JP2019081038A - Pachinko game machine - Google Patents

Abstract

To provide a Pachinko game machine capable of appropriately processing various random number generation functions of main control means.SOLUTION: A Pachinko game machine becomes a security mode for performing predetermined security check after initial setting of both of a 16-bit random number and an 8-bit random number, shifts to a user mode via the security mode, executes control start processing, and game progress interrupt processing executed at a predetermined period so as to advance a game, clears error information in the control start processing when the control start processing is started, and completes the security check before voltage is below a value required for operation of a CPU when the voltage is equal to or less than a predetermined value during the security mode.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a pachinko game machine using a game ball as a game medium.

In general, pachinko gaming machines are provided with a main board (also referred to as a main control board etc.) and a sub board (also referred to as a sub control board etc.) that receives commands from the main control board and performs control related to rendering etc. ing. Furthermore, the main board generates a random number value in a predetermined numerical range based on the function of the mounted CPU, and acquires the random number value at a predetermined timing such as winning opening winning. Then, the main substrate performs a big hit lottery, various symbol lottery, various variation pattern lottery, and the like based on the acquired random number value.
JP 2014-124346 A

  By the way, in the pachinko gaming machine provided with the main substrate as described above, it is desirable to have a function of generating various random number values so that an optimum random number generation function can be selected for various lotterys. However, in the pachinko gaming machine, as the CPU, although unique information such as an ID number individually differs, the initial setting and control function are common, and those that have received official authentication are used. In addition, such CPUs are individually mounted on a plurality of game machine manufacturers and various game machines of different models. For this reason, which of the various random number generation functions provided to the CPU is to be used depends on the design of each model, but randomness is not the case for any random number generation function. From the viewpoint of securing etc., it is necessary to predetermine appropriate processing.

  The present invention has been made in view of these problems, and an object thereof is to provide a pachinko game machine capable of performing appropriate processing for various random number generation functions of the main control means.

In order to solve the above-mentioned subject, the present invention is a main control means (main CPU etc.) which controls a game, and
And a production control unit connected communicably to the main control unit and performing control processing according to a production control command related to a production from the main control unit,
In the game progress interrupt process, a big hit lottery is performed based on the game medium discharged into the game area flowing down the game area and passing through a predetermined start area (a first start winning opening, a second start winning opening, etc.) It is possible to do
It is a pachinko game machine that executes a special game that is more advantageous to the player than usual when it is the big hit,
The main control means
16 bit random number generation means (such as a random number circuit for 16 bit random numbers) and 8 bit random number generation means (a random number circuit for 8 bit random numbers),
Of the 16-bit random number generation means and the 8-bit random number generation means, only the 16-bit random number generation means is used,
When the power of the pachinko gaming machine is turned on, after the initial setting of both the 16-bit random number generation unit and the 8-bit random number generation unit, the security mode is set to perform a predetermined security check.
In the security mode, the user mode is entered when a predetermined security mode time, a fixed extension time for waiting for a predetermined period to elapse, a random extension time for waiting for a random period to elapse, and a predetermined predetermined time have elapsed. Migrate
Execute control start processing and game progress interrupt processing that is executed in a predetermined cycle for game progress.
If it is determined that a predetermined error has occurred, error information (such as an error flag) relating to the predetermined error is set,
The power-off confirmation information is set to indicate that the power is turned off when the voltage supplied to the pachinko gaming machine becomes lower than a predetermined value.
When the control start process is started, in the control start process,
Clear the error information,
When it is determined that the power-off confirmation information is set (for example, in the case of YES in S30), the power-off processing (S301 to S307, etc.) for the power-off is executed.
If the voltage falls below a predetermined value during the security mode,
The pachinko game machine is characterized in that the security check is completed until the voltage falls below a value necessary for the operation of the main control means.

  According to the present invention, there is provided a pachinko gaming machine capable of effectively performing an effect relating to opening of the starting opening.

It is a figure which shows the basic structure in the front side of the pachinko game machine of one Example of this invention. It is a figure which shows the basic structure in the back side of a pachinko game machine. It is a figure showing a functional block of a pachinko game machine. It is an explanatory view showing the main substrate composition of a pachinko game machine. It is explanatory drawing which shows the basic composition of a main board | substrate. It is an explanatory view showing functional composition of a submain board and a subsub board. (A) is an explanatory view showing a display device for special symbols, etc., (b1) is an explanatory view showing a display example during variation of a decorative symbol in a production symbol display device, (b2) is a display example during stop of the decorative symbol. FIG. It is a figure which shows the success / failure determination table typically. (A) is a diagram schematically showing a symbol determination table according to a first lottery, (b) is a diagram schematically showing a symbol determination table according to a second lottery (c) It is a figure shown typically. It is a figure which shows a fluctuation pattern table typically. It is a figure which shows the fluctuation | variation pattern table for release in detail. It is a flowchart which shows the control start process in the main board | substrate. It is a flowchart which shows the control start process following FIG. It is a flow chart which shows game progress interruption processing in the main board. (A) is a chart showing an initial value random number update table, and (b) is a chart showing the initial value update type random number update table. It is explanatory drawing which shows the process of the power-off confirmation information setting in a main board | substrate. It is explanatory drawing which shows the power supply disconnection required time in a main board | substrate. It is a timing chart which shows security mode.

Hereinafter, a pachinko gaming machine which is a gaming machine according to an embodiment of the present invention will be described. In the pachinko gaming machine of the present embodiment, a plurality of games corresponding to the conventional first pachinko gaming machine are mixed. The second game is preferentially executed so that the first game and the second game as the plurality of games are not simultaneously executed. In addition, in order to make these game characteristics compatible, the pachinko gaming machine of the present embodiment includes a plurality of start winning openings, a plurality of special symbol display devices, a plurality of holding lamps, and a plurality of large winning openings.
<Outline configuration of pachinko gaming machine and outline of game characteristics>

  FIG. 1 shows the basic structure on the front side of a pachinko gaming machine. The pachinko gaming machine 10 mainly includes a gaming machine frame and a gaming board. The gaming machine frame of the pachinko gaming machine 10 includes an outer frame 11, a front frame 12, a transparent plate 13, a door 14, an upper ball tray 15, a lower ball tray 16, and a firing handle 17. The outer frame 11 has an opening portion and is a frame for fixing the pachinko game machine 10 in a position to be installed. The front frame 12 is a frame that is aligned with the opening of the outer frame 11, and is attached to the outer frame 11 so as to be openable and closable by a hinge mechanism (not shown). The front frame 12 includes a mechanism for firing a game ball which is a game medium, a mechanism for detachably accommodating a game board, a mechanism for guiding or recovering the game ball, and the like.

