenience, after the stop symbol is displayed in step 1226, the process proceeds to the next step immediately, but the present invention is not limited to this. In that case, it may be configured to move to the next processing after a fixed stop display time of about 500 ms (for example, this processing is performed by performing branch processing using a stop display fixing flag and a timer). Achievable).

  Next, the main game content determination random number acquisition process according to the subroutine of step 1300 in FIG. 5 will be described using the flowchart of the main game content determination random number acquisition process in FIG. First, in step 1302, whether or not the first main game start port entrance determining means 1111 has received the first main game start port entrance information from the first entrance detection device 2211 of the first main game start port 2210. Determine. In the case of Yes in step 1302, in step 1304, the first main game random number acquisition determination execution means 1121 refers to the first main game symbol hold information temporary storage means 1131a and holds on the main game (especially the first main game side). It is determined whether or not the number of spheres is not the upper limit (for example, four). In the case of Yes in step 1304, in step 1306, the first main game random number acquisition determination execution means 1121 acquires the first main game content determination random number. In the present embodiment, as the first main game content determination random number, the winning lottery random number for determining the success / failure, the symbol lottery random number for determining the winning symbol, and the variation pattern (variation time) of the special symbol are determined. The three random numbers of the variation mode lottery random numbers to acquire are acquired. Incidentally, these three random numbers are generated from random number generation means having different update periods and random number ranges, and are sequentially acquired at this timing. Next, in step 1312, the first main game symbol holding means 1131 stores the first main game content determination random number in the first main game symbol hold information temporary storage means 1131a. Next, in step 1313, the information transmission control means 1300 sets information (holding occurrence command) indicating that the first main game random number has been acquired in the command transmission buffer 1301 for transmitting to the sub main control unit 2320. To do. Next, in step 1314, whether or not the second main game start port entrance determining means 1112 has received the second main game start port entrance information from the second entrance detection device 2111 of the second main game start port 2110. Determine whether. In the case of Yes in step 1314, in step 1316, the second main game random number acquisition determination execution means 1122 refers to the second main game symbol hold information temporary storage means 1132a and holds on the main game (especially the second main game side). It is determined whether or not the number of spheres is not the upper limit (for example, four). In the case of Yes in step 1316, in step 1318, the second main game random number acquisition determination execution means 1122 acquires the second main game content determination random number. In the present embodiment, as the second main game content determination random number, three random numbers of the success / failure lottery random number, the symbol lottery random number, and the variation mode lottery random number are acquired as in the first main game content determination means. Incidentally, the acquisition range of each random number of the first main game content determination random number and the acquisition range of each random number of the second main game content determination random number (for example, the first lottery random number for the first main game and the right lottery random number for the second main game) Are set to the same range. Next, in step 1324, the second main game symbol hold means 1132 stores the second main game content determination random number in the second main game symbol hold information temporary storage means 1132a. Next, in step 1325, the information transmission control unit 1300 sets information indicating that the second main game random number has been acquired (pending occurrence command) in the command transmission buffer 1301 for transmitting to the sub-main control unit 2320. Then, the process proceeds to the next process (main game symbol display process in step 1400). In the case of No in step 1302 and step 1304, the process proceeds to step 1314, and in the case of No in step 1314 and step 1316, the process proceeds to the next process (main game symbol display process in step 1400).

  In the present embodiment, information indicating that a random number has been acquired is transmitted as information to be transmitted to the sub-main control unit 2320 in steps 1313 and 1325. The number of reservations may be attached and transmitted, and the information indicating that a random number has been acquired can be substituted by these pieces of information.

  Next, the main game symbol display process according to the subroutine of step 1400 in FIG. 5 will be described using the flowchart of the main game symbol display process in FIG. First, in step 1401, the main game symbol hold release control means 1154 refers to the second main game symbol hold information temporary storage means 1132a, and confirms whether there is no hold of the second main game symbol. In the case of Yes in step 1401, in step 1400 (1), main controller 1000 executes a first main game symbol display process described later, and proceeds to the next process (special game operation condition determination process in step 1500). . On the other hand, in the case of No in step 1401, in step 1400 (2), main controller 1000 executes a second main game symbol display process described later and proceeds to the next process (special game operation condition determination process in step 1500). Transition. Thus, in the present embodiment, when there is a holding ball of the second main game symbol, regardless of the presence of the holding ball of the first main game symbol (even if the winning order is the holding of the first main game symbol) However, this is not limited to this, but it is not limited to this (the pending digest based on the winning order and both main game symbols are simultaneously executed in parallel). It may be configured to execute a parallel lottery for lottery.

  Next, regarding the first main game symbol display process (second main game symbol display process) according to the subroutine of step 1400 (1) {step 1400 (2)} in FIG. 10, the first main game symbol display of FIG. The process (second main game symbol display process) will be described with reference to a flowchart. In addition, since this process is substantially the same process on the first main game symbol side and the second main game symbol side, the first main game symbol side will be mainly described, and the processing on the second main game symbol side will be described. Use parentheses. First, in step 1402, the first main game content determination means 1141 (second main game content determination means 1142) determines whether or not a change start condition is satisfied. Here, the condition for starting the change is that the special game or the design is not changing.

  Next, in step 1414, the first main game content determination means 1141 (second main game content determination means 1142) is a first main game symbol hold information temporary storage means 1131a (second main game symbol hold information temporary storage means 1132a. ), The first main game content determination random number (second main game content determination random number) related to the current symbol variation is read, and the first main game symbol hold information temporary storage means 1131a (second main game symbol) is read. The information is deleted from the hold information temporary storage means 1132a) and the remaining information temporarily stored is shifted (holding digestion process). Next, at step 1403, the winning / not determining lottery means 1135 refers to the first main game winning / not determining lottery table 1135b-1 (second main gaming notifying lottery table 1135b-3) corresponding to each gaming state, and the first main Based on the game content determination random number (second main game content determination random number) (particularly, the winning lottery random number), the main game symbol determination (big hit or small win in this example) is executed.

  Here, FIG. 12 (main game table 1) is an example of a first main game success / failure lottery table 1135b-1 (second main game success / failure lottery table 1135b-3). As shown in this example, in this embodiment, the jackpot winning probability in the probability varying gaming state is configured to be higher than the jackpot winning probability in the non-stochastic varying gaming state. In addition, the first main game side is configured so that a small hit, which is a win where the game state cannot change before and after the execution of the special game, can be won. Note that the winning probability is merely an example, and is not limited to this. Also, the lottery method for the big hit and the small hit is not particularly limited, the lottery for the big hit and the small hit may be executed with the same lottery table, or the big hit lottery is executed with reference to the big hit lottery table first, If the big hit lottery is off, the small hit lottery may be executed with reference to the small hit lottery table. Further, the small hitting lottery may be executed by referring to the small hitting lottery table first, and the big hitting lottery may be executed even when the small hitting lottery is deviated or hit.

  Returning to the description of the flowchart, next, in step 1417, the special game transition determining means 1135a determines whether or not the winning lottery result of the main game symbol is successful. In the case of Yes in step 1417, in step 1418, the special game transition determining unit 1135a turns on the “hit flag” in the first flag temporary storage unit 1191a (second flag temporary storage unit 1192a). On the other hand, if step 1417 is No, step 1418 is skipped.

  Next, in Step 1416-1, the first main game content determination means 1141 (second main game content determination means 1142) is a first main game content determination lottery table 1141a (second main game content determination lottery table 1142a). ) To determine the stop symbol for the main game symbol based on the main game symbol determination lottery result and the first main game content determination random number (second main game content determination random number) (particularly, the symbol lottery random number), The first main game symbol information temporary storage means 1191b (second main game symbol information temporary storage means 1192b) is temporarily stored.

  Here, FIG. 12 (main game table 2) is an example of the first main game content determination lottery table 1141a (second main game content determination lottery table 1142a) (particularly, an example of the stop symbol determination table). . As shown in this example, in this embodiment, when a big hit is won, a plurality of main game symbol candidates (in this example, “1A, 3A, 7A” and “ 1B, 3B, 7B "), one main game symbol is determined as a jackpot symbol. Here, as will be described later, the jackpot symbol “1A, 1B” is a mode in which the game does not shift to the probability variation gaming state after execution of the special game related to the jackpot symbol (hereinafter referred to as “non-probability variable jackpot”). On the other hand, the jackpot symbol “3A, 3B, 7A, 7B” is a mode in which, as will be described later, after the special game related to the jackpot symbol is executed, the game proceeds to the probability variation gaming state (hereinafter, probable change). Sometimes called jackpot).

  Next, in step 1416-2, the first main game content determination unit 1141 (second main game content determination unit 1142) determines whether or not the limited frequency flag in the game state temporary storage unit 1190 is off. . Here, the limited frequency flag is, as will be described later, the main game symbol is a specific symbol (in this example, the specific lose symbol “S” that is selected at the time of loss is a symbol that is selected at the time of winning, The flag is turned on until the predetermined number of symbol fluctuations are completed after the stop display. In the case of Yes in step 1416-2, in step 1416-3, the first main game content determination unit 1141 (second main game content determination unit 1142) determines the first main game content determination lottery table corresponding to each game state. Referring to 1141a (second main game content determination lottery table 1142a), based on the main game symbol determination lottery result and the first main game content determination random number (first main game content determination random number) (particularly, the variation mode lottery random number) The main game symbol variation mode is determined, and these are temporarily stored in the first main game symbol information temporary storage means 1191b (second main game symbol information temporary storage means 1192b), and the process proceeds to step 1419. On the other hand, in the case of No in step 1416-2, in step 1416-4, the first main game content determination unit 1141 (second main game content determination unit 1142) has a predetermined variation time value (as a variation mode of the main game symbol ( For example, “specific variation mode SP” which is 10 seconds) is determined, and these are temporarily stored in the first main game symbol information temporary storage unit 1191b (second main game symbol information temporary storage unit 1192b), and the process proceeds to step 1419. Transition.

  Here, FIG. 12 (main game table 3) is an example of a first main game content determination lottery table 1141a (second main game content determination lottery table 1142a) (particularly, an example of a variation mode determination table). . As shown in this example, the present embodiment is configured such that the variation mode (variation time) of the main game symbol is determined based on the main game symbol winning / losing lottery result and the main game short time flag state. In other words, when the main game symbol winning / losing lottery result is a win, it is easy to determine a variation mode in which the variation time is relatively long, and when the main game short-time flag is off (relative to the short-time game state) The variation mode in which the variation time is short is easily determined. This example is merely an example, and is not limited to the type of stop symbol, the selection rate, or the like. Further, in the present embodiment, for convenience of explanation, it is not configured to have a different table according to the number of reserved balls, but needless to say, it may be configured to have a different table according to the number of reserved balls. Absent.

  Next, in step 1419, the information transmission control unit 1300 performs a command (stop symbol) related to the main game symbol temporarily stored in the first main game symbol information temporary storage unit 1191b (second main game symbol information temporary storage unit 1192b). Information, stop symbol attribute information, variation mode information, etc.) and a command related to the current gaming state (symbol variation display start instruction command) are set in the command transmission buffer 1301 for transmitting to the sub-main control unit 2320 side. . Next, in step 1420, the first main game symbol variation time management means 1151a (second main game symbol variation time management means 1152a) uses a predetermined time related to the variation time of the main game symbol for the first main game symbol variation management. The timer 1151a-1 (second main game symbol variation management timer 1152a-1) is set. Then, in step 1422, the first main game symbol control means 1151 (second main game symbol control means 1152) is the first main game symbol of the first main game symbol display device 2130 (second main game symbol display device 2230). On the display unit 2131 (second main game symbol display unit 2231), in accordance with the variation mode stored in the first main game symbol information temporary storage unit 1191b (second main game symbol information temporary storage unit 1192b), Start the variable display. Next, in step 1446, the first main game symbol control means 1151 (second main game symbol control means 1152) turns on the changing flag in the first flag temporary storage means 1191a (second flag temporary storage means 1192a). To do. In step 1434, the first main game symbol variation time management means 1151a (second main game symbol variation time management means 1152a) determines whether or not a predetermined time related to the variation time of the main game symbol has been reached. In the case of Yes in step 1434, in step 1437, the information transmission control unit 1300 transmits a command transmission symbol (symbol confirmation display instruction command) to the sub-main control unit 2320 side to the effect that the symbol variation ends. Set to 1301. Next, in step 1438, the first main game symbol control means 1151 (second main game symbol control means 1152) makes the first main game of the first main game symbol display device 2130 (second main game symbol display device 2230). The variable display of the main game symbol on the symbol display unit 2131 (second main game symbol display unit 2231) is stopped, and the first main game symbol information temporary storage unit 1191b (second main game symbol information temporary storage unit 1192b) is stopped. The stored stop symbol is displayed and controlled as a fixed stop symbol. Next, in step 1440, the first main game symbol control means 1151 (second main game symbol control means 1152) turns off the changing flag in the first flag temporary storage means 1191a (second flag temporary storage means 1192a). To. In step 1442, the first main game symbol variation time management means 1151a (second main game symbol variation time management means 1152a) first timer game variation management timer 1151a-1 (second main game symbol variation management). Timer 1152a-1) is reset.

  Next, in step 1448-1, the first main game symbol control means 1151 (second main game symbol control means 1152) determines whether or not the limited frequency flag in the game state temporary storage means 1190 is OFF. . In the case of Yes in step 1448-1, in step 1448-2, the first main game symbol control means 1151 (second main game symbol control means 1152), the first main game symbol information temporary storage means 1191b (second main game). With reference to the symbol information temporary storage means 1192b), it is determined whether or not the symbol variation stop symbol is a specific symbol (in this example, the specific lose symbol “S”). In the case of Yes in step 1448-2, in step 1448-3, the first main game symbol control means 1151 (second main game symbol control means 1152) turns on the limited frequency flag in the game state temporary storage means 1190, Control goes to step 1450. On the other hand, in the case of No in step 1448-1, the first main game symbol control means 1151 (second main game symbol control means 1152) is predetermined after the limited frequency flag is turned on in step 1448-4. It is determined whether or not the number of times (for example, 10 times) symbol variation has ended. In the case of Yes in step 1448-4, in step 1448-5, the first main game symbol control means 1151 (second main game symbol control means 1152) turns off the limited frequency flag in the game state temporary storage means 1190, Control goes to step 1450.

  Next, in step 1450, main controller 1000 executes a specific game end determination process, which will be described later, and proceeds to the next process (special game operation condition determination process in step 1500). In the case of No in step 1434 or step 1448-4, the process proceeds to the next process (special game operation condition determination process in step 1500).

  In the case of No in step 1402, in step 1444, the first main game symbol control means 1151 (second main game symbol control means 1152), the first flag temporary storage means 1191a (second flag temporary storage means 1192a). ), It is determined whether or not the changing flag is ON. If Yes in Step 1444, the process proceeds to Step 1434, and if No in Step 1444, the process proceeds to the next process (special game operation condition determination process in Step 1500).

  Next, the specific game end determination according to the subroutine of step 1450 in FIG. 11 will be described using the flowchart of the specific game end determination in FIG. First, in step 1452, the specific game control means 1180 refers to the time / count counter 1181a to determine whether or not the time / count counter value is greater than zero. In the case of Yes in step 1452, in step 1454, the specific game control means 1180 subtracts 1 from the time-count counter value of the time-count counter 1181a. Next, in step 1456, the specific game control means 1180 refers to the time reduction counter 1181a and determines whether or not the time reduction is zero. In the case of Yes in step 1456, in step 1460, the specific game control means 1180 turns off the main game short time flag in the first flag temporary storage means 1191a and the main game short time flag in the second flag temporary storage means 1192a. Next, in step 1462, the specific game control means 1180 turns off the auxiliary game short time flag in the game state temporary storage means 1190, and proceeds to the next process (special game operation condition determination process in step 1500). In addition, also when it is No in step 1452 and step 1456, it transfers to the following process (special game operation condition determination process of step 1500).

  Next, the special game operation condition determination process according to the subroutine of step 1500 in FIG. 5 will be described using the flowchart of the special game operation condition determination process in FIG. First, in step 1502, the condition determination means 1171 is on the first main game symbol display unit 2131 (second main game symbol display unit 2231) of the first main game symbol display device 2130 (second main game symbol display device 2230). It is determined whether or not the main game symbol displayed on is stopped. In the case of Yes in step 1502, in step 1504, the condition determining unit 1171 refers to the first flag temporary storage unit 1191a (second flag temporary storage unit 1192a) and determines whether or not the hit flag is on. In the case of Yes in step 1504, in step 1505, the special game content determination means 1172 refers to the special game content reference table 1172a on the basis of the predetermined mode, thereby corresponding to the content of the special game (for example, corresponding to the winning symbol). The maximum number of rounds and the opening / closing mode of the big prize opening in each round) are set in the special game related information temporary storage means 1194.