  The transparent plate 13 is formed of glass or the like and is supported by the door 14. The door 14 is openably and closably attached to the front frame 12 by a hinge mechanism (not shown). The upper ball dish 15 is provided in the dish unit 200, and has a mechanism for storing game balls, sending out the game balls to the launch rail, and removing the game balls from the lower ball dish 16. The lower ball tray 16 is similarly provided in the tray unit 200 and has a mechanism for storing and removing game balls. The lower front plate 18 located below the lower ball tray 16 is provided with a plurality of speakers 19 and outputs BGM, various sound effects and the like according to the game state, the effect pattern and the like.

  The game board 50 is located on the game area 52 divided by the outer rails and the inner rails hidden behind the door 14, and the out port 58, the effect symbol display device 60, the first start winning opening 62, the second starting winning opening 63 , A center decoration 64, a first large winning opening 91, a second large winning opening 92, an operating opening 68 (two in this embodiment, a left operating opening 68a and a right operating opening 68b), and a general winning opening 72. Further, in the game area 52, mechanisms such as a large number of game nails, a windmill and the like (not shown) are installed.

  In addition, a special symbol display device 53 (main control display device) is installed in the lower left part as viewed from the front outside the game area 52, and the special symbol display device 53, as shown in FIG. As shown in), a first special symbol display device 70 and a second special symbol display device 71 are provided. In the present embodiment, the first special symbol display device 70 and the second special symbol display device 71 may be collectively referred to as a special symbol display device.

  As shown in FIGS. 1 and 3, the first start winning opening 62 is provided as a starting winning opening corresponding to the first game, and the second starting winning opening 63 is provided as a starting winning opening corresponding to the second game. Be The first start winning opening 62 is provided with a start winning detection device 74. The start winning detection device 74 is a sensor that detects the entering of the gaming ball into the first starting winning opening 62, and generates (outputs) the first start winning information indicating the entering when the ball is entered.

  The second start winning opening 63 includes a start winning detection device 75, a common electric combination (a so-called "electric tulip"; not shown) and a common combination solenoid 76 for opening and closing the common combination. The start winning detection device 75 is a sensor that detects the entering of the gaming ball into the second starting winning opening 63, and generates (outputs) second starting winning information indicating the entering when the ball is entered. When the ordinary electric combination is expanded by the driving force of the ordinary electric combination solenoid 76, the so-called electric support is achieved, and the ease of entering the second start winning opening 63 is enhanced.

The second starting winning opening 63 is provided below the first starting winning opening 62, that is, at a position where the entry of the gaming ball is inhibited by the first starting winning opening 62. Therefore, while the ordinary motorized role does not open, entering the second starting winning opening 63 is inhibited by the first starting winning opening 62, and the second starting winning opening 63 has difficulty entering. Maintained. Therefore, in order to aim for entering the second starting winning opening 63 in the game, it is necessary to expand the normal motorized role. In the present embodiment, as a result of the ordinary electric winning combination being expanded, the ease of entering the second start winning opening 63 is higher than the ease of entering the first starting winning opening 62. However, it may be appropriately set according to the profit etc. obtained as a result of the first game and the second game, and a structure that does not enter at all when the ordinary electric role is not expanded, or the first start winning opening 62 It may be made to have the same opening width.

  Here, the modes in which the second start winning opening 63 is opened by the expansion include an open mode in a normal time and an open mode in a specific game described later. Among the above, the mode of opening at the normal time includes, for example, a short opening ending in a relatively short time of about 0.2 seconds (hereinafter may be referred to as “short opening”) or an opening time of this short opening For example, there is a long opening (which may be referred to as “long opening” in the following) in which opening for about 5 seconds is performed. Further, in the opening mode at the time of the specific game, there is a long opening for opening about 5 seconds, for example. Here, in the following, the state in which the short opening is performed can be referred to as the “short open state”, and the state in which the long opening is performed can be referred to as the “long open state”. Then, whether or not to open the second start winning opening 63, and in which manner is determined based on the result of the lottery that is related to the normal symbol pertaining to the ordinary electric role, but the normal symbol or the normal symbol The winning lot pertaining to will be described later.

  The general winning opening 72 includes a plurality of general winning detection devices 73 (see the block diagram of FIG. 3) for detecting entry of the game ball. The general winning detection device 73 is a sensor that detects the entry of the gaming ball into the general winning opening 72, and generates (outputs) general winning information indicating the entry when entering the ball. The general winning detection device 73 may be provided individually for the general winning opening, or the gaming balls entering the plurality of general winning openings 72 may be collectively collected or detected. Depending on the arrangement position (upper and lower, right and left) of the general winning opening and the number of prize balls set (for example, five prize balls and ten prize balls etc.), grouping and detection may be appropriately performed.

  As shown in FIG. 1, the first large winning opening 91 is provided as a large winning opening corresponding to the first game, and the second large winning opening 92 is provided as a large winning opening corresponding to the second game. The first large winning opening 91 is a winning detection device 78 (see the block diagram of FIG. 3) for detecting entry of the game ball, and a first open / close door for opening and closing the first large winning opening 91 And a large winning opening solenoid 80 for driving the first open / close door. The prize detection device 78 is a sensor that detects the entry of the game ball into the first big prize hole 91, and generates (outputs) the first big prize opening prize information indicating the entered ball when the ball is entered.

  The second large winning opening 92 drives a winning detection device 79 for detecting entry of the game ball, a second opening / closing door for opening / closing the second large winning opening 92, and a second opening / closing door A large winning opening solenoid 81 is provided. The prize detection device 79 is a sensor that detects the entry of the game ball into the second big prize opening 92, and generates (outputs) the second prize winning combination winning information indicating the entering when the ball is entered.

  The first large winning opening 91 is a horizontal rectangular winning opening that is opened as a "big hit" when the first special symbol 192 (see FIG. 7A) is stopped in a predetermined manner. The first large winning opening 91 is provided at a position above the out opening 58. The second large winning opening 92 is a horizontal rectangular winning opening that is opened as a "big hit" when the second special symbol 193 is stopped in a predetermined manner. The second large winning opening 92 is provided at the upper right position of the out opening 58.

In the present embodiment, decorative plates 91b and 92b are provided in front of the first large winning opening 91 and the second large winning opening 92, and each decorative plate is used to decorate the game area 52. Characters and figures are drawn. The decorative plates 91b and 92b are made of a transparent material so that the player can visually recognize the first opening / closing door, the second opening / closing door, the first large winning opening 91, and the second large winning opening 92. However, the decorative plates 91b and 92b may be opaque. Also, the first big winning opening 91
The second large winning opening 92 may be commonly used by arranging only one large winning opening (for example, the first large winning opening 91).

  An effect symbol display device 60 is provided substantially at the center of the game area 52, and the first special symbol display device 70 corresponding to the first game and the second special symbol display device corresponding to the second game are separated downward to the left 71 are provided adjacent to each other on the left and right (see FIG. 7A). The first special symbol display device 70 displays the change of the first special symbol 192 corresponding to the first game, and the second special symbol display device 71 changes the second special symbol 193 corresponding to the second game Is displayed. The first special symbol 192 is a symbol corresponding to the result of the first lottery performed with the game ball entering the first start winning opening 62 as a trigger, and the variable display is stopped at a predetermined hitting mode. When a big hit occurs, a special game (described later) is executed. The second special symbol 193 is a symbol corresponding to the result of the second lottery performed with the game ball entering the second start winning opening 63 as a trigger, and the variable display is stopped at a predetermined hitting mode. When a big hit occurs, a special game (described later) is executed.

  The first special symbol display device 70 and the second special symbol display device 71 are display means composed of, for example, a 7-segment LED (7-segment display body) to which a dot is added at the lower right corner. The second special symbol 193 is represented by nine types of numerals from "0" to "8". In addition, on the right side of the second special symbol in FIG. 7 (a), a round number display device (not shown) indicating the number of unit games in the special game is provided as a 2-digit 7-segment LED, which will be described later The number of rounds of both special games is commonly displayed in response to the occurrence of the first or second special game.

  As shown in FIGS. 7 (b1) and 7 (b2), in the display area 194 of the effect symbol display device 60, the left decorative symbol 190a used for effects relating to the first special symbol 192 and the second special symbol 193 is displayed. The state of fluctuation or stop of the decorative pattern 190 b of the right decorative pattern 190 c is displayed. Furthermore, in the display area 194 of the effect symbol display device 60, various notice displays related to the first special symbol 192 and the second special symbol 193, various cut-in displays for effects, various background displays, etc. Also done. The effect symbol display device 60 is, for example, a liquid crystal display. The decorative symbols 190a to 190c are symbols for visually presenting the first lottery result display indicated by the first special symbol 192 or the second lottery result indication indicated by the second special symbol 193. The effect symbol display device 60 displays, for example, moving images of a plurality of rows of symbol variations imitating a slot machine game in the display area 194 as the decorative symbols 190a to 190c.

  Although the effect symbol display device 60 is configured by a liquid crystal display in the present embodiment, it may be configured by other display means such as a mechanical drum or an LED. In addition, since the first special symbol 192 and the second special symbol 193 do not necessarily need to have a role of effect, in the present embodiment, the first special symbol display device 70 and the second lower left of the effect symbol display device 60 and the second special symbol The special symbol is displayed on the special symbol display device 71 in an inconspicuous size, but when the special symbol itself has a role to be displayed and the decorative symbol is not displayed, the special symbol is displayed on the special symbol display device 60. May be displayed on a liquid crystal display such as In addition, in the present embodiment, the decorative symbols 190a to 190c are illustrated in the rendering symbol display device 60 by using the first special symbol 192 and the second special symbol 193 in common, but they are displayed individually. Or, the device itself may be provided separately, and in the case of sharing as in the present embodiment, a display indicating which display corresponds to which special symbol is displayed in the corner of the effect symbol display device 60 Also good.

Of the left and right operation openings 68a and 68b, the left operation opening 68a is provided at the middle position on the left side of the game board 50, and the right operation opening 68b is on the right side of the game board 50 and the upper right of the second large winning opening 92 Provided at the Each operation opening 68a, 68b includes a passage detection device 69a, 69b (see FIG. 3). The passage detection devices 69a and 69b are sensors that detect the passage of the gaming ball in the corresponding operation openings 68a and 68b, and generate (output) passage information indicating the passage when passing. The passage of the game ball to the operation openings 68a and 68b is a trigger for a lottery for expanding the ordinary electric combination of the second start winning opening 63.

  When the player rotates the firing handle 17 by hand, the gaming balls stored in the upper bowl plate 15 are guided one by one to the inner rail and the outer rail with a strength corresponding to the rotation angle, to the gaming area 52 Be fired. When the player manually fixes the pivot position of the firing handle 17, the firing of the game ball is repeated at regular time intervals. The game balls fired to the upper part of the game area 52 hit a plurality of game nails and windmills while falling in the direction according to the way they hit. When the game ball falls into each winning opening of the general winning opening 72, the first starting winning opening 62, the second starting winning opening 63, the first large winning opening 91, and the second large winning opening 92, the type of the winning opening is The corresponding winning balls are paid out to the upper bowl plate 15 or the lower bowl plate 16. The game balls dropped into each winning hole such as the general winning hole 72 are treated as safe balls, and the game balls dropped into the out-port 58 are treated as out balls. Each winning opening includes a gate type through which game balls pass, and in the present application, "falling in", "filling in", and "winning" include "passing".

  When the game ball enters the first start winning opening 62, the first special symbol 192 is variably displayed in the first special symbol display device 70, and the decorative symbols 190a to 190c are variably displayed in the display area 194 of the effect symbol display device 60. Be done. When the game ball enters the second start winning opening 63, the second special symbol 193 is variably displayed on the second special symbol display device 71, and the decorative symbols 190a to 190c are variably displayed on the display area 194 of the effect symbol display device 60. (See FIG. 7 (b1)). The variable display of the first special symbol 192, the second special symbol 193, and the decorative symbols 190a to 190c is stopped after the lapse of the fluctuation time determined prior to the display (see FIG. 7 (b2)). When the first special symbol 192 and the decorative symbols 190a to 190c at the time of stop are the big hit mode, it shifts to the special game which is a game state more advantageous to the player than the normal game, and opens and closes the first big winning opening 91 Is started. At this time, the decorative symbols 190a to 190c imitating the game of the slot machine have a display mode in which three symbols are matched. When the second special symbol 193 at the time of stop and the decorative symbols 190a to 190c are the big hit mode, it shifts to the special game which is a game state more advantageous to the player than the normal game, and opens and closes the second big winning opening 92 Is started.