  Returning to the description of the flowchart, next, in step 1510, the specific game end condition determining means 1181 determines whether or not the stop symbol at the start of the special game is a small hit symbol (in this example, “SA” symbol). judge. In the case of Yes in step 1510, in steps 1552 and 1554, the specific game control unit 1180 determines that the specific game flag (main game probability change flag / main game short time) in the first flag temporary storage unit 1191a and the second flag temporary storage unit 1192a. The flag / auxiliary game short time flag) is once turned off, and the short time counter 1181a is reset (short time counter value = 0). Then, in step 1506 and step 1508, the condition determination means 1171 turns on the special game transition permission flag in the special game related information temporary storage means 1194, and the first flag temporary storage means 1191a (second flag temporary storage means). The winning flag in 1192a) is turned off, and the process proceeds to the next process (special game control process in step 1600). It should be noted that, even in the case of No in step 1502 and step 1504, the process proceeds to the next process (special game control process in step 1600).

  Next, the special game control process according to the subroutine of step 1600 in FIG. 5 will be described using the flowchart of the special game control process in FIG. First, in step 1602, the special game execution means 1173 refers to the special game related information temporary storage means 1194, and determines whether or not the special game transition permission flag is on. In the case of Yes in step 1602, in step 1604 and step 1606, the special game execution means 1173 turns off the special game transition permission flag in the special game related information temporary storage means 1194 and turns on the special game execution flag. Next, in step 1608, the information transmission control means 1300 sets information (special game start display instruction command) to start the special game in the command transmission buffer 1301 for transmitting to the sub-main control unit side. , Step 1612 is entered. On the other hand, in the case of No in step 1602, in step 1610, the special game execution means 1173 refers to the special game related information temporary storage means 1194 and determines whether or not the special game execution flag is on. If YES in step 1610, the process proceeds to step 1612. In the case of No in step 1610, the special game execution means 1173 determines that the special game permission is not granted, and proceeds to the next process (award ball payout process in step 1700).

  Next, in step 1612, the special game executing means 1173 refers to the special game related information temporary storage means 1194, and whether or not the round continuation flag is on, in other words, whether or not the round is in the middle. Determine. If Yes in step 1612, that is, if the round is in the middle, the process proceeds to step 1626 without performing the processes in steps 1614 to 1624 described in detail below. On the other hand, in the case of No in step 1612, that is, immediately before the start of the round, first, in step 1614, the special game execution unit 1173 sets the release pattern (for example, release) set in the special game related information temporary storage unit 1194. Set the opening pattern to continue and the pattern to open and close. Next, in step 1616, the special game executing means 1173 clears the winning ball counter in the special game related information temporary storage means 1194 to zero. Next, in step 1618, the special game executing means 1173 adds 1 to the round number counter in the special game related information temporary storage means 1194. Note that the number of rounds stored in the special game related information temporary storage unit 1194 is 0 immediately after the start of the special game (initial value), and is incremented by 1 each time a round is repeated thereafter. Next, in step 1620, the special game executing means 1173 turns on the round continuation flag in the special game related information temporary storage means 1194. In step 1622, the special game executing means 1173 drives the first electric combination 2122 of the first big prize opening 2120 or the second electric combination 2222 of the second big prize opening 2220 to drive the first big prize opening 2120. Alternatively, the second grand prize opening 2220 is opened, and a predetermined time (for example, 30 seconds) is set in the special game timer 1174a (particularly, the opening time timer). Next, in step 1624, the information transmission control means 1300 transmits a gaming state command (for example, the current number of rounds, number of winning game balls, etc.) related to the current special game to the sub-main control unit 2320 side. The command transmission buffer 1301 is set, and the process proceeds to step 1626.

  Next, in step 1626, the special game executing means 1173 refers to the special game related information temporary storage means 1194 to determine whether or not there are predetermined balls (for example, 10 balls) in the round. If Yes in step 1626, the process proceeds to step 1630. On the other hand, in the case of No in step 1626, in step 1628, the special game executing means 1173 refers to the special game timer 1174a (particularly, the open time timer) to determine whether or not a predetermined time for opening the big prize opening has elapsed. judge. Also in the case of Yes in step 1628, the process proceeds to step 1630, and in the case of No in step 1628, the process proceeds to the next process (prize ball payout process in step 1700).

  Next, in step 1630, the special game executing means 1173 stops driving the first electric combination 2122 of the first big prize opening 2120 or the second electric combination 2222 of the second big prize opening 2220, and the first big The winning opening 2120 or the second major winning opening 2220 is closed. In step 1632, the special game executing means 1173 resets a special game timer 1174a (particularly, an opening time timer). Next, in step 1634, the special game executing means 1173 turns off the round continuation flag in the special game related information temporary storage means 1194. Next, in step 1636, the special game execution means 1173 refers to the special game related information temporary storage means 1194, and the round is the final round (for example, the 15th round if the probability fluctuation big hit and the time shortening fluctuation big hit, It is determined whether or not it is the second round in the case of sudden probability fluctuation big hit. In the case of Yes in step 1636, in step 1638, the special game execution means 1173 turns off the special game execution flag in the special game related information temporary storage means 1194. Next, at step 1640, the information transmission control means 1300 sets information (special game end display instruction command) to end the special game in the command transmission buffer 1301 for transmitting to the sub main control unit 2320 side. To do. In step 9000, the game control unit 1100 executes a game state determination process after the end of the special game, which will be described later, and proceeds to the next process (a prize ball payout process in step 1700). Even in the case of No in step 1636, the process proceeds to the next process (prize ball payout process in step 1700).

  Next, the game state determination process after the end of the special game according to the subroutine of step 9000 in FIG. 15 will be described using the flowchart of the game state determination process after the end of the special game in FIG. First, in step 9002, the specific game control unit 1180 refers to the first main game / second main game symbol related information temporary storage unit 1191a and confirms the stop symbol at the start of the special game. Next, in step 9010, the specific game control means 1180 determines whether or not the stop symbol at the start of the special game is not a small hit symbol (“SA” in this example) based on the confirmation result. In the case of Yes in step 9010, in step 9012, the specific game control means 1180 determines that the stop symbol at the start of the special game is a probable big hit symbol (in this example, “3A, 3B, 7A, 7B”) based on the confirmation result. ). In the case of Yes in step 9012, in step 9014, the specific game control means 1180 turns on the main game probability change flag in the main game side game state temporary storage means 1191b, and proceeds to step 9020. On the other hand, if NO in step 9012, the process proceeds to step 9020. Next, in step 9020, the specific game control means 1180 determines that the stop symbol at the start of the special game is a latent probability variable big hit symbol (a big hit that does not shift to a time-reduced game state while shifting to a probability variation game state) based on the confirmation result. It is determined whether or not the symbol is “3A” in this example. In the case of Yes in step 9020, the processing of step 9022 to step 9026 (processing to shift to the time saving game described later) is not executed, and the process returns to the calling source of this subroutine. On the other hand, in the case of No in step 9020, in step 9022, the specific game control means 1180 sets a predetermined value (100 in this example) to the counter value of the main game short time counter 1181b. Next, in step 9024, the specific game control means 1180 turns on the main game short time flag in the main game side game state temporary storage means 1191b. Next, in step 9026, the specific game control means 1180 turns on the auxiliary game short time flag of the auxiliary game side game state temporary storage means 1192b and returns to the caller of this subroutine. Even in the case of No in step 9010, the process returns to the caller of this subroutine.

  Next, the control command transmission process related to the subroutine of step 1900 in FIG. 5 will be described using the flowchart of the control command transmission process in FIG. First, in step 1902, the information transmission control unit 1300 refers to the toggle state temporary storage unit 1501 and determines whether the toggle switch flag is on. If YES in step 1902, in step 1904, the information transmission control unit 1300 transmits an “ON” toggle signal to the sub-main control unit 2320 side, and the process proceeds to step 1908. On the other hand, in the case of No in step 1902, in step 1906, the information transmission control unit 1300 transmits an “OFF” toggle signal to the sub-main control unit 2320 side, and the process proceeds to step 1908. In step 1908, the information transmission control unit 1300 refers to the command transmission buffer 1301 and confirms the set command. Next, in step 1912, the information transmission control unit 1300 transmits the command set in the command transmission buffer 1301 to the sub-main control unit 2320 (at the same time, deletes the transmitted command from the command transmission buffer 1301. ), Return to the caller of this subroutine. Note that the order of command transmission and toggle signal transmission may be interchanged as shown in FIG.

  Here, the operation in the case of such a configuration is shown in FIG. First, when the main controller 1000 and the sub main controller 2320 are connected by parallel communication, both are connected by a plurality of data signal lines. More specifically, for example, in the case of 8-bit parallel communication, eight data signal lines of data signal line 1 to data signal line 8 and a strobe (STB) signal line for transmitting data transmission timing. And realized by. Here, for example, when the above-described signal line for transmitting a toggle signal (toggle signal line) is provided separately from these signal lines, the signal line is provided for each interrupt cycle T on the main controller 1000 side. This signal is transmitted to the sub-main control unit 2320 as a signal that repeats ON → OFF → ON. Note that this example is merely an example, and the presence / absence of a toggle signal line and the communication method are not limited at all. For example, in this embodiment, the main control board 1000 and the sub-main control unit 2320 perform parallel communication, and a toggle signal line for transmitting a toggle signal is provided separately from the data signal line. May be shared with the toggle signal line. In this case, when the STB signal line is on (when the data transmission timing is reached), data is transmitted to the shared signal line. If the STB signal is off, the toggle signal may be configured to flow through the shared signal line. Further, when the main control board 1000 and the sub main control unit 2320 are performing serial communication, a toggle signal may be transmitted to the data signal line as shown in FIG. In this case as well, when the STB signal is off, a toggle signal may be configured to flow through the shared signal line. As shown in FIG. 5E, when the STB signal line is not provided, the data transmission timing is specified by a start bit and an end bit that are a predetermined signal sequence. Similarly, by determining a signal string representing a toggle signal in advance, it is possible to cause the toggle signal to flow through the data signal line even when the STB signal line is not provided.

  Next, with reference to FIGS. 18 to 26, control processing executed on the sub-main control unit 2320 side will be described. First, FIG. 18 is a main flowchart on the sub-control board 2000 side (particularly on the sub-main control unit 2320 side) in the pachinko gaming machine according to the present embodiment. Here, the process of FIG. 9A is an initial process on the sub-board side that is executed after resetting, such as when the game machine is powered on. That is, at the time of powering on the gaming machine, in step 4500, the sub-main control unit 2320 executes a reset cause determination process described later, and thereafter repeatedly executes step 5000, which is a repetitive processing routine of the sub-main control unit 2320. Move to loop processing. Here, when Step 5000 is executed, as shown in the process of FIG. 5B, first, in Step 5600, the effect display control means 2320 executes a hold information management process described later. Next, in step 5700, the effect display control means 2320 executes a decorative symbol display content determination process described later. Next, in step 5800, the effect display control means 2320 executes a decorative symbol display control process to be described later. Next, in step 6000, the effect display control means 2320 executes a special game display control process to be described later. Next, in step 7000, the effect display control means 2320 executes a display command transmission control process to be described later, and ends this repeat processing routine.

  As described above, the sub-main control unit adopts a form in which the sub-main side routines (S5000 to S7000) are loop-processed after reset and after execution of the reset cause determination process (S4500). Also, the process of FIG. 7C is an interrupt process of the sub main control unit 2320, and the signal from the STB signal line of the main control board 1000 described above is one terminal (in this example) of the CPU of the sub main control unit 2320. , NMI terminal) is a processing flow (step 4700). That is, when an NMI interrupt occurs in the CPU of the sub main control unit 2320 (when the STB signal line is turned on), in step 4800, the sub main control unit 2320 displays the command input port (from the main controller 1000 side). Check the data signal line input port). In step 4900, based on the confirmation result, the sub-main control unit 2320 is transmitted from the main control device 1000 side to the RAM on the sub-main control unit 2320 side (main-side information temporary storage unit 2321a in this example). The command is temporarily stored, and the process that was being executed immediately before this interrupt process is restored.

  Next, reset cause determination processing according to the subroutine of step 4500 in FIG. 18 will be described using the flowchart of reset cause determination processing in FIG. First, in step 4502, the reset cause determination unit 2500 starts the reset cause determination time management timer 2501. Next, in step 4504, the reset cause determination means 2500 refers to the reset cause determination time management timer 2501, and a predetermined time Ta related to the reset cause determination time (in this embodiment, the gaming machine is powered on). After that, based on the longest time required for the main control board 1000 to transmit a command to the sub-control board 2000 and the shortest time required for the sub-control board 2000 to perform the power interruption recovery process, the main control board 1000 always sends a command from the main control board 1000. Is set to 1 second, and it is determined whether or not the time has been reached. If YES in step 4504, that is, if the reset cause determination time management timer 2501 has not elapsed Ta time, in step 4506, the reset cause determination means 2500 refers to the main side information temporary storage means 2321a and the main controller 1000 side It is determined whether or not RAM clear information has been received from. If YES in step 4506, that is, RAM clear information is received, in step 4508, the reset cause determination unit 2500 determines that the reset cause of the sub-main control unit 2320 is power-on (normal reset) with RAM clear. . Next, in step 4509, the reset cause determination unit 2500 resets the RAM information (for example, each flag state and selected drawing information) of the sub-main control unit 2320. Next, in step 4510, the reset cause determination unit 2500 resets the reset information temporary storage unit 2502 used in steps 4514 to 4515 described later, and proceeds to the processing of step 4511.

  On the other hand, if step 4506 is No, that is, if the RAM clear information is not received from the main side, the reset cause determination means 2500 refers to the main side information temporary storage means 2321a in step 4520 and the main controller 1000 side It is determined whether or not various information commands before power-off (for example, a command indicating that the main side is also powered off and returned from power-off) are received. If YES in step 4520, the reset cause determination unit 2500 determines in step 4522 that the reset cause of the sub-main control unit 2320 is power-on (normal reset) due to return from power-off, and the process returns to step 4511. Transition. On the other hand, in the case of No in step 4520, that is, before the Ta time has elapsed after the timer A is started (YES in S4504), the RAM clear information and various information commands before power interruption are received from the main side. If NO (NO in both S4506 and S4520), the process proceeds to step 4504.

  Next, in step 4511, the reset cause determination unit 2500 notifies the speaker 114 that the power has been turned on at the maximum volume (about 30 seconds to 1 minute). In addition, this example is an example to the last, and is not limited to the notification method and content at all. Further, in the present embodiment, for convenience of explanation, it is not configured to perform different notification depending on the cause of reset, but may be configured to perform different notification depending on the cause of reset. Next, in step 4512, the reset cause determining means 2500 stops and resets the reset cause determining time management timer 2501, and then returns to the caller of this subroutine. By the way, by performing notification at such a maximum volume, it is expected that an illegal action and an illegal error canceling operation by clearing the main control device can be suppressed.

  On the other hand, in the case of No in step 4504 (in other words, when a command related to a normal game is received from the main control device 1000 before the reset cause determination time management timer 2501 times out, or reset cause determination time management If no command is received from the main controller 1000 before the timer 2501 expires, the reset cause determination means 2500 resets the reset cause determination time management timer 2501 after stopping in step 4513. To do. Next, in step 4514, the reset cause determination unit 2500 adds 1 to the number of abnormal resets in the reset information temporary storage unit 2502. Next, in step 4515, the reset cause determination unit 2500 stores the RAM information (for example, each flag state, selected drawing information, time stamp at reset) in the reset information temporary storage unit 2502. Etc.). In step 4516, the reset cause determination unit 2500 determines that the reset cause of the sub-main control unit 2320 is reset due to noise or fraud (abnormal reset). Next, in step 4518, the reset cause determination unit 2500 resets the RAM information of the sub-main control unit 2320 (for example, each flag state, a time stamp when the selected drawing information is reset, etc.). Next, in step 4550, the reset cause determination means 2500 executes a toggle signal determination process described later, and returns to the calling source of this subroutine. Although not shown, the information in the reset information temporary storage unit 2502 is configured to be displayed on the effect display device 2140 and the like when a predetermined condition is satisfied (for example, when a so-called sub input button is operated). It is desirable. With this configuration, the number of resets on the sub-main control unit 2320 side based on unforeseen factors can be grasped, and the processing content on the sub-main control unit 2320 side that was executed when the reset occurred can be estimated. Therefore, it is information that contributes to troubleshooting during operation at the amusement hall, and information that contributes to debugging information during aging (heat run) during development.