  The special game is a game in which a unit game in which the first large winning opening 91 or the second large winning opening 92 is opened is repeated multiple times, and the unit game is repeated 16 times (16 R (round)) which is the maximum number of times There are a game, a special game in which a unit game is repeated 10 times (10R (round)), and a special game in which a unit game is repeated 4 times (4R (round)) which is the minimum number of times. In addition, depending on the type of jackpot, a special game that performs 16 unit games, a special game that performs 10 unit games, and a special game that performs 4 unit games are set in a plurality of modes. However, specific big hit types will be described later. In addition, in each round, when a predetermined number (for example, nine) of game balls are detected in the first large winning opening 91 or the second large winning opening 92, or open for a predetermined time (for example, about 30 seconds) The end condition is satisfied and the first large winning opening 91 or the second large winning opening 92 is closed.

  When a special game is generated and a predetermined condition such as a lottery is satisfied, a probability fluctuation game (hereinafter referred to as “certain change”) or a fluctuation time reduction game (hereinafter referred to as “time reduction” as a specific game after the end of the special game ") Is started. During a definite change, a lottery with a higher probability of big hit than a normal probability state is performed, and a new special game is generated relatively early. In the case of the 16R big hit, the 10R big hit and the 4R big hit, the definite change is started after the end of the special game. During the short hours, the fluctuation time of the first special symbol 192 or the second special symbol 193 is generally shortened.

  Furthermore, in the present embodiment, the definite change state is continued until the total number of times of variation of the first special symbol 192 and the second special symbol 193 after the end of the special game reaches a predetermined number (here, 104 times). The same is continued until the total number of fluctuations reaches a predetermined number (here, 100). That is, in the present embodiment, the game characteristic of the type in which the specific gaming state continues only during the predetermined number of changes after the end of the special game is adopted. Furthermore, the final period is different between the definite variation period (so-called ST period) in which the definite variation state continues and the short period when the short duration state continues, and the definite variation period is a predetermined period (here, 4 times as the number of fluctuations). It is supposed to continue for a long time. The probability variation period and the short duration may be set to the same number of times of variation, or the probability variation period may be shorter than the duration. Also, the number of fluctuations of the definite variation period may be a relatively short period, for example, four times.

  During the time saving of the first special symbol 192, the second special symbol 193, and the decorative symbols 190a to 190c, the easy-to-enter state which is one of the specific games is implemented. The easy-to-enter state of the ball during this time is the second symbol of the ordinary symbol (to be described later), the probability fluctuation of the open lottery (the probability fluctuation of the ordinary symbol), and the extension extension of the ordinary electric character. This is a state where the ease of entering the starting winning opening 63 is enhanced. The time saving of the normal symbol is a state in which the fluctuation time of the normal symbol is shortened than in the normal state. The probability change of the open lottery is a state in which the hit probability of the open lottery is higher than that in the normal state. The open extension of the normal motorized combination is such that the open time of the normal combination is longer than that of the normal short open.

  As described above, in the easy-to-enter state, the possibility that the number of times of variation of the normal symbol per fixed time increases more than the normal state increases, and the ease of entering the second start winning opening 63 also increases. There is also a high possibility that the number of balls entering the start winning opening 63 will increase. Therefore, due to the short time and the easy entering state of the first special symbol 192, the second special symbol 193 and the decorative symbols 190a to 190c, there is an opportunity to obtain a winning ball by entering the second starting winning opening 63 during that period. As a result of the increase, it becomes possible to continue playing with almost no reduction in balls.

  In addition, the ball entry easy state in the time saving in this embodiment is the time saving of the normal symbol, the probability fluctuation of the opening lottery, and the ball opening to the second starting winning opening 63 using the three functions of the opening extension of the ordinary electric role. Increase ease. However, as a modification, one or two of the three functions may be used to enhance the ease of entering the second start winning opening 63. As described above, it is possible to increase the ease of entering the second starting winning opening 63 even by using only a part of the three functions. Further, at least one of the three functions may be switched according to the gaming state between a period of implementation and a period of non-implementation.

  In addition, in this embodiment, the time symbol of the normal symbol ends with the end of the time symbol of the special symbol, and the variation time (variation pattern) of the normal symbol started after the end of the time symbol of the special symbol is the normal condition It is determined from among the variation patterns provided for

  Furthermore, as the opening pattern (opening mode at the time of the specific game) of the ordinary motorized role in such an easy state of ball entry, as described above, for example, a type that opens for about 5 seconds is adopted. And as a specific aspect of this long opening, the continuous opening aspect which comprised the opening period from the start of opening to completion by one opening can be illustrated. Moreover, as an aspect other than this, there exists an intermittent opening aspect etc. which comprised the opening period from the start of opening to completion | finish by several times of opening. Then, as this intermittent open mode, for example, an interval time to be once closed is interposed between each open time of 2.32 seconds, 1.60 seconds and 1.60 seconds, for example, in total 5. An example can be exemplified in which an open time of 52 (= 2.32 + 1.60 + 1.60) seconds is secured. Further, in the present embodiment, other than the above, an opening pattern by combinations of opening times of 2.96 seconds, 1.14 seconds, and 1.56 seconds, or 1.14 seconds, 1.60 seconds, and 1.60. The opening pattern etc. by the combination of each opening time of opening of seconds and 1.14 seconds are also provided.

  In addition, it is also possible to randomly select which of the above-mentioned continuous opening mode and the intermittent opening mode is to be executed, or to draw which of various intermittent opening modes are to be executed. Further, the open mode of the long opening during the specific game described here may be hereinafter referred to as “specific game open time open” (or “time reduction open time”). Furthermore, the open for a short time of, for example, 0.5 seconds in the intermittent open mode can be referred to as "special game time short open" or "time short time short open" or the like.

  When the gaming ball passes through the left actuation opening 68a (or the right actuation opening 68b), a symbol called the above-mentioned normal symbol is variably displayed on the normal symbol display device 59 for a predetermined time. The normal symbol display device 59 is provided in the display device 53 for special symbols etc., and in this embodiment, three star-shaped lamps repeat the lighting and extinguishing in a predetermined combination to express the variation display of the normal symbol, which The lottery result of the normal symbol is represented depending on whether the lamp of such a combination finally turns on and stops fluctuating. When the variation display of the normal symbol is stopped in a predetermined hitting manner after the predetermined time has elapsed, the ordinary motorized combination of the second start winning opening 63 is expanded for a predetermined time. Note that the term "lamp" in the present embodiment has a meaning that includes LEDs and the like.

  In the winning lottery pertaining to the normal symbols as described above, the off symbols and the hit symbols are provided. And, in this embodiment, the winning symbol is provided with a short symbol and a long symbol, and the winning symbol according to the normal symbol is roughly divided into three: a missing symbol, a short symbol, and a long symbol. It is designed to be performed using different types of symbols. Furthermore, in the present embodiment, two types of symbols are provided as shorted symbols, and one type of symbol is provided as long symbols. In the present embodiment, as described above, since three lamps are used to display a normal symbol, for example, it is possible to further increase the types of symbols per short and per symbol.

  When the player wins a hit lottery relating to a normal symbol with a predetermined probability, the second start winning opening 63 is opened according to the hit symbol. In addition, there are those that correspond to the above-mentioned short opening and those that correspond to the long opening in the hit mode in the winning lottery related to the normal symbol. In the following, the short opening of the second start winning opening 63 in such a normal time may be referred to as "normal short opening" and the long opening may be referred to as "normal long opening". In addition, as for the special long time opening, as well as the above-mentioned special game long opening (time short opening), in addition to the continuous opening mode, the intermittent opening mode etc. is adopted, and the hit symbols corresponding to these are preset. It is possible to Further, it is conceivable to set the winning probability of the normal opening time in the whole of the winning lottery relating to the normal symbol including the detachment to, for example, about 1.8%. Further, in the present embodiment, the open time in the normal long time open is about 5.4 seconds (an intermittent open mode in which the open is performed for 5.2 seconds after the temporary opening after 0.2 second open). Further, in the present embodiment, with regard to the hit according to the normal pattern, two types of hits corresponding to the short opening of 0.2 seconds and one type of hits corresponding to the above-mentioned long opening are provided. Moreover, the thing of the same open pattern may exist in normal long opening and the above-mentioned short opening long opening.

  A center ornament 64 is provided around the effect pattern display device 60. The center ornament 64 has functions such as a channel of the game ball, protection of the effect pattern display device 60, and decoration. A large number of game effect lamps (such as LEDs, not shown) are provided inside the center decoration 64, and play a role by blinking or the like. The center decoration 64 is provided with movable effect members 93 and 94, which constitute a gimmick for effect. Furthermore, a game ball passage 65 is formed on the right side of the center decoration 64 as viewed from the front. Then, when a so-called right strike is performed to shoot the game ball toward the right side of the game area 52, the game ball passing above the center decoration 64 flows down the game ball passage 65, and the right operation opening 68b It is possible to go to the area where the second big winning opening 92 is arranged.

  Also, the first special view holding lamp 20 corresponding to the first game is provided above the first special symbol display device 70, and the second special view holding lamp 21 corresponding to the second game is the second special symbol display The general drawing reserve lamp 22 provided above the device 71 and corresponding to the normal symbol variation is provided mainly on the left side of the normal symbol display device 59.

  Each of the first special view hold lamp 20 and the second special view hold lamp 21 consists of two lamps, and the hold value of the lottery value in each of the first game and the second game according to the number of lights or the number of blinks. Display the number. The number of pending lottery values for the first special view holding lamp 20 is the number of wins to the first start winning opening 62 during the change of the first special symbol 192 or during the execution of the special game, and the symbol change is still executed Not showing the number of winning balls. The number of pending lottery values for the second special view reserve lamp 21 is the number of wins to the second start winning opening 63 during any of the second special symbol 193 or during the execution of a special game, and the symbol variation is still Indicates the number of winning balls that have not been run.

  That is, when the symbol variation performed earlier is not completed, the variation start condition is not established, and a new symbol variation is not started, but when the symbol variation is completed, the variation start condition is established, and a new symbol variation is established. Design change will be started. At this time, a lottery using the random number values stored on hold is executed, and the presence or absence of the big hit, the variation pattern of the symbol, etc. are determined. In the case of the present embodiment, since the second game is preferentially executed as described above, all of the symbol variations corresponding to the holding lottery value of the second special symbol 193 are the first special symbol 192. It is also a change start condition that all the pending lottery values have been digested.

  The general drawing reserve lamp 22 also consists of three lamps, and displays the number of reserved symbol variations normally according to the number of lights or blinks. The number of reserved normal symbol variations is the number of gaming balls that have passed through the operation opening 68a (or 68b) during the variation of normal symbols, and indicates the number of regular symbol lottery in which the variation of normal symbols has not been executed yet.

  And similarly, with regard to the normal symbol, the variation start condition is not satisfied and the new symbol variation is not started when the previously executed symbol variation is not finished, but the variation starts when the symbol variation is finished The condition is satisfied, and a new symbol change is started. At this time, a lottery is performed using the random number values stored on hold, and the presence or absence of a hit, the variation pattern of the symbol, etc. are determined.

  The operation button 82 is a button operated by the player in order to input a predetermined instruction on the gaming machine side. The operation button 82 is provided on the outer wall of the upper portion of the upper bowl 15 and is located near the center of the upper bowl 15 in the left-right direction.

  The operation button 82 is operated by the player when the button effect is executed, and exerts a function of giving the player a feeling as if he / she is participating in the effect of the game or the winning or losing lottery. As the button effect, for example, during the reach effect performed in the process of changing and displaying the decorative symbol, "Push", "Continuously hit", and "long press with the symbol of the operation button 82 in the display area 194 of the decorative symbol display 60. Characters such as "" or a moving image of an indicator indicating the remaining time are displayed, and when the player operates the operation button 82 accordingly, effects such as the character giving a comment or the ally character attacking the enemy character There is an effect that you do. Further, in the present embodiment, when the movable effect members 93 and 94 perform a predetermined operation in response to the operation of the operation button 82, the reliability of the big hit concerning the reach effect at that time is high, and the operation button 82 When the movable effect members 93 and 94 do not perform the predetermined operation even after the operation, the effect may be performed in such a manner that the reliability of the big hit related to the reach effect at that time is low.

  In normal times, the operation of the operation button 82 is invalid, but during the button effect, the button operation valid period is such that the operation of the operation button 82 is valid. The button operation effective period is a constant time set in advance. In addition, a vibration motor (not shown) is combined with the operation button 82 to produce a vibration effect for vibrating the operation button 82, an effect mode for expanding the operation range of the operation button 82 and causing the operation button 82 It is also possible to execute an effect aspect such as making 82 project relatively large.