  Next, toggle signal determination processing according to the subroutine of step 4550 in FIG. 19 will be described using the flowchart of toggle signal determination processing in FIG. First, in step 4552, the toggle signal determination unit 2503 starts the toggle signal determination time management timer 2503a. Next, in step 4554, the toggle signal determination unit 2503 refers to the toggle signal determination time management timer 2503a, and determines a predetermined time related to the determination time of the toggle signal (for example, the interrupt cycle on the main controller 1000 side is T). In some cases, T + margin α is used to determine whether or not the time point at which the toggle signal change point can be detected is reached. In the case of Yes in step 4554, in step 4556, the toggle signal determination unit 2503 refers to the main-side information temporary storage unit 2321a, and the content of the toggle signal sent from the main controller 1000 side (for example, on / off) ) Is stored in the toggle signal temporary storage means 2503b. Next, at step 4558, the toggle signal determination unit 2503 refers to the contents of the toggle signal temporary storage unit 2503b to determine whether the toggle signal has changed. In the case of Yes in step 4558, in step 4560, the toggle signal determination means 2503 indicates that the reset cause of the sub main control unit 2320 is due to noise or the like (the main control board 1000 was not reset but the sub control board 2000 was reset). And the process proceeds to step 4562. In the case of No in step 4558, the process proceeds to step 4554. On the other hand, in the case of No in step 4554, in step 4564, the toggle signal determination unit 2503 determines that the reset cause of the sub-main control unit 2320 is due to fraud (such as intentionally disconnecting the wiring). . Next, in step 4566, the toggle signal determination unit 2503 notifies the speaker 114 that the fraud has been performed with the maximum volume (about 30 seconds to 1 minute), and proceeds to step 4562. In addition, this example is an example to the last, and is not limited to the notification method and content at all. Further, in this embodiment, for convenience of explanation, it is configured to notify that fraud has been performed, but the notification itself is configured to notify that the power is turned on (similar to S4511). Alternatively, the type of notification and the presence / absence of notification may be determined based on the value of the above-described abnormal reset cumulative number counter (see S4514). Next, in step 4562, the toggle signal determination unit 2503 resets the toggle signal determination time management timer 2503a after stopping and returns to the caller of this subroutine.

  Next, the hold information management process according to the subroutine of step 5600 in FIG. 18 will be described using the flowchart of the hold information management process in FIG. First, in step 5602, the on-hold information display control unit 2323 refers to the main-side information temporary storage unit 2321a, and receives a new on-hold occurrence command (first main game symbol or second main game symbol) from the main controller 1000 side. It is determined whether or not the hold information relating to (1) has been received. In the case of Yes in step 5602, in step 5604, the drawing hold information display control means 2323 has a drawing hold counter in the drawing hold information temporary storage means 2323a (in this example, a maximum of four for the first main game, Add “1” to the maximum number of second main games. Next, in step 5606, the drawing hold information display control means 2323 draws hold information (particularly, a random value related to the main game symbol lottery) based on the hold occurrence command transmitted from the main controller 1000 side. The information is temporarily stored in the hold information temporary storage unit 2323a, and the process proceeds to Step 5620. On the other hand, in the case of No in step 5602, in step 5610, the drawing hold information display control means 2323 refers to the main side information temporary storage means 2321a and has received the symbol variation display start instruction command from the main controller 1000 side? Determine whether or not. If YES in step 5610, in step 5612, the drawing hold information display control means 2323 subtracts “1” from the drawing hold counter in the drawing hold information temporary storage means 2323a. Next, in step 5614, the drawing hold information display control unit 2323 deletes the holding information related to the symbol variation from the drawing holding information temporary storage unit 2323a and shifts the remaining holding information. Next, in step 5616, the effect display control means 2320 accesses the flag area of the drawing display related information temporary storage means 2322c, turns on the symbol content determination permission flag, and proceeds to step 5620. Next, in step 5620, the drawing hold information display control means 2323 makes full use of the effect display means 2310 on the effect display device 2140 (in particular, the first hold display portion 2312a and the second hold display portion 2312b). The same number of hold display lamps as the drawing hold counter value in the figure hold information temporary storage means 2323a are turned on and the process proceeds to the next process (decorative symbol display content determination process in step 5700). If No in step 5610, the process moves to step 5620.

  Next, the decorative symbol display content determination process according to the subroutine of Step 5700 in FIG. 18 will be described using the flowchart of the decorative symbol display content determination process in FIG. First, in step 5702, the drawing display content determination unit 2322a refers to the flag area of the drawing display related information temporary storage unit 2322c and determines whether or not the symbol content determination permission flag is on. In the case of Yes in step 5702, in step 5704, the drawing display content determination unit 2322a turns off the symbol content determination permission flag in the flag area of the drawing display related information temporary storage unit 2322c. Next, in step 5706, the figure display content determination unit 2322a determines the symbol information temporarily stored in the main-side information temporary storage unit 2321a (stop symbol / variation mode related to the main game symbol) and the figure variation content determination. With reference to the lottery table 2322a-1, the stop symbol and the variation mode of the decorative symbol are determined and temporarily stored in the equipment display related information temporary storage unit 2322c.

  Here, FIG. 23 (the drawing table 1 and the drawing table 2) is an example of the drawing variation content determination lottery table 2322a-1. As shown in this example, in the present embodiment, stop symbols and variation modes of decorative symbols are determined based on main game symbol information (stop symbol information and variation mode information) transmitted from the main controller 1000 side. It is comprised so that. In addition, this structure is an example to the last, and is not limited to this at all.

  In step 5708, the drawing display content determination unit 2322a turns on the symbol content determination flag in the drawing display related information temporary storage unit 2322c, and proceeds to the next processing (decorated symbol display control processing in step 5800). . Even in the case of No in step 5702, the process proceeds to the next process (decorative symbol display control process in step 5800).

  Next, the decorative symbol display control process according to the subroutine of Step 5800 in FIG. 18 will be described using the flowchart of the decorative symbol display control process in FIG. First, in step 5802, the decorative symbol display control unit 2322 determines whether or not the symbol content determination flag in the drawing display related information temporary storage unit 2322c is on. In the case of Yes in step 5802, in step 5804, the decorative symbol display control means 2322 turns off the symbol content determination flag in the drawing display related information temporary storage means 2322c. Next, in step 5806, the decorative symbol display control unit 2322 turns on the symbol changing flag in the drawing display related information temporary storage unit 2322c. Next, in step 5809, the decorative symbol display control means 2322 starts the drawing variation time management timer 2322d, and proceeds to step 5810. In the case of No in step 5802, the process proceeds to step 5810.

  Next, in step 5810, the decorative symbol display control unit 2322 determines whether or not the symbol changing flag in the drawing display related information temporary storage unit 2322c is on. In the case of Yes in step 5810, in step 5812, the decorative symbol display control means 2322 changes the decorative symbol based on the fluctuation mode temporarily stored in the drawing change time management timer 2322d and the drawing display related information temporary storage means 2322c. It is determined whether or not the start timing has been reached. In the case of Yes in step 5812, in step 5814, the decoration symbol display control means 2322 sets the decoration symbol variation display command in the sub-command transmission buffer 2401 for transmitting to the sub-sub control unit 2310 side, and the write pointer. (The pointer added when a command is set in the buffer) is added, and the process proceeds to step 5830. On the other hand, in the case of No in step 5812, in step 5816, the decoration symbol display control means 2322 is based on the variation pattern temporarily stored in the drawing variation time management timer 2322d and the drawing display related information temporary storage means 2322c. It is determined whether or not the stop display timing (temporary stop display timing or final display timing) has been reached. In the case of Yes in step 5816, in step 5818, the decorative symbol display control means 2322 transmits a sub-command for transmitting a decorative symbol stop display command (temporary stop display command or fixed display command) to the sub-sub control unit 2310 side. The trust buffer 2401 is set, and the write pointer is added, and the process proceeds to Step 5830. On the other hand, in the case of No in step 5816, in step 5820, the decorative symbol display control means 2322 displays the preview image based on the fluctuation mode temporarily stored in the drawing change time management timer 2322d and the drawing display related information temporary storage means 2322c. Whether or not the display timing of the reach image has been reached. In the case of Yes in step 5820, in step 5822, the decorative symbol display control means 2322 sets the image display command related to the notice image and the reach image in the sub command transmission buffer 2401 for transmitting to the sub sub control unit 2310 side. At the same time, the write pointer is added, and the process proceeds to step 5830. In the case of No in step 5820, the process proceeds to step 5830.

  Next, in step 5830, the decorative symbol display control means 2322 determines whether or not the main game symbol is stopped and displayed (for example, referring to the main side information temporary storage means 2321a, the main control device 1000 side determines the main game. It is determined whether or not information indicating that the symbol is stopped and displayed has been received). In the case of Yes in step 5830, in step 5832, the decorative symbol display control means 2322 stops and resets (zero clears) the drawing variation time management timer 2322d. Next, in step 5834, the decorative symbol display control means 2322 turns off the symbol changing flag in the drawing display related information temporary storage means 2322c, and proceeds to the next processing (special game display control processing in step 6000). To do. In addition, also when it is No at step 5810 or step 5830, it transfers to the following process (the display control process during special game of step 6000).

  Next, the special game display control process according to the subroutine of step 6000 in FIG. 18 will be described using the flowchart of the special game display control process in FIG. First, in step 6002, the effect display control means 2320 refers to the flag area of the effect general information temporary storage means 2324 and determines whether or not the special game flag is off. In the case of Yes in step 6002, in step 6004, the effect display control means 2320 refers to the main side information temporary storage means 2321a and determines whether or not a special game start display instruction command has been received from the main side. In the case of Yes in step 6004, in step 6006 and step 6008, the effect display control means 2320 turns on the special game flag in the flag area of the effect general information temporary storage means 2324 and also makes a big hit on the effect display device 2140. Start display is performed (display is performed appropriately based on the type of jackpot), and the process proceeds to step 6012. In the case of No in step 6002, the process proceeds to step 6012.

  Next, in step 6012, the effect display control means 2320 sequentially displays the number of rounds and the number of winnings on the effect display device 2140 based on the game information sequentially transmitted from the main side (type of game play or jackpot Etc. based on the above etc.) Next, in step 6014, the effect display control means 2320 refers to the main side information temporary storage means 2321a and determines whether or not a special game end display instruction command has been received from the main side. In the case of Yes in step 6014, in step 6016, the effect display control means 2320 performs jackpot end display on the effect display device 2140 (appropriate display is performed based on the type of jackpot). Next, in step 6018, the effect display control means 2320 turns off the special gaming flag in the flag area of the effect general information temporary storage means 2324, and proceeds to the next process (display command transmission control process in step 7000). . Note that, also in the case of No in step 6004 or step 6014, the processing shifts to the next processing (display command transmission control processing in step 7000).

  Next, the display command transmission control process related to the subroutine of step 7000 in FIG. 18 will be described using the flowchart of the display command transmission control process in FIG. First, in step 7004, the information transmission / reception control means 2400 determines whether or not the value of a read pointer, which will be described later, and a write pointer are equal. If YES in step 7004, the process returns to the caller of this subroutine.

  On the other hand, if No in step 7004, in step 7006, the information transmission / reception control unit 2400 transmits the command set in the subcommand transmission buffer 2401 to the sub-sub side and transmits the read pointer (command in the buffer). (Pointer added at the same time) is added. Next, in step 7008, the information transmission / reception control means 2400 confirms the reception port for the sub-sub control unit 2310 side, and confirms the input information (particularly response signal) from the sub-sub control unit 2310 side. Next, in step 7010, the information transmission / reception control means 2400 determines whether a normal signal (so-called ACK signal) has been received as a response signal from the sub-sub control unit 2310 side. In the case of Yes in Step 7010, the process proceeds to Step 7004. In the case of No in Step 7010, in Step 7012, the information transmission / reception control unit 2400 receives an abnormal signal (as a response signal from the sub-sub control unit 2310 side). It is determined whether or not a so-called NACK signal has been received. In the case of Yes in step 7012, in step 7014, the information transmission / reception control unit 2400 notifies that an error has occurred (for example, notification by the game effect lamp 190), and proceeds to step 7004. If NO in step 7012, the process proceeds to step 7008, and a response signal wait loop process from the sub-sub control unit 2310 side is executed.

  Note that, when configured as described above, this subroutine continues to be executed when a response signal from the sub-sub control unit 2310 cannot be received, but the present invention is not limited to this. In that case, for example, when a response signal from the sub-sub control unit 2310 is not received for a predetermined time, it is found that the subroutine is returned to the caller of the subroutine or that the main game symbol is stopped and displayed. In this case, the subroutine may be forcibly terminated by returning to the calling source of the subroutine. Further, the notification in step 7014 may be executed only when the retry process is not returned after execution of a plurality of times.

  Next, processing on the sub-sub control unit 2310 side will be described with reference to the flowcharts of FIGS. First, FIG. 27 is a main flowchart of the sub-sub control unit 2310 (effect display means 2310). First, in step 3200, the effect display unit 2310 executes a display command reception control process described later. Next, in step 3600, effect display means 2310 executes a command analysis / image display control process, which will be described later, and repeats the process of returning to step 3200. Hereinafter, processing related to each subroutine will be described in detail.

  Next, the display command reception control process according to the subroutine of step 3200 in FIG. 27 will be described using the flowchart of the display command reception control process in FIG. First, in step 3210, the sub information transmission / reception control means 2450 confirms the reception port for the sub main control unit 2320 side. Next, in step 3212, the sub information transmission / reception control unit 2450 determines whether a transmission command from the sub main control unit 2320 side has been received based on the confirmation result. In the case of Yes in step 3212, in step 3214, the sub information transmission / reception control unit 2450 stores the content of the received command in the RAM on the sub main control unit side (for example, the image display related information temporary storage unit 2313a). Next, in step 3216, the sub information transmission / reception control unit 2450 refers to the image display related information temporary storage unit 2313a to determine whether or not the received data is normal (for example, a bit string of data to be transmitted at the time of command transmission). Is added to the command to be sent as error check data, and when the sub-sub side receives the command, the error check data value is calculated and received by that value. Whether or not the data is normal). Next, in the case of Yes in step 3216, in step 3218, the sub information transmission / reception control unit 2450 transmits a normal signal (ACK signal) as a response signal to the sub main control unit 2320 side, and proceeds to step 3220. On the other hand, in the case of No in step 3216, in step 3222, the sub information transmission / reception control unit 2450 transmits an abnormal signal (NACK signal) as a response signal to the sub main control unit 2320 side. Next, in step 3224, the sub information transmission / reception control unit 2450 turns on the command reception error flag in the image display related information temporary storage unit 2313a, and proceeds to step 3220. Here, the command reception error flag is a flag that is turned on when it is determined that the information received from the sub-main control unit 2320 is abnormal, and when the execution of the command analysis / image display control process described later is completed. This flag is maintained until the ON state. In step 3220, the sub information transmission / reception control unit 2450 turns on the display control execution permission flag in the image display related information temporary storage unit 2313a, and proceeds to the next processing (command analysis / image display control processing in step 3600). To do. If No in step 3212, the process proceeds to the next process (command analysis / image display control process in step 3600).

  Next, command analysis / image display control processing according to the subroutine of step 3600 in FIG. 27 will be described using the flowchart of command analysis / image display control processing in FIG. First, in step 3602, the image display control unit 2313 determines whether or not the display control execution permission flag in the image display related information temporary storage unit 2313a is on. In the case of Yes in step 3602, in step 3604, the image display control unit 2313 turns off the display control execution permission flag in the image display related information temporary storage unit 2313a, and proceeds to step 3606. If No in step 3602, the process proceeds to the next process (display command reception control process in step 3200).

  Next, in step 3606, the image display control means 2313 determines whether or not the command reception error flag in the image display related information temporary storage means 2313a is off. In the case of Yes in step 3606, in step 3608, the image display control unit 2313 refers to the image display related information temporary storage unit 2313a, and displays an image corresponding to the command received from the sub main control unit 2320 side as an effect display device 2140. Displayed in the upper drawing display area 2311 and the like, the process proceeds to step 3610. On the other hand, in the case of No in step 3606, in other words, when the information transmitted from the sub main control unit 2320 cannot be normally received, in step 3612, the image display control unit 2313 displays the image display related information temporary storage unit 2313a. The command reception error flag in is turned off. In step 3614, the image display control unit 2313 executes predetermined error handling processing (for example, displaying a symbol “xxx” in the drawing display area 2311), and the process proceeds to step 3610. . In step 3610, the image display control unit 2313 deletes the command received from the sub-main control unit 2320 side temporarily stored in the image display related information temporary storage unit 2313a, and performs the next processing (display command in step 3200). (Receive control processing).

(Function)
With the above configuration, according to the present embodiment, the sub-main control unit 2320 is configured to be able to reset the CPU in a form independent of the main control board 1000 side. The information received from the main control board 1000 side when the CPU on the sub main control unit 2320 side is reset is configured to be receivable, and the information received until the predetermined period has elapsed from the trigger. Is found to be initial information (in this example, RAM clear information or various information commands), it is determined that the reset factor is appropriate, while the information received until the predetermined period elapses from that trigger. Is determined to be operation information (in this example, a command related to a normal game), or until a predetermined period elapses from the trigger, If the information is not received, it is determined that the reset factor is inappropriate, and if the reset factor is determined to be appropriate, the notification process based on the predetermined notification mode is executed, When it is determined that the reset factor is inappropriate, the notification process can be executed. As a result, when only the CPU on the sub-main control unit 2320 side is reset, it is possible to determine whether the factor at the time of the reset is appropriate or inappropriate. And since it becomes possible to determine whether or not to execute the notification process after reset according to the factor, it is possible to avoid a situation where the player and the game hall operator develop into useless troubles. It becomes.

  Furthermore, according to the present embodiment, the sub-main control unit 2320 receives the specific operation information (in this example, a toggle signal) when it is determined that the reset factor is inappropriate and after the determination. Otherwise, it is determined that the reset factor is invalid, while it is determined that the reset factor is invalid, and if the specific operation information is received after the determination, the reset factor is determined. If the reset factor is determined to be invalid, a notification process based on a predetermined notification mode is performed. On the other hand, if the reset factor is determined to be incorrect, the notification is performed. It is configured not to execute processing. As a result, when only the CPU on the sub-main control unit 2320 side is reset, it is possible to determine whether the factor at the time of the reset is illegal (whether it is caused by an illegal act). It becomes possible. And since it becomes possible to determine whether or not the notification process after reset can be executed in accordance with the factor, it is possible to more suitably avoid a situation where the player and the game hall operator develop into useless troubles. In addition, if fraudulent activity has been performed, the fact can be promptly notified.

(Example of change)
In this embodiment, as a result of connecting one output terminal of the reset circuit 300 and the NMI terminal of the CPU 1000-a included in the main control board 1000, the power (voltage) supplied from the power supply unit 290 is obtained. When the value falls below a predetermined value, the event is detected by the reset circuit 300, and the CPU 1000-a is set in the reset state. However, the mode using the NMI terminal is merely an example, and the CPU 1000-a It is possible to create a similar configuration (action) using other input terminals provided. Here, in the case of using the NMI terminal, when the power (voltage) supplied from the power supply unit 290 falls below a predetermined value, even if the CPU 1000-a is executing some processing, The interrupt process (NMI interrupt process) is forcibly executed in preference to the process being executed. As a result, there is a problem in that the operation of the CPU 1000-a at the time of power-off recovery can become unstable because uncertain elements can be mixed in the information backed up at the time of power-off. Therefore, a configuration for avoiding such a problem is a modified example (modified examples 1 and 2) from the present embodiment, and only the modified points from the present embodiment will be described in detail below.

(Modification 1)
Next, FIG. 30 is a main flowchart showing a flow of general processing performed by main controller 1000 in FIG. 5 in Modification 1 from the present embodiment. First, the changes from the present embodiment are about Step 3015, Step 3016, and Step 4000 (Modification 1), and the purpose thereof is one output terminal of the reset circuit 300 and the CPU 1000-a included in the main control board 1000. When an input terminal that does not trigger the execution of interrupt processing (hereinafter referred to as a power interruption signal input port) is connected, the power (voltage) supplied from the power supply unit 290 has a predetermined value. When it falls below, it is comprised so that an electric disconnection process (the process content same as the process content of step 3600 in this embodiment) can be performed. That is, after execution of step 3020, in step 3015, main controller 1000 causes power failure flag (for example, in game state temporary storage means 1190) provided in RAM on main controller 1000 side (for the flag). It is determined whether or not (described later) is on. In the case of Yes in step 3015, in step 3016, the main controller 1000 executes the same processing as the processing content of step 3600 in the present embodiment, while in the case of No in step 3015, the process proceeds to step 3020. To do. When the timer interruption process (b) is executed, the main controller 1000 is configured to execute a port read process, which will be described later, in step 4000 (modified 1).

  Next, FIG. 31 is a flowchart of a port read process performed by the main controller 1000 according to Step 4000 (Modification 1) in FIG. 30 in Modification 1 from the present embodiment. First, at step 4002, main controller 1000 checks the power interruption signal input port. Next, at step 4004, main controller 1000 issues a power interruption signal from reset circuit 300 {when power (voltage) supplied from power supply unit 290 falls below a predetermined value based on the confirmation result. It is determined whether a received signal} is received. In the case of Yes in step 4004, in step 4006, main controller 1000 turns on the power interruption flag in gaming state temporary storage means 1190 and returns to the caller of this subroutine. On the other hand, if No in step 4004, main controller 1000 turns on the power interruption flag in game state temporary storage means 1190 and returns to the caller of this subroutine in step 4008. In this port reading process, the input port confirmation process is executed in step 4002, but the input port confirmation process is performed in series in other interrupt processes, and the power interruption signal is determined based on the result of the process. It may be configured to determine whether or not a message has been received.

(Modification 2)
Next, FIG. 32 is a main flowchart showing a flow of general processing performed by main controller 1000 of FIG. 5 in Modification 2 from the present embodiment. First, the changes from the present embodiment are about Step 3014, Step 3015, Step 3016, and Step 3700 (Modification 2), and the purpose thereof is one output terminal of the reset circuit 300 and the CPU 1000 included in the main control board 1000. When an input terminal (so-called INT terminal) that is an input terminal of -a that triggers execution of maskable interrupt processing is connected, the power (voltage) supplied from the power supply unit 290 has a predetermined value. When it falls below, it is comprised so that an electric disconnection process (the process content same as the process content of step 3600 in this embodiment) can be performed. That is, in step 3014, the main controller 1000 permits an INT interrupt and a timer interrupt (execution scheduled interrupt). Here, as the priority order of both interrupts, it is desirable that INT interrupt> timer interrupt be configured. In addition, after execution of step 3020, in step 3015, main controller 1000 causes power failure flag (for example, in game state temporary storage means 1190) provided in RAM on main controller 1000 side (for the flag). It is determined whether or not (described later) is on. In the case of Yes in step 3015, in step 3016, the main controller 1000 executes the same processing as the processing content of step 3600 in the present embodiment, while in the case of No in step 3015, the process proceeds to step 3020. To do. Further, when the INT interrupt process {step 3700 (modified 2)} in FIG. 10C is executed {in other words, when the power (voltage) supplied from the power supply unit 290 falls below a predetermined value. When an INT interrupt occurs}, in step 3702, main controller 1000 turns on the power interruption flag in gaming state temporary storage means 1190, and returns to the process that was executed immediately before the execution of this interrupt process.

  By changing as described above, according to the modified examples (modified examples 1 and 2) from the present embodiment, when the power (voltage) supplied from the power supply unit 290 falls below a predetermined value, the CPU 1000- If a is executing some process, it is possible to execute the power interruption process after completing the process being executed. As a result, it is possible to avoid an indeterminate element from being mixed in the information that is backed up when the power is turned off, thus eliminating the problem that the operation of the CPU 1000-a may become unstable when the power is turned off. It will be possible.

  In the case of the configuration as modified examples (modified examples 1 and 2) from the present embodiment, the power interruption process is completed when the power (voltage) supplied from the power supply unit 290 falls below a predetermined value. There is a slight time lag. Therefore, after the power (voltage) supplied from the power supply unit 290 falls below a predetermined value, the power supply from the power supply unit 290 is not completely shut off until the time lag has elapsed. Etc., or power is supplied to the CPU from a power supply unit that consumes relatively little power (for example, the power supply of the same voltage is divided into two systems and one is configured as a power supply unit dedicated to the control unit) It is desirable to configure so that the power supply time after the power is cut off is increased by performing the above. That is, “time from when the power (voltage) supplied from the power supply unit 290 falls below a predetermined value until the power supply from the power supply unit 290 is completely cut off = T1” It is desirable to satisfy the relationship of T1> T2 when the next power-off determination timing + power-off processing time = T2 ”immediately after the end of the determination. In addition, based on the same viewpoint, it is possible to quickly satisfy the above-described relationship by shortening the process from “power interruption determination” to “power interruption process” (to shorten the time value of T2). It is desirable. For example, in the arrangement image in the ROM in which the processing program on the main controller 1000 side is stored, the address immediately below the processing program related to the main routine (routine for performing “power failure determination”) (the address directly below the JR instruction). Thus, a configuration is possible in which a processing program related to “power interruption processing” is arranged (the number of processing states is reduced, so that the time value of T2 is reduced). In addition, for example, by preloading a processing program or the like related to “power interruption processing” into the RAM on the main control device 1000 side, it is possible to shorten the processing time related to the “power interruption processing”.

  In the present embodiment, the pachinko gaming machine is illustrated, but the present invention can be similarly applied to a rotating type gaming machine (so-called slot machine). Thus, hereinafter, as a second embodiment (sometimes simply referred to as an embodiment), a configuration in a rotating game machine will be exemplified.

  Here, before describing each component, the feature (outline) of the spinning-reel type gaming machine according to the second embodiment will be described. Hereinafter, each element will be described in detail with reference to the drawings.

  First, with reference to FIG. 33, a basic structure of the front side of the spinning cylinder game machine according to the second embodiment will be described. The rotating type gaming machine 1 is mainly composed of a gaming machine frame and a reel unit installed in the gaming machine frame. Hereinafter, these will be described in order.

  Next, the gaming machine frame of the swing type gaming machine 1 includes an outer frame 10, a door 100, and a medal tray 104. First, the outer frame 10 is a frame for fixing the swivel type gaming machine 1 to a position where it should be installed. Next, the door 100 is a frame body that aligns with the opening portion of the outer frame 10, and is attached to the outer frame 10 through a hinge mechanism (not shown) so as to be opened and closed. Here, although not shown, a sensor (door open / close sensor) capable of detecting the open / closed state of the door 100 is provided at the joint between the outer frame 10 and the door 100. Further, the door 100 is provided with a key hole 106, and a key (door key) that matches the shape of the key hole 106 is inserted into the key hole 106 {in addition, twisted in a predetermined direction (for example, clockwise)}, 100 can be opened. Furthermore, in the second embodiment, the error state can be canceled by inserting the door key into the keyhole 106 (and twisting it in a predetermined direction (for example, counterclockwise)). Next, the medal tray 104 is a tray for a game medium released from the discharge port 108 (sometimes referred to as a game medal or simply a medal).

  Next, the door 100 includes a mechanism for enabling visual recognition of the gaming state, a mechanism for enabling input of game media, a mechanism for operating the reel unit, and the like. Specifically, the reel window 110, the insertion number display lamp 202, the operation state display lamp 204, the special gaming state display device 206, the payout number display device 208, and the storage number display device are used as mechanisms for making the gaming state visible. 210 etc. are attached. In addition, a medal slot 2150 and a bet button 2130 are attached as mechanisms for enabling input of game media. As a mechanism for operating the reel unit, a start lever 2140 and a stop button unit 2120 are attached. Hereinafter, each element will be described in detail.

<Mechanism to make game state visible>
Next, the reel window 110 is a transparent member formed of a synthetic resin or the like that constitutes a part of the door 100, and is configured so that the reel unit installed in the gaming machine frame can be seen through the reel window 110. Yes. The number-of-insertions indicator 202 is configured by LEDs, and is configured so that the same number of LEDs as the number of medals currently bet (to insert a game medal necessary to start one game) are lit. Has been. Further, the operation state indicator lamp 204 is configured by an LED, and is configured to be turned on / off according to the current operation state (medal acceptance / non-acceptance state, re-game winning state, game start wait state, etc.). The special game state display device 206 is configured by a 7-segment display, and is configured to display the total number of payouts paid out during the special game state. The payout amount display device 208 is composed of a 7-segment display, and is configured to display the number of game medals currently paid out. The storage number display device 210 is configured by a 7-segment display, and is configured to display the total number of medals stored in the gaming machine as a player's possession ball.

<Mechanism to enable input of game media>
Next, the medal slot 2150 is a slot for game medals, and the game medal inserted into the slot is guided to the inside of the gaming machine frame in a situation where medals can be received. In addition, a medal insertion detection unit 2151 (not shown) is provided inside the gaming machine frame, and a gaming medal guided to the inside of the gaming machine frame is detected as a bet. Further, the bet button 2130 is configured to be operable by a player, and is configured to bet a medal stored by the operation.

<Mechanism for operating reel unit>
Next, the start lever 2140 is configured to be operable by the player, and is configured to be able to start the operation of the reel unit by the operation. The stop button unit 2120 includes a left reel stop button 2121, a middle reel stop button 2122, and a right reel stop button 2123 that can be operated by the player. The operation of the reel unit can be performed by operating each stop button. It is configured to be able to stop sequentially.

  Next, the reel unit of the rotating type gaming machine 1 includes a main reel unit 2110 and a drive source (stepping motor or the like) for the main reel unit 2110. The main reel unit 2110 includes a left reel portion 2111, a middle reel portion 2112, and a right reel portion 2113. Here, each reel part is formed of a synthetic resin or the like, and a plurality of symbols are drawn on the outer periphery (on the reel band) of the reel part. Then, based on the operation of each stop button in the start lever 2140 and the stop button unit 2120, the respective reel portions can be rotated and stopped. Although not shown, an LED (hereinafter sometimes referred to as a reel backlight) is provided inside the left reel portion 2111, the middle reel portion 2122, and the right reel portion 2113, and when the LED is turned on. Is configured so that the light transmitted through the outer periphery of the reel portion can be visually recognized as if the outer periphery of the reel portion is lit.

<Other mechanisms>
In addition, a liquid crystal display 400, a game effect (electric decoration) lamp 800, a speaker 900, and the like are provided inside and outside the gaming machine frame of the swivel type gaming machine 1 as mechanisms for enhancing the fun of gaming.

  Here, in the second embodiment, an upper panel 310 and a lower panel 300 which are members formed of synthetic resin or the like are provided as members constituting a part of the gaming machine frame. Also, a cathode tube 311 is provided on the back side of the upper panel 310 so that the design drawn on the upper panel 310 can be easily seen by the light transmitted through the upper panel 310 using the cathode tube 311 as a light source. It is configured. In addition, a cathode tube 301 is provided on the back side of the lower panel 300 so that the design drawn on the lower panel 300 can be easily seen by the light transmitted through the lower panel 300 using the cathode tube 301 as a light source. It is configured. Further, a cathode tube 312 is provided on the top of the reel window 110, and the light reflected from the surface of the main reel unit 2110 using the cathode tube 312 as a light source is placed on the outer periphery of each reel portion in the main reel unit 2110. The drawn symbol is configured to be easily visible.

  Next, various functions of the swivel type gaming machine according to the second embodiment will be described with reference to the block diagram of FIG. First, the swing type gaming machine 1 controls the overall operation of the spinning type gaming machine, and in particular controls overall game operations such as lottery when the start lever 2140 is operated and operation control of the main reel unit 2110 ( That is, a main control device (main board) 1000 that performs control directly related to the player's profit), and an effect display control means (sub-main) that performs display control related to various effects / information notifications that add interest to the game contents. Control unit) 3000, an effect display means (sub-sub control unit) 4000 for receiving a command from the sub-main control unit 3000 and outputting an effect, a game medal payout control device 5000 and a game medal payout device for performing game medal payout control (A so-called hopper) is provided.

  Here, the main control board 1000 is connected to a game peripheral device 2000 (main game peripheral device 2100), which is an operation member related to the progress of the game, a sub main control unit 3000, and a game medal payout control device 5000. In addition, it is also connected to a hall computer H or the like via an external connection terminal (not shown), and is configured so that game-related information can be output from the main control board 1000 to an external device. Here, the main control board 1000 and the sub-main control unit 3000 are configured to enable one-way communication from the main control board 1000 to the sub-main control unit 3000 (communication methods are serial communication and parallel communication). On the other hand, the sub-main control unit 3000 and the sub-sub control unit 4000 are configured to enable bidirectional communication. The sub-main control unit 3000 is also electrically connected to various game effect lamps 800, speakers 900, and the like. The main control device 1000, the sub-main control unit 3000, the sub-sub control unit 4000, the game medal payout control device 5000, and the like are elements such as a ROM and RAM for storing data and programs in hardware and a CPU used for arithmetic processing. Etc.