In the lower part of the display area 194 of the effect symbol display device 60, as shown in FIG. 7 (b1) and (b2), a first number-of-holds display portion 196 showing the number of pending lottery values for the first game. , And a second holding number display portion 197 indicating the number of holdings of the lottery value in the second game. Incidentally, with regard to the hold display, when the number of holdings of the first game and the second game increases, the display changes sequentially with reference to the left side (also the left side in FIG. 7A) from the respective players. The second start winning opening 63 side (the second game) that hardly wins at the normal time on the reference side (left side) with the hold display of the first starting winning opening 62 side (the first game) where many wins during the normal game Is displayed on the right. This is because it can be expected that the player can easily grasp the holding state at the normal time intuitively. In addition, an ordinary decorative symbol corresponding to the display content of the ordinary symbol display device 59 may be provided separately from the ordinary symbol display device 59. In this case, for example, the effect symbol display device 60 can be used.
<< Summary of main presentation contents in this embodiment >>

In the present embodiment, a large number of effect patterns (variation effect patterns) are provided, and a moving image is displayed on the effect symbol display device 60 according to the effect pattern selected according to the game situation. The effect pattern in each situation may be configured by combining the selected effect pattern with a moving image of a predetermined character or item.
<< Summary of the contents of the effect of opening a regular opening >>

  Further, in the present embodiment, the effects related to the normal opening of the second start winning opening 63 may be performed using the effect symbol display device 60, the speaker 19 or the like. Then, as the effects related to the normal length opening, there are provided a lottery effect indicating whether or not the normal length opening is executed, and a long opening effect to be executed corresponding to the result of the lottery effect. There is. In addition, below, the thing of normal time opening may only be called "long opening."

  Among them, as the lottery effect, for example, it is possible to exemplify a moving image display relating to a lottery such as roulette, fortune, or 2-digit symbol alignment. Furthermore, when winning in the normal time opening in the winning lottery pertaining to the above-mentioned normal symbol, the lottery effect of the content showing the winning is executed, when it is not hitting the normal time opening, it is off A lottery effect with contents to be shown is executed.

  In addition, the lottery effect of the contents indicating the departure is not executed normally when the opening time is not open, and is executed when the fluctuation pattern related to the lottery effect is selected at a predetermined probability. Furthermore, as a case where a variation pattern relating to a lottery effect of losing is selected, there are cases where it is selected in the main substrate 102 and cases where it is selected uniquely in the sub main substrate 301. In the present embodiment, the lottery effect is executed with a high probability (for example, 100%) when the regular opening time is open, and a low probability (for example, the regular opening time is not occurring). 0.1%).

Furthermore, it is possible to set variously the relationship between the contents of the lottery effect and the opening pattern of the second start winning opening 63. For example, an effect using roulette is adopted as the content of the lottery effect, and “open”, “x”, “chance”, “reach”, etc. are assigned to the options provided as the eyes of the roulette. Then, when the normal opening time is not hit, a state in which "x" is selected as the contents of the lottery effect is displayed, and the second start winning opening 63 is not opened or only the short opening is performed. Make it Furthermore, in the case of hitting the normal opening for a long time, an effect that “open” is selected in the roulette is executed, and long opening is always performed. In addition, in the case of the change production, when the production of the contents developed in stages and the production of the contents developed into the super reach are executed, "chance" or "reach" is selected in the roulette pertaining to the lottery production It is conceivable that the situation is displayed and the second start winning opening 63 is not opened or only the short opening is performed.

  In addition, the above-mentioned "long opening effect" is positioned as a special effect related to the normal opening in the above-mentioned second start winning opening 63, but in terms of control, long opening and long opening effects. There is no direct association. That is, in the present embodiment, in the normal case where the right strike is not performed (at the time of the left strike), most of the winnings on the first start winning opening 62 are made, while at the time of the right strike, the first start winning opening 62 There is almost no entry into the game, and if a winning occurs, it will be that of the second starting winning opening 63 in general. Furthermore, as described above, since the second game is executed prior to the first game, when there is a winning on the second start winning opening 63 during the long opening, the first special Even if there is pending storage information relating to the symbol 192, the next variation effect corresponds to the second special symbol 193. And in this embodiment, the effect for long opening is executed at a rate of 100% as an effect relating to the change of the second special symbol 193 in the normal game different from that in the specific game.

  In long-release effects, special image elements such as scenes, people, or items that are not displayed in normal change effects are displayed, and sound output and light decoration accompanying these special image elements are combined. It is something that is combined. As the effect for long opening, for example, a character that does not appear in the effect other than the effect for long opening appears and performs a special action dedicated to the effect for long opening, or a special for the effect only for long opening A lottery device (a so-called clown-type game ball distribution device or the like) can be used to display the state of whether or not the game ball enters the V winning opening, or the like.

  Then, when the variation pattern of the shortening variation is selected in the main substrate 102 at the normal time, the game situation is determined in the sub main substrate 301, and the effect of the long opening presentation to be executed in the variation time corresponding to the shortening variation. The effect variation pattern is always selected. In addition, when the shortening variation fluctuation pattern is selected in the main board 102 during a predetermined period in the specific game (here, during the “power support” period described later), the game situation is determined in the sub main board 301, An effect variation pattern lottery is executed using a variation effect pattern table including both the effect for long opening and the effect variation pattern relating to fluctuation effects other than the effect for long opening. Then, by this effect variation pattern lottery, a variation effect pattern of any of the effect for long opening or another variation effect is selected.

Further, in the present embodiment, the selection of the variation pattern for long release is performed regardless of the number of reservations, but the present invention is not limited to this. For example, when the number of reservations is large, the variation pattern for long opening with short variation time May be selected. Furthermore, the basic configuration relating to assignment of fluctuation patterns will be described later. In addition, it is possible to perform the effect for long opening and the above-mentioned lottery effect as pre-reading effect (to be described later).
<< Overview of the game with the big hit >>

When a big hit (per the first special view) occurs in the first game, a special game using the first large winning opening 91 is executed. Then, the first large winning opening 91 is opened in a pattern according to the type of the big hit pertaining to the first lottery, and the result about the presence or absence of the ball and the amount of the ball can be obtained. Further, in the present embodiment, as described above, all jackpots are given a definite change and time reduction, and a game with a right hit is performed after the special game. That is, after the end of the special game in the first game, an effect that urges a right on the basis of an image, a sound, or the like of the effect symbol display device 60 is executed. Then, when the player increases the pivoting amount of the firing handle 17 clockwise to strengthen the firing force and shoots the game ball toward the right area of the game area 52, the game ball passing above the center decoration 64 , Enters the game ball passage portion 65 of the center decoration 64, and flows down the center decoration 64. Furthermore, the game balls discharged from the center decoration 64 fall in the direction according to the hitting while hitting the plurality of game nails and other structures.

  Some of the many game balls released from the center decoration 64 pass through the right operation opening 68b (see FIG. 1) and are detected by the passage detection device 69b (see FIG. 3). Then, as described above, when the gaming ball passes through the right operation opening 68b, the symbol called the above-mentioned normal symbol is variably displayed on the normal symbol display device 59 (see FIG. 3 and FIG. 7A) for a predetermined time. When the fluctuation display of the normal symbol is stopped in a predetermined hitting manner, the normal motorized combination of the second start winning opening 63 is opened for a predetermined time.

  In the present embodiment, it is possible to guide the game ball that has reached the right side of the game area 52 around the second start winning opening 63 and the second large winning opening 92 by nails or the like, so that the second start can be achieved. When the normal motorized winning combination of the winning opening 63 is expanded once, in most cases one or several gaming balls may enter the second starting winning opening 63 depending on the situation. There is. Furthermore, in the present embodiment, time reduction is added to the probability variation big hit excluding a part, and during the time reduction, the extension extension of the ordinary motorized part is performed.

  When a second game jackpot (per the second special view) occurs based on entering the second start winning opening 63, a special game using the second large winning opening 92 is executed. Then, the second large winning opening 92 is opened in a pattern according to the type of the big hit according to the second lottery described above, and the result about the presence or absence of the ball and the amount of the ball can be obtained. In addition, as described above, depending on the type of jackpot that occurred, the presence or absence of a definite change or time-saving after the end of the special game is determined.

In addition, about a relation such as a big hit, special game, right-handed, time saving, electric chew support etc., it is not limited to the above-mentioned thing, for example, performs right-handed during the special game concerning the first game or the second game It is possible to adopt various relationships, such as those that give a short time after a special game pertaining to a normal big hit without a definite change, and those that do not give a short time after a special game for some definite change big hits.
<Summary of back configuration and electric configuration of pachinko gaming machine>

  FIG. 2 shows the basic structure on the back side of the pachinko gaming machine. As shown in FIG. 2, a set base 39 having a mechanism for guiding or collecting gaming balls is attached to the back of the front frame 12, and below the set base 39, power is supplied to the entire gaming machine. A power supply unit 48 for supplying the liquid crystal, and a payout control board 45 for controlling the gaming machine frame side are attached. In addition, on the back of the game board, a main board (main control board) 102 for overall control of the entire game, and a liquid crystal unit 42 (effect symbol display device 60 based on information received from the main board 102 and information input uniquely. Etc.) is mounted at a position corresponding to the opening of the set base 39. As shown in FIG.

  In the set base 39, a prize ball tank 44 for storing prize balls at its upper part, a prize ball passage for straightening and guiding gaming balls stored in the prize ball tank 44, a prize ball passage in communication with the prize ball passage 44 The payout unit 43 which can flow down the discharged balls downward in a unit of one ball, and the game ball which is flowed down from the payout unit 43 as a winning ball is guided to the ball tray (upper ball tray 15 or lower ball tray 16) The passage is formed and arranged in an inverted L shape from the upper part of the game board to the right side in a rear view as shown in FIG. 2, and an opening of a suitable size is provided at a position corresponding to the center of the back of the game board ing.

  The power supply unit 48 is provided at the bottom left of the rear view of the gaming machine as shown in FIG. 2, and the AC power supplied from the outside of the gaming machine is the entire gaming machine (control device including the main board 102 and sub board 104 and the liquid crystal unit 42 , Etc.) to supply various voltages to be used in the rendering device etc.). On the right side of the power supply unit 48, the power switch 40, which is composed of a tilt switch to shut off the power supplied from the power supply unit 48 to each part of the gaming machine, is down so that it does not turn off It is provided to turn on when tilting to the side (when pressing below the center of the switch).

  The payout control board 45 is provided at the bottom right of the rear view of the gaming machine as shown in FIG. 2 and mainly controls the payout unit 43 in accordance with a command relating to payout from the main board 102 and a lending request from the outside. And a launch control function for controlling the launch device to launch the game ball in the game area with a strength corresponding to the amount of operation of the launch handle 17. The CPU · ROM · RWM (lead Input / output circuits and the like are provided as appropriate, centering on the write memory, which will be abbreviated hereinafter.

  As shown in FIG. 2, the main board 102 is provided at the lower center of the rear view of the game board 50, and mainly performs lottery processing based on winning to the first start winning opening 62 and the second starting winning opening 63, Central control functions of the entire gaming machine, such as processing related to the game of the gaming machine, processing for outputting a control command (control command) to the sub board (effect control board) 104, payout control board 45 etc., gaming state information etc. In the same manner as the above-described payout control board 45, the CPU, the ROM, the RWM, and the appropriate input / output circuit are provided.

  As shown in FIG. 2, the sub substrate 104 is provided integrally with the liquid crystal unit 42 at the upper center of the rear view of the game board, and mainly controls the display contents in the liquid crystal unit 42 (rendering symbol display device 60) Similar to the main substrate 102 and the payout control substrate 45 described above, the CPU has a CPU, ROM, RWM, and an appropriate input / output circuit. Since the sub substrate 104 has a function to control an image, in addition to the main CPU for the sub substrate, a CPU dedicated to image control which controls VDP for image and VDP is also mounted.

The main board 102, the payout control board 45, and the sub board 104 constitute the game control apparatus 100. The details of the main substrate 102, the payout control substrate 45, and the sub substrate 104 will be described later. In addition, with regard to the sub-substrate 104, a main sub-substrate (sub main substrate 301 in this embodiment) responsible for the main function of effect control and a sub sub-substrate specialized for a specific effect function such as image creation (this embodiment In the example, it is divided into sub-sub substrates 302), but the term "sub-substrate" is a generic term for these. The details of the sub main substrate 301 and the sub sub substrate 302 will be described later. Further, an external relay terminal board 49 for relaying signals from the main board 102, the payout control board 45 and the like to the device outside the pachinko gaming machine 10 is provided at the upper right portion of the set board 39 in FIG.
<Overview of major functional blocks and functions of pachinko gaming machine>

FIG. 3 shows the gaming control apparatus 100 in the pachinko gaming machine 10 of the present embodiment and input / output devices for the gaming control apparatus 100 by functional blocks. In the pachinko gaming machine 10, the gaming control device 100 has a first start winning opening 62, a second starting winning opening 63, a first large winning opening 91, a second large winning opening 92, a general winning opening 72, and an operation opening 68 In the embodiment, the first special symbol display device 70, the second special symbol display device 71, the effect symbol display device 60, the normal symbol display device 59, the operation button 82, the speaker 19, and the game effect lamp 90, respectively. It is electrically connected to enable transmission and reception of various control signals. The game control apparatus 100 controls not only the basic operation of the game but also the effect operation such as the symbol variation display and the illumination. The game control device 100 includes a main substrate 102 as a main control device for controlling the overall operation of the pachinko gaming machine 10 including the basic operation of the game and the progress of the game, and a sub substrate as a sub control device for controlling the effects of symbols. It is comprised in the form which made the function share with 104. In addition, the game control device 10
The delivery control board 45 existing as a part of the function of 0 and the function of the part controlled by the delivery control board 45 may be general ones, so the description and description in FIG. 3 will be omitted. The necessary parts will be described appropriately.