  Also in the second embodiment, as in the present embodiment, when the power (voltage) supplied from the power supply unit 290 to the main control board 1000 falls below a predetermined value, the event is reset. And the CPU included in the main control board 1000 is configured to be in a reset state. Similarly, a signal from a reset button (RAM clear button) provided on the power supply unit 290 is input to one input terminal of the reset circuit 300, and one output terminal of the reset circuit 300 and the main control board 1000 are connected to each other. By connecting to one input terminal of the CPU provided, when the reset button is operated, the CPU provided in the main controller 1000 is reset and the RAM contents are cleared.

  Also in the second embodiment, as in the present embodiment, the CPU included in the sub-main control unit 3000 incorporates ROM and RAM, and the CPU included in the sub-sub control unit 4000 also includes ROM and RAM. Is built-in. The CPU included in the sub-main control unit 3000 and the CPU included in the sub-sub control unit 4000 are configured to be reset by an operation of a reset switch (not shown) provided on the sub-control board 2000. That is, the sub control board 2000 side is configured to be able to reset the CPU in a form independent of the main control board 1000 side, and as a result, when the gaming machine is operating in the game hall For example, an unexpected event (for example, an erroneous reset signal input due to electrostatic noise) may cause a situation in which only the CPU on the sub-control board 2000 is reset. Hereinafter, each means (device) will be described in detail.

  First, the main control device 1000 has a game control means 1100 that controls the main control of game progress, and various game information on the game peripheral device 2000 and the sub (sub-main, sub-sub) board side {for example, winning combination information, winning combination information (For example, one winning combination when there are a plurality of winning combinations, a winning line of the winning combination on the active line, etc.), operation information of the gaming peripheral device 2000 (for example, operation information of the start lever 2140 and the stop button unit 2120) ), Information transmission control means 1200 for controlling transmission / reception of special game start signal / status information / end signal, etc., and a game medal payout control device 5000 so as to pay out a predetermined game medal based on a winning combination on the active line The payout control means 1300 for controlling the error and the control processing relating to the error detectable on the main controller 1000 side. For controlling the setting of the error control means 1400 that controls the operation mode of the main controller 1000 when the power is turned on (the normal operation mode for executing the normal game process, the setting change operation mode for executing the set value change process, etc.) An environment initial setting unit 1500 and a toggle state management unit 1600 that manages a transmission state of a toggle signal to be described later are included.

  Here, the game control means 1100 is an input operation control means 1110 for determining the presence or absence of an operation on the game peripheral device 2000, and a game medal management for managing game medals thrown into the game machine and game medals paid out from the game machine. The control means 1120, the game start control means 1130 for starting the game progress when a predetermined game start condition is satisfied, and a random number for determining the game content (game content determination random number) are generated and the role lottery is executed. Game content determination means 1140, reel control means 1150 for controlling the operation of the main reel unit 2110 based on the winning operation (including losing) and the stop operation of the stop button unit 2120, and payout based on the winning combination on the active line A payout content determining means 1160 for determining the number of game medals and a system relating to a special game that is more advantageous to the player than a normal game. Special game control means 1170 for managing the game, game end control means 1180 for ending the game progress when a predetermined game end condition is satisfied, and the current game state {eg, game state (normal game state, re-game high probability game) Status, special game status), information relating to the winning combination and winning combination, stop position information of each reel in the main reel unit 2110, on / off status of various flags, gaming state relating to special game (for example, special game transition combination is won) And a non-winning state, a state during a special game)} and the like. Hereinafter, each means will be described in detail.

  Next, the input operation control means 1110 is a start input determination means 1111 for determining the presence / absence of an operation related to the start lever 2140; Means 1112 and stop input determination means 1113 for determining presence / absence of an operation related to the stop button unit 2120 are further provided.

  Next, the game medal management control means 1120 includes an insertion number counter 1121 for counting the number of game medals bet, and a storage number counter 1122 for storing the number of game medals bet exceeding a predetermined number. Further, it has.

  Next, the game content determination unit 1140 further includes a random number generation unit 1141 that generates a game content determination random number, and a winning combination determination unit 1142 that executes a lottery drawing based on the game content determination random number. Here, the random number generation unit 1141 further includes a game content determination random number temporary storage unit 1141a for temporarily storing the generated game content determination random number. The winning combination determining means 1142 further includes a winning combination determining lottery table 1142a (detailed table configuration will be described later) for determining the winning combination.

  Next, the reel control means 1150 includes a reel rotation operation start control means 1151 for starting the rotation operation of each reel unit in the main reel unit 2110, and a reel rotation operation stop for stopping the rotation operation of each reel unit in the main reel unit 2110. And a control means 1152. The reel rotation operation start control means 1151 further includes a game interval management means 1151a for controlling to maintain a predetermined game interval (so-called wait time). The reel rotation operation stop control means 1152 includes a reel current position detection control means 1152a for detecting the current position of each reel section in the main reel unit 2110, a current position of each reel section in the main reel unit 2110, and a winning combination. And reel stop position determining means 1152b for determining the stop position of each reel section. The reel stop position determining means 1152b further includes a stop position determining reference table 1152b-1 that is referred to in order to determine the stop position of each reel section.

  Next, the payout content determination means 1160 includes a winning combination specifying means 1161 for specifying a winning combination on the active line based on a stop position of each reel section in the main reel unit 2110, and a game medal to be paid out based on the winning combination. And a payout number determining means 1162 for determining the number. The number-of-payout determination means 1162 further includes a number-of-payout determination reference table 1162b (detailed table configuration will be described later) referred to in order to determine the number of game medals to be paid out.

  Next, the special game control means 1170 further includes a special game payout cumulative counter 1171 for counting the total number (cumulative number) of game medals paid out under the situation of the special game state.

  Next, the game state temporary storage unit 1190 further includes a game related information temporary storage unit 1191 that temporarily stores information related to the game progress, and a special game state temporary storage unit 1192 that temporarily stores information related to the special game state. Have. Also, the game related information temporary storage means 1191 is a game control related flag temporary storage means 1191a for temporarily storing on / off information of various flags relating to the game progress control, and information for temporarily winning information related to the winning combination in the game. The winning combination information temporary storage means 1191b, the reel stop position information temporary storage means 1191c for temporarily storing information relating to the stop position of each reel section in the main reel unit 2110, and the information relating to the winning combination in the game temporarily. And a winning combination related information temporary storage means 1191d for storing. The special game state temporary storage unit 1192 further includes special game related flag temporary storage unit 1192a for temporarily storing ON / OFF information of various flags in the special game state.

  Next, the payout control means 1300 further includes a payout counter 1310 for counting the number of game medals paid out.

  Next, the operating environment initial setting unit 1500 temporarily stores a value (so-called set value) for determining which lottery probability is used for lottery in a situation where there are a plurality of lottery probabilities associated with one winning combination. There is further provided a set value temporary storage means 1510.

  Next, toggle state management means 1600 has toggle state temporary storage means 1601 for temporarily storing the transmission state of the toggle signal.

  Next, the gaming peripheral device 2000 will be described. Since some of the peripheral devices have already been described in detail, the remaining configuration will be briefly described. First, the game peripheral device 2000 includes a main control peripheral device 2100 that is a peripheral device related to game progress on the main control device 1000 side.

  Here, the main control peripheral device 2100 has an operation environment setting operation member 2160 for operating an operation mode when the power is turned on in the main control device 1000. Here, the operation environment setting operation member 2160 is an operation mode changeover switch 2160 that is a switch member for operating in the normal operation mode or the setting change operation mode when the main control device 1000 is activated, A setting value changeover switch 2162 that is a switch member that performs a setting value change operation; and a setting value determination switch 2163 that is a switch member that ends the setting value change operation and performs a determination operation at the current setting value. ing. The set value confirmation switch 2163 may also be configured to be used as an operation detection switch for another operation member (for example, the start lever 2140).

  Next, the sub-main control unit (effect display control unit 3000) and the sub-sub control unit (effect display unit 4000) will be described. First, main controller 1000 is connected to effect display control means 3000 (sub-main control unit) that controls all display control related to effects. Further, the effect display control means 3000 is an effect display means 4000 (display device for displaying effects on various output devices (for example, the liquid crystal display 400, the game effect lamp 800, the movable object 401, the speaker 900, etc.) and the liquid crystal display 400. Sub-sub control unit). Hereinafter, these devices and means will be described in order.

  First, the effect display control means 3000 is based on the information receiving means 3100 for receiving various information from the main control apparatus 1000 side and the various information from the main control apparatus 1000 side, with the sub-sub control unit 4000 and various output apparatuses. Effect operation control means 3200 for controlling the execution of the effect, reset cause determination means 3300 for specifying the factor that the CPU on the sub-main control unit 3000 side is reset, and the effect for temporarily storing information related to the overall effect control It has information temporary storage means 3500 and information transmission / reception control means 3600 for controlling information transmission / reception with the sub-sub control unit 4000 side. Hereafter, each said means is explained in full detail.

  First, the information receiving means 3100 has main-side information temporary storage means 3110 for temporarily storing information relating to game progress from the main control device 1000 side. Information temporarily stored in the main-side information temporary storage unit 3110 is appropriately referred to as necessary in each process described below.

  Next, the production operation control unit 3200 includes production operation content determination unit 3210 that determines the operation content related to the overall production operation, production image display control unit 3220 that controls display of the production image that is one type of production operation, It has further. Here, the effect operation content determination means 3210 further includes an effect operation content determination lottery table 3211 (detailed table configuration will be described later) referred to in order to determine the operation content related to the overall effect operation.

  Next, the reset cause determination means 3300 is a reset cause determination time management timer 3301 that measures the elapsed time from the reset time in order to determine the presence / absence of a command from the main controller 1000, and a reset based on an illegal factor. Reset information temporary storage means 3302 for evacuating the status at the time of resetting, and toggle signal determination means 3303 for determining a reset factor based on a toggle signal described later from the main controller 1000 side. Have. Here, the toggle signal determination means 3303 includes a toggle signal determination time management timer 3303a for measuring an elapsed time for determining a change in the toggle signal from the main controller 1000 side, and a toggle signal from the main controller 1000 side. And toggle signal temporary storage means 3303b for temporarily storing the state.

  Next, the information transmission / reception control unit 3600 further includes a sub-command transmission buffer 3601 for buffering a transmission command to the sub-sub control unit 4000.

  Next, the effect display unit 4000 includes an effect display unit 4100 configured by the liquid crystal display 400 and an image display control unit 4500 that displays an image on the effect display unit 4100. Here, the image display control unit 4500 temporarily transmits sub-information transmission / reception control unit 4550 for controlling information transmission / reception with the sub-main control unit 3000 side, and commands received from the sub-main control unit 3000 side and information regarding various image displays. It further has image display related information temporary storage means 4551 for storing.

  In addition, although not shown, the effect display control unit 3000 provides other effects such as lighting and extinguishing of the cathode tubes (in this example, the cathode tube 301, the cathode tube 311 and the cathode tube 312) and sound output from the speaker 900. All control related to effects other than image display, such as processing, is further controlled. In the second embodiment, the effect display control unit 3000 is configured to integrally perform image display control, game effect lamp control, and audio output control, but is separated as a functionally separate peripheral device. You may comprise. In this case, the peripheral devices may be connected to each other with a board-to-board connector.

  Next, with reference to the flowcharts of FIG. 35 to FIG. 59, the flow of processing of the rotary type gaming machine according to the second embodiment will be described. First, the flow of processing on the main control device 1000 side of the spinning reel type gaming machine according to the second embodiment will be described with reference to the flowcharts of FIGS.

  First, FIG. 35 is a main flowchart showing the flow of general processing performed by main controller 1000. First, when main controller 1000 is configured to be connected to a power supply unit, the process shown in FIG. 5A is executed when the gaming machine is turned on. That is, when the gaming machine is turned on, in step 3002, main controller 1000 determines whether or not the reset button (RAM clear button) of power supply unit 290 has been operated. In the case of Yes in step 3002, in step 3004, main controller 1000 clears all RAM contents (for example, information in game state temporary storage means 1190) excluding setting values on main controller 1000 side. Next, in step 3006, the information transmission control unit 1200 transmits the ram clear information (command) to the sub-main control unit 3000 side (may be transmitted at the timing, or the command is set at the timing. It may be configured to transmit in a control command transmission process described later), and the process proceeds to step 3014. On the other hand, if No in step 3002, the main controller 1000 checks the contents of the RAM area in the main controller 1000 in step 3008 (for example, it is stored in the checksum and RAM area recorded at the time of power failure). Compared to the amount of information that is available). Next, in step 3010, main controller 1000 determines whether or not the contents of the RAM are not normal based on the check result (for example, determines whether or not the checksum set upon power failure does not match). ). If Yes in step 3010, the process proceeds to step 3004. On the other hand, in the case of No in step 3010, in step 3011, main controller 1000 acquires various information commands at the time of power interruption stored (backed up) in the RAM in main controller 1000. Next, in step 3012, main controller 1000 transmits the various information commands acquired in step 3011 to the sub-main control unit 3000 (it may be transmitted at this timing, or a command is set at this timing. It may be configured to transmit by a control command transmission process described later), and the process proceeds to step 3014. Next, in step 3014, main controller 1000 triggers a scheduled interrupt (for example, a hardware interrupt about every 1.5 ms) related to the main processing on main controller 1000 shown in step 2000 of FIG. (As a result, when the execution scheduled interrupt timing is reached, the process of FIG. 5B is executed), and the process proceeds to step 1100.

  In this flowchart, an example is shown in which the RAM is cleared when the data at the time of backup is not appropriate for the process at the time of the RAM clear, and the game is shifted to a gameable state as it is. It is possible to configure so that the game can be executed by shifting to an error state and performing a new set value change process after the process is completed, and the RAM clear process is also executed by operating the RAM clear button. Instead, the RAM may be cleared in association with the setting change operation.

  In this example, although the details are omitted, since the stepping motor excitation switching process is performed in the interrupt process, the length of the interrupt period that is essential is determined by the number of steps and the number of rotations of the stepping motor. For example, if a reel that makes one turn in 504 steps is rotated 80 times per minute (40320 steps), it becomes 672 steps per second, and interruption at 1 second / 672≈1.49 ms, that is, about 1.5 ms is essential. .

  Next, at step 1100, main controller 1000 executes a prescribed number input control process which will be described later. Next, at step 1200, main controller 1000 executes a game start control process to be described later. Next, at step 1300, main controller 1000 executes a game content determination process to be described later. Next, at step 1400, main controller 1000 executes a reel rotation operation start control process to be described later. Next, at step 1500, main controller 1000 executes reel rotation operation stop control processing described later. Next, in step 1600, main controller 1000 executes a winning combination determination control process described later. Next, in step 1700, main controller 1000 executes a payout control process described later. Next, at step 1800, main controller 1000 executes a gaming state transition control process to be described later. Next, at step 1900, main controller 1000 executes a game end control process to be described later. After step 1900 is completed, the process proceeds to step 1100, and main controller 1000 repeatedly executes the processes of steps 1100 to 1900.

  Next, when the scheduled interrupt timing is reached, the process of FIG. That is, triggered by a scheduled interrupt (for example, a hardware interrupt every approximately 1.5 ms), in step 2100, main controller 1000 executes a toggle state switching process described later. Next, in step 2200, main controller 1000 executes an external signal output for outputting information to an external terminal. Next, at step 2300, main controller 1000 executes a control command transmission process to be described later. Next, in step 2400, the main gaming machine 1000 executes various random number update processing (for example, random number counter increment processing), and returns to the processing executed immediately before the execution of this interrupt processing.

  Next, toggle state switching processing according to the subroutine of step 2100 in FIG. 35 will be described using the flowchart of toggle state switching processing in FIG. First, in step 2102, the toggle state management unit 1600 refers to the toggle state temporary storage unit 1601 and determines whether or not the toggle switching flag is on. In the case of Yes in step 2102, in step 2104, the toggle state management unit 1600 changes the toggle switching flag in the toggle state temporary storage unit 1601 to OFF, and proceeds to the next processing (external signal output in step 2200). On the other hand, in the case of No in step 2102, in step 2106, the toggle state management unit 1600 changes the toggle switch flag in the toggle state temporary storage unit 1601 to ON and proceeds to the next processing (external signal output in step 2200). To do.

  Next, the control command transmission process related to the subroutine of step 2300 in FIG. 35 will be described using the flowchart of the control command transmission process in FIG. First, in step 2302, the information transmission control unit 1200 refers to the toggle state temporary storage unit 1601 and determines whether or not the toggle switching flag is on. In the case of Yes in Step 2302, in Step 2304, the information transmission control unit 1200 transmits an “ON” toggle signal to the sub-main control unit 3000 side, and the process proceeds to Step 2308. On the other hand, in the case of No in step 32302, in step 2306, the information transmission control unit 1200 transmits the “OFF” toggle signal to the sub-main control unit 3000 side, and the process proceeds to step 3808. In step 2308, the information transmission control unit 1200 refers to the command transmission buffer 1201 and confirms the set command. Next, in step 2312, the information transmission control unit 1200 transmits the command set in the command transmission buffer 1201 to the sub-main control unit 3000 (at the same time, deletes the transmitted command from the command transmission buffer 1201). ), And proceeds to the next process (random number update in step 2400). In addition, since the effect | action in such a structure overlaps with the example which concerns on the pachinko game machine in FIG. 17 in this embodiment, description is abbreviate | omitted.

  Next, when the power is turned off in the gaming machine, the process of step 3600 in FIG. 35 is executed. That is, when the gaming machine is powered off (NMI interrupt in this example), in step 3602, main controller 1000 sets power interruption information (for example, checksum) based on the information in the RAM area. Next, at step 3604, main controller 1000 prohibits writing to the RAM area and proceeds to a power-off waiting loop process.

  Next, the specified number input control process related to the subroutine of step 1100 in FIG. 35 will be described using the flowchart of the specified number input control process in FIG. First, in step 1102, the input operation control unit 1110 determines whether or not the re-game winning flag in the game control related flag temporary storage unit 1191a is off. Here, the re-game winning flag is a flag that is turned on when a re-game player wins in the immediately preceding game, as will be described later. In the case of Yes in Step 1102, in Step 1104, the input operation control means 1110 validates the input operation of the bet button 2130 (allows the operation signal from the bet button 2130 to be received), and sends the medal slot 2150 to the medal slot 2150. The insertion of game medals is validated (detection signals from the medal insertion detection unit 2151 can be received). In step 1108, the bet determination unit 1112 determines whether a detection signal from the medal insertion detection unit 2151 has been received. In the case of Yes in step 1108, in step 1110, the bet determination unit 1112 determines whether or not the specified number insertion flag in the game control related flag temporary storage unit 1191a is off. Here, as will be described later, the prescribed number insertion flag is a flag that is turned on when the number of game medals bet is equal to the prescribed number (the number of game medals necessary for starting one game). is there. In the case of Yes in step 1110, in step 1112, the game medal management control means 1120 guides the inserted game medal into the gaming machine frame (accepts insertion of a game medal). Next, in step 1114, the game medal management control means 1120 adds 1 to the count value of the insertion number counter 1121 and proceeds to step 1140.

  On the other hand, in the case of No in step 1110, in step 1116, the game medal management control means 1120 determines whether or not the counter value of the storage number counter 1122 is less than a predetermined maximum storage number (for example, 50). If Yes in step 1116, the game medal management control means 1120 accepts the insertion of the game medal in step 1118. Next, in step 1120, the game medal management control means 1120 adds 1 to the counter value of the stored number counter 1122, and the process proceeds to step 1140. On the other hand, in the case of No in step 1116, in step 1122, the game medal management control unit 1120 does not guide the inserted game medal to the inside of the gaming machine frame but releases it from the discharge port 108 (accepting the insertion of the game medal). The process proceeds to step 1140.

  On the other hand, in the case of No in step 1108, in step 1124, the bet determination unit 1112 determines whether or not the bet button 2130 has been operated (whether or not an operation signal from the bet button 2130 has been received). In the case of Yes in step 1124, in step 1126, the bet determination unit 1112 determines whether or not the specified number insertion flag in the game control related flag temporary storage unit 1191a is off. In the case of Yes in step 1126, in step 1128, the game medal management control means 1120 determines whether or not the counter value of the stored number counter 1122 is greater than zero. In the case of Yes in step 1128, in step 1130, the game medal management control means 1120 decrements the counter value of the stored number counter 1122. Next, in step 1132, the game medal management control means 1120 adds 1 to the count value of the insertion number counter 1121, and proceeds to step 1140. If No in step 1124, step 1126, or step 1128, the process proceeds to step 1140.

  In the second embodiment, based on one operation signal from the bet button 2130, the counter values of the storage number counter 1122 and the insertion number counter 1121 are incremented or decremented by 1 (ie, the bet number is incremented by 1). However, it is not limited to this. In that case, the addition / subtraction process may be repeated based on one operation signal from the bet button 2130 until the same number as the specified number (so-called MAX bet function).

  On the other hand, in the case of No in step 1102, in step 1134, the bet determination unit 1112 determines whether or not the specified number insertion flag in the game control related flag temporary storage unit 1191a is off. In the case of Yes in step 1134, in step 1136, the game medal management control means 1120 sets a specified number in the insertion number counter 1121 (in other words, sets the same number as the bet number in the immediately preceding game), and proceeds to step 1140. To do. In the case of No in step 1134, the process proceeds to step 1140.

  Next, in step 1140, the game start control means 1130 determines whether or not the counter value of the insertion number counter 1121 has increased. If Yes in step 1140, in step 1142, the information transmission control unit 1200 stores the command (bet information) indicating that a bet input has been detected in the command transmission buffer 1201 for transmitting to the sub-main control unit 3000 side. set. Next, in step 1144, the game start control means 1130 determines whether or not the count value of the insertion number counter 1121 is the same as the specified number. In the case of Yes in step 1144, in step 1146, the game start control unit 1130 turns on the specified number insertion flag in the game control related flag temporary storage unit 1191 a, and proceeds to step 1148. Note that if the answer is No in step 1140 and step 1144, the process also proceeds to step 1148. Next, in step 1148, the bet determination means 1112 determines whether or not the specified number insertion flag in the game control related flag temporary storage means 1191a is off. In the case of Yes in step 1148, in step 1150, the start input determination unit 1111 determines whether or not the start lever 2140 has been operated (whether or not an operation signal has been received from the start lever 2140). If Yes in step 1150, the process proceeds to the next process (game start control process in step 1200). In the case of No in step 1148 and step 1150, the process proceeds to step 1102.

  Next, the game start control process according to the subroutine of step 1200 in FIG. 35 will be described using the flowchart of the game start control process in FIG. First, at step 1202, the game start control means 1130 turns off the specified number insertion flag in the game control related flag temporary storage means 1191a. Next, in step 1204, the input operation control means 1110 invalidates the input operation of the bet button 2130 (cannot receive an operation signal from the bet button 2130), and inserts a game medal into the medal slot 2150. Is invalidated (the detection signal from the medal insertion detection unit 2151 cannot be received). Next, in step 1206, the game start control means 1130 determines whether or not the re-game winning flag in the game control related flag temporary storage means 1191a is on. In the case of Yes in step 1206, in step 1208, the game start control means 1130 turns off the re-game winning flag in the game control related flag temporary storage means 1191a, and proceeds to the next process (game content determination process in step 1300). To do. In the case of No in step 1206, the process proceeds to the next process (game content determination process in step 1300).

  Next, the game content determination process according to the subroutine of step 1300 in FIG. 35 will be described using the flowchart of the game content determination process in FIG. First, in step 1302, the random number generation means 1141 generates a random number based on a known method, temporarily stores it in the game content determination random number temporary storage means 1141a, and proceeds to step 1308.

  Next, at step 1308, the game content determination means 1140 determines whether or not the special gaming flag in the special gaming related flag temporary storage means 1192a is on, in other words, whether the gaming state is in the special gaming state. Determine whether or not. In the case of Yes in step 1308, in step 1310, the game content determination means 1140 corresponds to “During special game” in the winning combination determination lottery table 1142a based on the setting value set in the setting value temporary storage means 1510. The winning combination determination lottery table is set, and the process proceeds to Step 1320. On the other hand, if No in step 1308, in step 1312, the game content determination means 1140 determines whether or not the special game winning flag in the special game related flag temporary storage means 1192a is on, in other words, a special game transition role. It is determined whether or not the special game transition combination has not been won yet. In the case of Yes in step 1312, in step 1314, the game content determination means 1140 is set to “special game winning” in the winning combination determination lottery table 1142 a based on the setting value set in the setting value temporary storage means 1510. The corresponding winning combination determination lottery table is set, and the process proceeds to step 1320. On the other hand, in the case of No in step 1312, in step 1316, the game content determination means 1140 is “in normal game” in the winning combination determination lottery table 1142 a based on the setting value set in the setting value temporary storage means 1510. The winning combination determination lottery table corresponding to is set, and the process proceeds to Step 1320.

  Here, FIG. 41 is an example of the winning combination determination lottery table 1142a. As shown in this example, the winning combination determination lottery table 1142a includes a table (combination lottery table 1) that is referred to in a situation where the gaming state is “during normal gaming”, and the gaming state is “special gaming winning”. ”(The lottery table 2) and the table (the role lottery table 3) referred to under the situation that the gaming state is“ special game ”. Here, “during special game” means a game that shifts when a special game transition combination (in this example, “first type BB”, which is constituted by a so-called first type special combination continuous action device) wins a prize. This is a gaming state in which the winning probability of the winning combination (in this example, “Bell”) in which a payout occurs as compared with other gaming states is increased. “Normal game” and “Special game winning” are non-special games, and the former is a game state in which a special game transition role is not elected, and the latter is a special game transition. The game state in which the winning combination is won. That is, in the second embodiment, in order to avoid that the special game transition combination is won in duplicate, it is configured not to draw the special game transition combination in the situation of “special game winning”. is there. Further, in each game state, the prescribed number is configured to be different, and when the number of bets and the prescribed number are not the same, the game is not started. Note that this example is merely an example, and the configuration relating to the winning combination, the lottery probability and the specified number is not limited at all.

  Returning to the description of the flowchart of FIG. 40, next, in step 1320, the game content determination means 1140 stores the game content determination random number and winning combination determination lottery table 1142a temporarily stored in the game content determination random number temporary storage means 1141a. The winning combination is determined based on the lottery table set as, and temporarily stored in the winning combination information temporary storage unit 1191b. Next, in step 1322, the game content determination unit 1140 determines whether or not the winning combination temporarily stored in the winning combination information temporary storage unit 1191b is a special game transition combination. In the case of Yes in step 1322, in step 1324, the game content determination means 1140 turns on the special game winning flag in the special game related flag temporary storage means 1192a. Next, in step 1326, the information transmission control unit 1200 transmits a winning combination command (determined winning combination information or start lever operation information) to the sub main control unit 3000 side based on the type of the winning combination. The command transmission buffer 1201 is set, and the process proceeds to the next process (reel rotation operation start control process in step 1400). In the case of No in step 1322, the process proceeds to step 1326.

  Next, the reel rotation operation start control process related to the subroutine of step 1400 in FIG. 35 will be described using the flowchart of the reel rotation operation start control process in FIG. First, in step 1402, the game interval management means 1151a determines whether or not a predetermined wait time (for example, 4.1 seconds from the start of the game in the game immediately before the game) has elapsed based on a known method. In the case of Yes in step 1402, in step 1404, the reel rotation operation start control means 1151 drives the drive source of the main reel unit 2110, and the reels of the left reel unit 2111, the middle reel unit 2112, and the right reel unit 2113 are Start rotating. Next, at step 1406, the information transmission control means 1200 transmits a command transmission buffer 1201 for transmitting information indicating that the rotation operation of each reel has been started (rotating cylinder rotation command) to the sub main control unit 3000 side. Then, the process proceeds to the next process (reel rotation operation stop control process in step 1500). If the result is No in step 1402, the process proceeds to step 1402 again.

  Next, the reel rotation operation stop control process related to the subroutine of Step 1500 in FIG. 35 will be described using the flowchart of the reel rotation operation stop control process in FIG. First, in step 1502, the reel control means 1150 determines that the rotation speeds of the reels of the left reel portion 2111, the middle reel portion 2112, and the right reel portion 2113 are constant rotation speeds (for example, 0.75 seconds / 1 rotation). In the case of Yes in step 1502, in step 1510, the input operation control unit 1110 validates the input operation of each stop button of the left reel stop button 2121, the middle reel stop button 2122, and the right reel stop button 2123 (from each stop button). The operation signal can be received), and the process proceeds to step 1512. If the answer is No in step 1502, the process proceeds to step 1502 again.

  Next, in step 1514, the reel rotation operation stop control unit 1152 executes different processing based on which stop button in the stop button unit 2120 is the operation signal. If no operation signal is received from any stop button in the stop button unit 2120 in step 1514, the process proceeds to step 1550.

  Next, when an operation signal is received from the left reel stop button 2121 in step 1514, in step 1520, the reel stop position determination unit 1152b is rotated using the reel current position detection control unit 1152a. The current position of the left reel unit 2111 is acquired, the winning combination temporarily stored in the winning combination information temporary storage unit 1191b is acquired, and the stop position determination reference table 1152b-1 is referred to based on the acquired information. Then, the stop position of the left reel portion 2111 is determined and temporarily stored in the reel stop position information temporary storage means 1191c. Next, in step 1522, the reel rotation operation stop control unit 1152 makes full use of the drive source of the left reel unit 2111 based on the stop position of the left reel unit 2111 temporarily stored in the reel stop position information temporary storage unit 1191c. Thus, the left reel unit 2111 is rotated and moved from the current position to the stop position and then stopped. Next, in step 1524, the input operation control means 1110 invalidates the input operation of the left reel stop button 2121. Next, in step 1546, the information transmission control unit 1200 sets information indicating that the stop button has been operated (stop button operation command) in the command transmission buffer for transmitting to the sub-main control unit 3000 side, Control goes to step 1550.

  Next, when an operation signal is received from the middle reel stop button 2122 in step 1514, in step 1530, the reel stop position determination unit 1152b is rotated using the reel current position detection control unit 1152a. The current position of the middle reel portion 2112 is acquired, the winning combination temporarily stored in the winning combination information temporary storage unit 1191b is acquired, and the stop position determination reference table 1152b-1 is referred to based on the acquired information. Then, the stop position of the middle reel portion 2112 is determined and temporarily stored in the reel stop position information temporary storage means 1191c. Next, in step 1532, the reel rotation operation stop control unit 1152 makes full use of the drive source of the middle reel unit 2112 based on the stop position of the middle reel unit 2112 temporarily stored in the reel stop position information temporary storage unit 1191 c. Thus, the middle reel portion 2112 is rotated from the current position to the stop position and then stopped. Next, in step 1534, the input operation control unit 1110 invalidates the input operation of the middle reel stop button 2122 and proceeds to step 1546.

  Next, when an operation signal is received from the right reel stop button 2123 in step 1514, in step 1540, the reel stop position determination unit 1152b is rotated using the reel current position detection control unit 1152a. The current position of the right reel unit 2113 is acquired, the winning combination temporarily stored in the winning combination information temporary storage unit 1191b is acquired, and the stop position determination reference table 1152b-1 is referred to based on the acquired information. Then, the stop position of the right reel portion 2113 is determined and temporarily stored in the reel stop position information temporary storage means 1191c. Next, in step 1542, the reel rotation operation stop control unit 1152 makes full use of the drive source of the right reel unit 2113 based on the stop position of the right reel unit 2113 temporarily stored in the reel stop position information temporary storage unit 1191c. Thus, the right reel portion 2113 is stopped after rotating from the current position to the stop position. Next, in step 1544, the input operation control unit 1110 invalidates the input operation of the right reel stop button 2123 and proceeds to step 1546.

  Next, in step 1550, the reel control unit 1150 determines whether or not the rotation operation of all the reel units in the main reel unit 2110 has been completed. If Yes in step 1550, the process proceeds to the next process (a winning combination determination control process in step 1600). If No in step 1550, the process proceeds to step 1514.

  Next, the winning combination determination control process related to the subroutine of step 1600 in FIG. 35 will be described using the flowchart of the winning combination determination control process in FIG. First, in step 1602, the winning combination specifying unit 1161 acquires stop position information of the left reel unit 2111, the middle reel unit 2112, and the right reel unit 2113 temporarily stored in the reel stop position information temporary storage unit 1191c. Next, in step 1604, the winning combination specifying means 1161 specifies a winning combination and a winning line on a predetermined active line based on the acquired stop position information, and temporarily stores them in the winning combination related information temporary storage means 1191d. Then, the process proceeds to the next process (payout control process in step 1700).

  Next, payout control processing according to the subroutine of step 1700 in FIG. 35 will be described using the flowchart of payout control processing in FIG. First, in step 1702, the payout amount determination unit 1162 acquires the winning combination information temporarily stored in the winning combination related information temporary storage unit 1191d. Next, in step 1708, the payout amount determination means 1162 determines whether or not the winning combination is a re-game player based on the acquired winning combination information. In the case of Yes in step 1708, in step 1710, the payout amount determination means 1162 determines the payout number with reference to the payout number determination reference table 1162b based on the acquired winning combination information, and the determined payout number is determined. The counter value of the payout counter 1310 is set, and the process proceeds to step 1712. On the other hand, in the case of No in step 1708, in step 1730, the payout amount determination unit 1162 turns on the re-game winning flag in the game control related flag temporary storage unit 1191a and performs the next process (game state transition control process in step 1800). ).

  FIG. 46 is an example of the payout amount determination reference table 1162b. As shown in this example, when the winning combination wins, the number of game medals to be paid out is unambiguously based on the type of winning combination, the number of dividends and the number of winning lines predetermined for each specified number. It is configured to be determined. This example is merely an example, and the configuration of the winning combination and the number of payouts is not limited at all.

  Returning to the description of the flowchart of FIG. 45, next, in step 1712, the payout control means 1300 determines whether or not the counter value of the payout counter 1310 exceeds zero. In the case of Yes in Step 1712, in Step 1714, the payout control means 1300 determines whether or not the special game in-progress flag in the special game related flag temporary storage means 1192a is on. In the case of Yes in step 1714, the payout control means 1300 adds the counter value of the payout counter 1310 to the special game payout cumulative counter 1171 in step 1716. Next, in step 1718, the payout control means 1300 subtracts 1 from the counter value of the payout counter 1310. Next, in step 1720, the game medal management control means 1120 determines whether or not the counter value of the storage number counter 1122 is less than a predetermined maximum storage number. In the case of Yes in step 1720, in step 1722, the game medal management control unit 1120 adds 1 to the counter value of the stored number counter 1122, and the process proceeds to step 1726. On the other hand, in the case of No in step 1720, in step 1724, the game medal management control means 1120 discharges one game medal (one medal) from the discharge port 108 from among the game medals held inside the gaming machine frame. Then, the process proceeds to step 1726. Next, in step 1726, the payout control means 1300 determines whether or not the counter value of the payout counter 1310 is zero. In the case of Yes in step 1726, the process proceeds to the next process (game state transition control process in step 1800). In the case of No in step 1712, the process proceeds to the next process (game state transition control process in step 1800), and in the case of No in step 1714 or step 1726, the process proceeds to step 1718.

  Next, the gaming state transition control process according to the subroutine of Step 1800 in FIG. 35 will be described using the flowchart of the gaming state transition control process in FIG. First, in step 1802, the special game control means 1170 determines whether or not the special game flag in the special game related flag temporary storage means 1192a is off. In the case of Yes in Step 1802, in Step 1808, the special game control means 1170 determines whether or not the special game winning flag in the special game related flag temporary storage means 1192a is on. In the case of Yes in step 1808, in step 1810, the special game control means 1170 refers to the winning combination related information temporary storage means 1191d, and determines whether or not the special game transition combination is a winning combination. In the case of Yes in Step 1810, in Step 1812, the special game control means 1170 turns off the special game winning flag in the special game related flag temporary storage means 1192a. Next, in step 1814, the special game control means 1170 turns on the special game flag in the special game related flag temporary storage means 1192a. Next, in step 1816, the information transmission control means 1200 sets information indicating that the special game has started (special game start command) in the command transmission buffer 1201 for transmitting to the sub-main control unit 3000 side. Then, the process proceeds to the next process (game end control process in step 1900). If No in step 1808 or step 1810, the process proceeds to the next process (game end control process in step 1900).

  On the other hand, in the case of No in step 1802, in step 1820, the special game control means 1170 determines whether or not the counter value of the special game payout cumulative counter 1171 exceeds a predetermined number (for example, 360). In the case of Yes in Step 1820, in Step 1822, the special game control means 1170 clears (zero clears) the counter value of the special game payout accumulation counter 1171. Next, in step 1824, the special game control means 1170 turns off the special game-in-progress flag in the special game related flag temporary storage means 1192a. Next, in step 1826, the information transmission control means 1200 sets information indicating that the special game has ended (special game end command) in the command transmission buffer 1201 for transmitting to the sub-main control unit 3000 side, The process proceeds to the next process (game end control process in step 1900). On the other hand, in the case of No in Step 1820, in Step 1828, the information transmission control means 1200 includes information related to the progress of the game during the special game {special game command (for example, the counter value of the special game payout cumulative counter 1171, the winning combination) Type, the number of payouts in the game, etc.)} are set in the command transmission buffer 1201 for transmission to the sub-main control unit 3000 side, and the process proceeds to the next process (game end control process in step 1900).

  Next, the game end control process according to the subroutine of step 1900 in FIG. 35 will be described using the flowchart of the game end control process in FIG. First, in step 1902, the information transmission control unit 1200 sets information indicating that the game has ended (game end command) in the command transmission buffer 1201 for transmitting to the sub-main control unit 3000 side. Next, at step 1904, the game end control means 1180 clears the count value of the insertion number counter 1121 (zero clear), and proceeds to the next process (the specified number input control process of step 1100).

  Next, control processing executed on the sub-main control unit 3000 side will be described with reference to FIGS. 49 to 56. First, FIG. 49 is a main flowchart on the sub-main control unit 3000 side in the spinning cylinder type gaming machine according to the second embodiment. Here, the process of FIG. 5A is an initial process on the sub-board side that is executed only when the power to the gaming machine is turned on. That is, when the power to the gaming machine is turned on, in step 4500, the sub-main control unit 3000 executes a reset cause determination process described later, and thereafter repeatedly executes step 5000, which is a repetitive processing routine of the sub-main control unit 3000. Move to loop processing. Here, when Step 5000 is executed, as shown in the process of FIG. 5B, first, at Step 6000, the effect display control means 3000 executes an effect operation content determination process to be described later. Next, in step 7000, the effect display control means 3000 executes effect operation control processing described later. Next, in step 7200, the effect display control means 3000 executes a special game display control process described later. Next, in step 7400, the effect display control means 3000 executes a display command transmission control process to be described later, and ends this repeat processing routine. Further, the process of FIG. 10C is an interrupt process of the sub main control unit 3000, and the main control board 1000 described above is provided to one terminal (NMI terminal in this example) of the CPU of the sub main control unit 3000. This is a processing flow (step 4700) when the STB signal line is connected. That is, when an NMI interrupt occurs in the CPU of the sub main control unit 3000 (when the STB signal line is turned on), in step 4800, the sub main control unit 3000 receives the command input port (from the main control device 1000 side). Check the data signal line input port). In step 4900, based on the confirmation result, the sub main control unit 3000 is transmitted from the main control device 1000 side to the RAM on the sub main control unit 3000 side (main side information temporary storage unit 3110 in this example). The command is temporarily stored, and the process that was being executed immediately before this interrupt process is restored. In this embodiment, a mode in which a 1-byte command is transmitted for one interrupt is illustrated, but it is also possible to continuously receive a command of a plurality of bytes for one interrupt.

  Next, reset cause determination processing according to the subroutine of step 4500 in FIG. 49 will be described using the flowchart of reset cause determination processing in FIG. First, in step 4502, the reset cause determination means 3300 starts the reset cause determination time management timer 3301. Next, in step 4504, the reset cause determination means 3300 refers to the reset cause determination time management timer 3301 to determine whether or not a predetermined time (for example, 1 second) related to the reset cause determination time has not been reached. To do. In the case of Yes in step 4504, in step 4506, the reset cause determination unit 3300 refers to the main side information temporary storage unit 3110 and determines whether or not the RAM clear information is received from the main controller 1000 side. In the case of Yes in step 4506, in step 4508, the reset cause determination unit 3300 determines that the reset cause of the sub main control unit 3000 is power-on (normal reset) accompanied by RAM clear. Next, in step 4509, the reset cause determination means 3300 displays the RAM information of the sub-main control unit 3000 (for example, the state of execution of a game assist effect such as each flag state and selected effect information, so-called AT (assist time)) Reset the execution determination parameters. Next, in step 4510, the reset cause determination unit 3300 resets the reset information temporary storage unit 3302 used in steps 4514 to 4515 described later, and proceeds to the processing of step 4511. On the other hand, in the case of No in step 4506, in step 4520, the reset cause determination unit 3300 refers to the main-side information temporary storage unit 3110 and has received various information commands from the main controller 1000 before power-off. Determine whether. In the case of Yes in step 4520, the reset cause determination means 3300 determines in step 4522 that the reset cause of the sub-main control unit 3000 is the power-on (normal reset) due to the return from power-off, and the process returns to step 4511. Transition. On the other hand, if No in step 4520, the process proceeds to step 4504. Next, in step 4511, the reset cause determination unit 3300 notifies the speaker 114 that the power has been turned on at the maximum volume (about 30 seconds to 1 minute). In addition, this example is an example to the last, and is not limited to the notification method and content at all. Further, in the second embodiment, for convenience of explanation, it is not configured to perform different notification depending on the cause of reset, but may be configured to perform different notification depending on the cause of reset. Next, in step 4512, the reset cause determination means 3300 resets the reset cause determination time management timer 3301 after stopping and then returns to the caller of this subroutine.

  On the other hand, in the case of No in step 4504 (in other words, when a command related to a normal game is received from the main control device 1000 before the reset cause determination time management timer 3301 times out, or reset cause determination time management If no command is received from the main controller 1000 before the timer 3301 times out), in step 4513 the reset cause determination means 3300 resets the reset cause determination time management timer 3301 after stopping it. To do. Next, in step 4514, the reset cause determination unit 3300 adds 1 to the number of abnormal resets in the reset information temporary storage unit 3302. Next, in step 4515, the reset cause determination unit 3300 saves the RAM information (for example, each flag state and effect execution state) of the sub-main control unit 3000 in the reset information temporary storage unit 3302. In step 4516, the reset cause determination unit 3300 determines that the reset cause of the sub-main control unit 3000 is a reset due to noise or fraud (abnormal reset). Next, in step 4518, the reset cause determination unit 3300 resets the RAM information (for example, each flag state and effect execution state) of the sub-main control unit 3000. Next, in step 4550, the reset cause determination means 3300 executes a toggle signal determination process described later, and returns to the caller of this subroutine. Although not shown, the information in the reset information temporary storage unit 3302 is configured to be displayed on the effect display unit 4100 or the like when a predetermined condition is satisfied (for example, when a so-called sub input button is operated). It is desirable. By configuring in this way, the number of resets on the sub-main control unit 3000 side based on unforeseen factors can be grasped, and the processing contents on the sub-main control unit 3000 side executed when the reset occurs can be estimated. Therefore, it is information that contributes to troubleshooting during operation at the amusement hall, and information that contributes to debugging information during aging (heat run) during development.

  Next, toggle signal determination processing according to the subroutine of step 4550 in FIG. 50 will be described using the flowchart of toggle signal determination processing in FIG. First, in step 4552, the toggle signal determination means 3303 starts the toggle signal determination time management timer 3303a. Next, in step 4554, the toggle signal determination unit 3303 refers to the toggle signal determination time management timer 3303a, and determines a predetermined time related to the determination time of the toggle signal (for example, the interrupt cycle on the main controller 1000 side is T). In some cases, T + margin α is used to determine whether or not the time point at which the toggle signal change point can be detected is reached. In the case of Yes in step 4554, in step 4556, the toggle signal determination means 3303 refers to the main side information temporary storage means 3110, and the contents of the toggle signal sent from the main controller 1000 side (for example, on / off) ) Is stored in the toggle signal temporary storage means 3303b. Next, in step 4558, the toggle signal determination unit 3303 refers to the contents of the toggle signal temporary storage unit 3303b to determine whether the toggle signal has changed. In the case of Yes in step 4558, in step 4560, the toggle signal determination unit 3303 determines that the reset cause of the sub-main control unit 3000 is due to noise or the like, and proceeds to step 4562. In the case of No in step 4558, the process proceeds to step 4554. On the other hand, in the case of No in step 4554, in step 4564, the toggle signal determination unit 3303 determines that the reset cause of the sub-main control unit 3000 is due to fraud. Next, in step 4566, the toggle signal determination unit 3303 notifies the speaker 114 that the fraud has been performed with the maximum volume (about 30 seconds to 1 minute), and proceeds to step 4562. In addition, this example is an example to the last, and is not limited to the notification method and content at all. Further, in the second embodiment, for convenience of explanation, it is configured to notify that fraud has been performed. However, it may be configured to perform notification that power has been turned on. The game state such as AT may be changed so as to work against the player by judgment (for example, bet or insertion of medals is not accepted, the reels are not rotated, all winning combinations are not won, etc.). Next, in step 4562, the toggle signal determination means 3303 resets the toggle signal determination time management timer 3303a after stopping, and returns to the caller of this subroutine.

  Next, the effect operation content determination process according to the subroutine of step 6000 in FIG. 49 will be described using the flowchart of the effect operation content determination process in FIG. First, in step 6002, the presentation operation content determination unit 3210 refers to the main-side information temporary storage unit 3110 and determines whether or not a start lever operation command has been received from the main controller 1000 side. In the case of Yes in step 6002, in step 6004, the production operation content determination means 3210 refers to the main side information temporary storage means 3110, acquires the winning combination command transmitted from the main control device 1000 side, and the production general information. Temporary storage in the temporary storage means 3500. Next, in step 6010, the production operation content determination unit 3210 produces the production operation content determination lottery table 3211 (based on the winning combination information and the sub game state type temporarily stored in the production general information temporary storage unit 3500. The effect pattern is determined by lottery with reference to the effect table 0), and the determined effect pattern is set in the effect general information temporary storage means 3500, and the process proceeds to Step 6020.

  Here, FIG. 53 (effect table 0) is an example of the effect operation content determination lottery table 3211. In the following description, the case where the winning combination information is “first type BB” is illustrated, but the same applies to other winning combination information. First, as shown in this example, the effect pattern in the second embodiment specifies the execution contents related to the effect operation such as the effect image reproduction timing as one content. Then, based on the effect pattern determined based on the random value acquired at an arbitrary timing, the specified effect operation is executed. For example, when the winning combination information is “first type BB” and the acquired random number value is “100”, the effect pattern “effect A-5” is determined. Then, on the basis of the effect pattern “effect A-5”, the reproduction of “effect image A-5-0” is started when the rotation rotation information is received from the main controller 1000 side, and the main controller 1000 side When the first stop button operation information is received, the reproduction of the “effect image A-5-1” is started, and when the third stop button operation information is received from the main controller 1000 side. Playback of “effect image A-5-3” is started. Here, also in the rotating type gaming machine, like the pachinko gaming machine, each production pattern can be classified as a production system based on the design intention of the production pattern. Since the details of the production system are the same as those of the pachinko gaming machine, description thereof is omitted.

  Returning to the description of the flowchart of FIG. 52, next, in step 6020, the effect operation content determination means 3210 is based on the determined effect pattern, and the effect image playback timing (in this example, only the effect image playback timing). Although illustrated, it is not limited to this, for example, movable body accessory operation timing, illumination lamp lighting timing, audio reproduction timing, so-called sub input button pressing timing, etc.), and execution contents (If it is an effect image, for example, the image reproduction content of “effect image A-5”) is temporarily stored (set) in effect general information temporary storage means 3500. Next, in step 6022, the production operation content determination unit 3210 turns on the production operation permission flag in the production general information temporary storage unit 3500, and proceeds to the next process (the production operation control process in step 7000). In the case of No in step 6002, the process proceeds to the next process (the rendering operation control process in step 7000).

  Next, the rendering operation control process according to the subroutine of step 7000 in FIG. 49 will be described using the flowchart of the rendering operation control process in FIG. First, in step 7002, the rendering operation control unit 3200 determines whether or not the rendering operation permission flag in the rendering general information temporary storage unit 3500 is on. In the case of Yes in step 7002, in step 7004, the rendering operation control means 3200 turns off the rendering operation permission flag in the rendering general information temporary storage means 3500. Next, in step 7006, the rendering operation control unit 3200 turns on the rendering operation execution flag in the rendering general information temporary storage unit 3500, and proceeds to step 7008. In the case of No in step 7002, the process proceeds to step 7008.

  Next, in step 7008, the effect operation control means 3200 determines whether or not the effect operation execution flag in the effect general information temporary storage means 3500 is on. In the case of Yes in step 7008, in step 7010, the effect image display control means 3220 refers to the effect image reproduction timing set in the effect general information temporary storage means 3500, and determines whether or not the timing has been reached. . In the case of Yes in step 7010, in step 7012, the image display command related to the display update timing is set in the subcommand transmission buffer 3601 for transmitting to the subsub control unit 4000 side, and the write pointer is added. On the other hand, in the case of No in step 7010, the process proceeds to step 7022.

  Next, in step 7022, the production operation control means 3200 refers to the information set in the production general information temporary storage means 3500, and determines whether or not all the production operations scheduled to be executed have been completed. . In the case of Yes in step 7022, in step 7024, the production operation control unit 3200 turns off the production operation execution flag in the production general information temporary storage unit 3500 and performs the next process (special game display control process in step 7200). Migrate to In the case of No in Step 7008 or Step 7022, the process proceeds to the next process (a special game display control process in Step 7200).

  Next, the special game display control processing according to the subroutine of step 7200 in FIG. 49 will be described with reference to the flowchart of the special game display control processing in FIG. First, in step 7202, the effect image display control means 3220 refers to the flag area of the effect general information temporary storage means 3500, and determines whether or not the special gaming flag is off. In the case of Yes in step 7202, in step 7204, the effect image display control means 3220 refers to the main side information temporary storage means 3110 and determines whether or not special game start information from the main control device 1000 side has been received. . In the case of Yes in step 7204, in step 7206 and step 7208, the effect image display control means 3220 turns on the special game flag in the flag area of the effect general information temporary storage means 3500 and on the effect display unit 4100. A big hit start display is performed, and the process proceeds to step 7212. Note that if the result is No in Step 7202, the process proceeds to Step 7212.

  Next, in step 7212, the effect image display control means 3220 is information on the progress of the game during the special game based on the special game information sequentially transmitted from the main controller 1000 side on the effect display unit 4100 { The number of payouts, the number of acquisitions (net increase), etc.} are sequentially displayed. Next, in step 7214, the effect image display control means 3220 refers to the main side information temporary storage means 3110 and determines whether or not a special game end command has been received from the main controller 1000 side. In the case of Yes in step 7214, in step 7216, the effect image display control means 3220 performs a big hit end display on the effect display unit 4100. Next, in step 7218, the effect image display control means 3220 turns off the special game flag in the flag area of the effect general information temporary storage means 3500, and proceeds to the next process (the effect operation content determination process in step 7000). To do. If No in step 7204 or step 7214, the process proceeds to the next process (display command transmission control process in step 7400).

  Next, the display command transmission control process related to the subroutine of step 7400 in FIG. 49 will be described using the flowchart of the display command transmission control process in FIG. First, in step 7404, the information transmission / reception control unit 3600 determines whether or not the values of the read pointer and the write pointer are equal. If Yes in step 7404, the process returns to the caller of this subroutine.

  On the other hand, in the case of No in step 7404, in step 7406, the information transmission / reception control means 3600 transmits the command set in the subcommand transmission buffer 3601 to the sub-sub side and adds the read pointer. Next, in step 7408, the information transmission / reception control unit 3600 confirms the reception port for the sub-sub control unit 4000 and confirms input information (particularly, a response signal) from the sub-sub control unit 4000. Next, in step 7410, the information transmission / reception control means 3600 determines whether a normal signal (so-called ACK signal) has been received as a response signal from the sub-sub control unit 4000 side. If YES in step 7410, the process proceeds to step 7404. If NO in step 7410, the information transmission / reception control unit 3600 returns an abnormal signal (as an answer signal from the sub-sub control unit 4000 side in step 7412). It is determined whether or not a so-called NACK signal has been received. If YES in step 7412, the information information transmission / reception control unit 3600 notifies that an error has occurred (for example, notification by the game effect lamp 190) in step 7414, and proceeds to step 7404. If No in step 7412, the process proceeds to step 7408, and a response signal wait loop process from the sub-sub control unit 4000 side is executed.

  Note that, when configured as described above, this subroutine continues to be executed when a response signal from the sub-sub control unit 4000 side cannot be received, but the present invention is not limited to this. In this case, for example, when the response signal from the sub sub control unit 4000 side cannot be received for a predetermined time, the subroutine may be forcibly terminated by returning to the calling source of the subroutine. Good.

  Next, processing on the sub-sub control unit (effect display means 4000) side will be described with reference to the flowcharts of FIGS. First, FIG. 57 is a main flowchart of the sub-sub control unit (effect display means 4000). First, in step 3200, the effect display unit 4000 executes a display command reception control process described later. Next, in step 3400, effect display means 4000 executes a command analysis / image display control process, which will be described later, and repeats the process of returning to step 3200. Hereinafter, processing related to each subroutine will be described in detail.

  First, the display command reception control process related to the subroutine of step 3200 in FIG. 57 will be described using the flowchart of the display command reception control process in FIG.

  First, in step 3210, the sub information transmission / reception control means 4550 confirms the reception port for the sub main control unit 3000 side. Next, in step 3212, the sub information transmission / reception control unit 4550 determines whether a transmission command from the sub main control unit 3000 side has been received based on the confirmation result. If YES in step 3212, the sub information transmission / reception control unit 4550 stores the contents of the received command in the image display related information temporary storage unit 4551 in step 3214. Next, in step 3216, the sub information transmission / reception control unit 4550 refers to the image display related information temporary storage unit 4551 and determines whether or not the received data is normal. (For example, when a command is transmitted, the even number of “1” included in the bit string of the data to be transmitted is added to the command to be transmitted as error confirmation data, and the command is received on the sub sub control unit 4000 side. The method of calculating the value of the error confirmation data and determining whether or not the received data is normal based on the value) Next, in the case of Yes in step 3216, in step 3218, the sub information transmission / reception control means 4550 A normal signal (ACK signal) is transmitted as a response signal to the main control unit 3000 side, and the process proceeds to Step 3220. On the other hand, in the case of No in step 3216, in step 3222, the sub information transmission / reception control unit 4550 transmits an abnormal signal (NACK signal) as a response signal to the sub main control unit 3000 side. Next, in step 3224, the sub information transmission / reception control unit 4550 turns on the command reception error flag in the image display related information temporary storage unit 4551, and proceeds to step 3220. Here, the command reception error flag is a flag that is turned on when it is determined that the information received from the sub-main control unit 3000 side is abnormal, and when the execution of the command analysis / image display control process described later is completed. This flag is maintained until the ON state. If No in step 3212, the process proceeds to the next process (command analysis / image display control process in step 3600).

  Next, command analysis / image display control processing according to the subroutine of step 3400 in FIG. 57 will be described using the flowchart of command analysis / image display control processing in FIG. First, in step 3402, the image display control unit 4500 determines whether or not the display control execution permission flag in the image display related information temporary storage unit 4551 is on. In the case of Yes in step 3402, in step 3404, the image display control unit 4500 turns off the display control execution permission flag in the image display related information temporary storage unit 4551, and proceeds to step 3406. If No in step 3402, the process proceeds to the next process (display command reception control process in step 3200).

  Next, in step 3406, the image display control unit 4500 determines whether or not the command reception error flag in the image display related information temporary storage unit 4551 is off. In the case of Yes in step 3406, in step 3408, the image display control unit 4500 refers to the image display related information temporary storage unit 4551, displays an image corresponding to the received command on the effect display unit 4100, and step Move to 3410.

  On the other hand, in the case of No in step 3406, in other words, when the information transmitted from the effect display control unit 3000 cannot be normally received, in step 3412, the image display control unit 4500 displays the image display related information temporary storage unit 4551. The command reception error flag in is turned off. In step 3414, the image display control unit 4500 executes a predetermined error handling process, and proceeds to the next process (display command reception control process in step 3200).

(Function)
With the configuration as described above, according to the second embodiment, in the swivel type gaming machine, the sub-main control unit 3000 sets the CPU in a reset state independently from the main control board 1000 side. Is configured to be able to receive information transmitted from the main control board 1000 when the CPU on the sub main control unit 3000 side is reset, and for a predetermined period from the trigger. If it is determined that the information received until the elapse of time is initial information (in this example, RAM clear information or various information commands), the reset factor is determined to be appropriate, If the information received before the elapse of time is found to be action information (in this example, a command related to a normal game), or until a predetermined period of time elapses. If the information from the main control board 1000 side is not received, it is determined that the reset factor is invalid, and if it is determined that the reset factor is appropriate, notification based on a predetermined notification mode is performed. While the process is executed, when it is determined that the reset factor is invalid, the notification process can be executed. As a result, when only the CPU on the sub-main control unit 3000 side is reset, it is possible to determine whether the factor at the time of the reset is appropriate or inappropriate. And since it becomes possible to determine whether or not to execute the notification process after reset according to the factor, it is possible to avoid a situation where the player and the game hall operator develop into useless troubles. It becomes.

  Furthermore, according to the second embodiment, the sub-main control unit 3000 side determines that the reset factor is inappropriate, and after the determination, the specific operation information (toggle signal in this example) is sent. If it is not received, it is determined that the reset factor is invalid, while it is determined that the reset factor is invalid, and if the specific operation information is received after the determination, the reset factor is reset. When it is determined that the factor is not illegal, and when the reset factor is determined to be illegal, the notification process based on the predetermined notification mode is executed, while when the reset factor is determined not to be incorrect, The notification process is not executed. As a result, when only the CPU on the sub-main control unit 3000 side is reset, it is possible to determine whether the factor at the time of the reset is incorrect (whether it is caused by an illegal act). It becomes possible. And since it becomes possible to determine whether or not the notification process after reset can be executed in accordance with the factor, it is possible to more suitably avoid a situation where the player and the game hall operator develop into useless troubles. In addition, if fraudulent activity has been performed, the fact can be promptly notified.

(Example of change from the second embodiment)
In the second embodiment, when the CPU on the sub-main control unit 3000 side is reset, the main control is configured so that information transmitted from the main control device 1000 side can be received. Although it is configured to be able to determine the cause of the reset of the CPU on the sub-main control unit 3000 side based on the information received from the device 1000 side, the mode of using the information received from the main control device 1000 side is only It is an example, and it is possible to create a similar configuration (action) using information received from other means (for example, the sub-sub control unit 4000) that transmits information to the sub-main control unit 3000. . Therefore, an example of such a configuration is a modified example (modified example 3) from the second embodiment, and only the modified points from the second embodiment will be described in detail below. Although details are omitted, in order to reduce the possibility of being affected by noise at the same time, it is desirable to separately provide a reset IC for supplying a reset signal to the sub-main control unit 3000 and the sub-sub control unit 4000.

(Modification 3)
Next, FIG. 60 is a flowchart showing a flow of reset cause determination processing performed by the sub-main control unit 3000 in FIG. 50 in Modification 3 from the second embodiment. First, the changes from the second embodiment are about Step 4504 and Step 4506 (Modification 3), and the purpose is to be configured to be able to receive information transmitted from the sub-sub control unit 4000 side. That is, after the execution of step 4502, in step 4504, the reset cause determination means 3300 refers to the reset cause determination time management timer 3301 and has not yet reached a predetermined time related to the reset cause determination time (eg, 3 seconds). It is determined whether or not it is reached. In the case of Yes in step 4504, in step 4506, the reset cause determination unit 3300 determines whether or not reset information has been received from the sub-sub control unit 4000 side. If Yes in step 4506, the process proceeds to step 4508, while if No in step 4506, the process proceeds to step 4504. If No in step 4504, the process proceeds to step 4513.

  Next, FIG. 61 is a flowchart showing a flow of general processing performed by the sub-sub control unit 4000 in Modification 3 from the second embodiment. First, the change from the present embodiment is about the routine of Step 2500 (Modification 3), and the purpose thereof is to send information (reset information) that the sub-main control unit 4000 is powered on to the sub-main control unit. It is configured to be able to transmit to the 3000 side. That is, when the power is turned on to the sub main control unit 4000, the sub sub control unit 4000 receives information (reset information) that the sub sub control unit 4000 is turned on in step 2502 of FIG. ) Is transmitted to the sub-main control unit 3000 side, and thereafter, the routine of step 3000 in FIG.

  With the configuration as described above, according to the third modification from the second embodiment, when the sub main control unit 3000 is reset, first, whether the reset information is received from the sub sub control unit 4000 (RAM clearing is performed). If the reset information from the sub-sub control unit 4000 cannot be received, the change of the toggle signal from the main control device 1000 side can be checked to determine the cause of the reset. When the sub-main control unit 3000 returns from reset, a command indicating that the sub-main control unit 4000 has returned is transmitted, and a command indicating its own state is returned from the sub-sub control unit 4000 that has received the command. It is also possible to configure.

  As described above, a plurality of preferred embodiments of the present invention have been described. In any of these embodiments, the CPU on the second control unit side is reset in a situation where the second control unit is configured to be able to reset the CPU independently of the first device. If it is configured to be able to receive information transmitted from the first device side when triggered by the fact that the information received before the predetermined period of time has passed since the trigger, While determining that the reset factor is appropriate, if the information received until the predetermined period elapses from the trigger is found to be operation information, or until the predetermined period elapses from the trigger When the information from the side is not received, it is determined that the reset factor is invalid, and when it is determined that the reset factor is appropriate, a notification process based on a predetermined notification mode is executed. That one, when the reset factor is determined to be invalid, is configured capable of executing the notification process. As a result, when only the CPU on the second control unit side is reset, it is possible to determine whether the factor at the time of the reset is appropriate or inappropriate. And since it becomes possible to determine whether or not to execute the notification process after reset according to the factor, it is possible to avoid a situation where the player and the game hall operator develop into useless troubles. It becomes.

  Furthermore, when the second control unit determines that the reset factor is invalid and does not receive the specific operation information after the determination, it is determined that the reset factor is invalid. On the other hand, when it is determined that the reset factor is invalid and the specific operation information is received after the determination, the reset factor is determined not to be invalid and the reset factor is determined to be invalid. In the case where the notification is made, the notification process based on the predetermined notification mode is executed. On the other hand, when it is determined that the reset factor is not invalid, the notification process is not executed. As a result, when only the CPU on the second control unit side is reset, it is possible to determine whether the factor at the time of the reset is illegal (whether it is caused by an illegal act). It becomes. And since it becomes possible to determine whether or not the notification process after reset can be executed in accordance with the factor, it is possible to more suitably avoid a situation where the player and the game hall operator develop into useless troubles. In addition, if fraudulent activity has been performed, the fact can be promptly notified. In addition, even if it is determined that the reset factor is inappropriate, if the number of times is counted and the count result can be displayed under a predetermined condition, it can be used as debugging information at the development stage. In addition, when the administrator determines that there is a high possibility that fraud has been performed from another situation, it is possible to grasp the substance of fraud reset by checking the information. Further, it is possible to adopt a configuration in which a notification mode to be performed is changed according to the count value, or a notification is performed when a predetermined value is reached. Further, when the communication between the control means is unidirectional, by judging the reception state of the toggle signal, the unauthorized action that inhibits the transmission of the command by removing the wiring (harness) between the control means is identified. Slot machines that draw lots of AT (so-called assist time) activation / continuation on the sub-control board (especially slot machines that are advantageous to the player at the time of resetting, or that wins are triggering or ending AT) ). In particular, in order to make it difficult to generate a pseudo toggle signal, it is more preferable to transmit the toggle signal periodically (intermittently) or to change the period (variably change the period).

  In addition to the above-described embodiments, there are innumerable forms for carrying out, and various changes from those other than the present embodiment and the second embodiment are conceivable. For example, in the present embodiment and the second embodiment, the present invention is applied to a pachinko gaming machine / rotor-type gaming machine, but the present invention can also be applied to a jigball game machine, an arrangement ball game machine, and the like. Moreover, it is possible to combine each Example, each modified example, etc. suitably.

Claims (1)

A first control unit that operates in a first device having a first CPU;
A second control unit that operates in a second device having a second CPU, and is capable of transmitting information from the first device to the second device, while disabling information transmission from the second device to the first device. Configured,
The first control unit
A first CPU resetting means for releasing the reset state after setting the first CPU in a reset state when the predetermined condition is satisfied;
First control processing execution means for executing the first initial process triggered by the release of the reset state by the first CPU resetting means, and repeatedly executing the first steady process after the execution of the first initial processing; ,
A means for transmitting information to the second device, which transmits initial information during execution of the first initial process, and can transmit operation information during execution of the first steady process. Means and
The second control unit
When the specific condition is satisfied, the second CPU reset means for releasing the reset state after setting the second CPU to the reset state,
It is a means capable of receiving information transmitted from the first device when the reset state is released by the second CPU reset means, and the information received until a predetermined period has passed since the trigger is the initial information. If it is found that there is a reset factor, it is determined that the reset factor is appropriate. On the other hand, if it is found that the information received until the predetermined period elapses from the trigger is operation information, or if the trigger is determined from the trigger A second CPU reset factor determining means for determining that the reset factor is invalid if the information from the first device is not received before the period elapses;
When it is determined by the second CPU reset factor determination means that the reset factor is appropriate, the notification process based on the predetermined notification mode is executed, while when the reset factor is determined to be inappropriate, gaming machine characterized in that it is configured earthenware pots by performing the notification processing based on different notification manner from the predetermined notification manner.

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