Further, the configurations (particularly, various functional means and functional portions) described as the blocks in the block diagram in the present embodiment include those corresponding to the functions realized by the CPU, the ROM, and the RWM. ing.
<Details of the electrical configuration of the pachinko gaming machine>

  Next, main ones of the above-described respective electrical configurations (see FIGS. 2 and 3) will be described. First, as shown in FIG. 4, the pachinko gaming machine 10 is provided with a power supply substrate 251, a payout control substrate 45, a main substrate 102, and a sub substrate 104. The above-described payout control substrate 45 and the like are connected to the power supply substrate 251. The main board 102, the game ball connection terminal board 252, the handle connection board 253, etc. are connected to the payout control board 45, and the main board 102 is connected to the game board connection board 254, the effect interface A, and the like. A substrate (not shown) or the like is connected. A symbol display substrate 256 is connected to the game board connection substrate 254.

  Here, the power supply substrate 251 is provided in the above-described power supply unit 48. Further, although not shown, a state display unit used to display the type of error, a card unit for performing money processing and ball lending processing related to ball lending, etc. are also connected to the payout control board 45. . In addition, a gaming coin or the like lending device connection terminal board is connected with a coin handling board (not shown) or the like that is used for ball coin operation. The handle connection substrate 253 is connected with a touch switch (not shown) of the launcher, a launch stop switch (not shown), and the like. In addition to the symbol display board 256, the game board connection board 254 includes the aforementioned passage detection device 69, the ordinary electric role solenoid 76, the winning detection device 78 for the first big winning hole 91, the big winning hole solenoid 80, A winning detection device 79, a special winning opening solenoid 81, a general winning detection device 73, a magnetic sensor, a radio wave sensor (not shown), etc. are connected. Furthermore, the symbol display substrate 256 is provided in the above-mentioned display device 53 for special symbols and the like, and the symbol display substrate 256 is provided with the first special symbol display device 70 and the second special symbol display device 71. ing.

  The effect interface A substrate described above relays the main substrate 102 to another device, and a sub substrate 104 and an effect interface B substrate (not shown) are connected to the effect interface A substrate. Further, the liquid crystal unit 42 described above is connected to the sub-substrate 104.

  The effect interface B substrate relays the effect interface A substrate or the sub substrate 104 to another device, and although this illustration is omitted, a plastic frame connection substrate, various frame lights, etc. are provided on the effect interface B substrate. A substrate, various frame motors, various electric decoration boards of the center decoration 64, various movable body motors of the movable effect members 93 and 94, and the like are connected. Here, the frame motor is used to drive a movable effect member (not shown) provided in the gaming machine frame.

  The plastic connection board 259 provided on the upper ball dish 15 or the lower ball dish 16 and the lower speaker connection board 260 among various speaker connection boards connected to the various speakers 19 are connected to the plastic frame connection board. An effect button board 261 is connected to the dish electric decoration connection board 259. The effect button substrate 261 is provided in a button device provided with the operation button 82, and a switch (not shown) for detecting that the operation button is pressed and a light emitter for operation button 82a (not shown) Etc.).

Next, configurations of the power supply substrate 251, the main substrate 102, and the like will be described. As shown in FIG. 4, the main substrate 102 is mounted with a CPU 501 as a one-chip microcomputer which is an arithmetic device. In addition, the main substrate 102 temporarily stores various data and the like upon execution of the control program stored in the ROM 502 and various control programs executed by the CPU 501 and fixed value data. And a data output unit 516 for outputting predetermined data outside the CPU 501, and various circuits (not shown) such as an interrupt circuit, a timer circuit, and a data transmission / reception circuit.

  For example, a one-chip microcomputer in a resin-packaged CPU device can be used as the above-described CPU 501. In this embodiment, although not shown in the CPU device, a control clock generation circuit and a random number clock A generation circuit, a random number circuit for 16-bit random numbers, and a random number circuit for 8-bit random numbers are formed. The above-described random number circuit for 16-bit random numbers and the random number circuit for 8-bit random numbers are for generating hardware random numbers (described later) which are built-in random numbers. Note that the ROM 502 and the RWM 503 in FIG. 4 have a comprehensive concept including one incorporated in the CPU device and one externally attached to the CPU device.

  The RWM 503 is configured to be able to receive data (backup) supplied with a backup voltage from the power supply substrate 251 even after the pachinko gaming machine 10 is powered off, and the RWM 503 temporarily stores various data etc. A backup area 503a is provided in addition to a memory and an area (not shown) for the purpose.

  The backup area 503a is a stack pointer at the time of power shutdown, each register, I / O, etc., when the power is shut down (when a power failure occurs) due to the occurrence of a power failure (including a power failure due to a momentary voltage drop). This is an area for storing the value of O etc., and when the power is turned on (including the power on by power failure cancellation. The same applies to the following), the pachinko gaming machine 10 is powered off based on the information of the backup area 503a. It will be restored to its previous state. Writing to the backup area 503a is executed when the power is shut off by NMI interrupt processing (power-off processing), and restoration of each value written to the backup area 503a is executed in control start processing when the power is turned on. As the backup area 503a, it is possible to use an external RWM externally connected to the CPU 501 and to which a backup power supply is connected.

  The main board 102 is provided with a power failure monitoring circuit unit 506 that monitors power supply interruption due to a power failure or the like. The power failure monitoring circuit unit 506 is a circuit for outputting a power failure signal to the NMI terminal 504 of the CPU 501 of the main substrate 102 and the NMI terminal 514 of the payout control substrate 45 when power is shut off due to a power failure or the like. The power failure monitoring circuit unit 506 monitors the voltage of DC stability (for example, 30 volts) which is the maximum voltage output from the power supply unit 541 of the power supply substrate 251, and the power failure occurs when this voltage becomes less than a predetermined voltage. , And outputs a power-off signal to the NMI terminal 504 of the CPU 501 on the main board 102 or another board. In response to the interruption signal, the CPU 501 of the main board 102 and the CPU 511 of the payout control board 45 immediately execute NMI interrupt processing. Here, the signal input to the NMI terminal may occur not only when the power failure monitoring circuit 506 properly outputs a power-off signal but also when noise is mixed or the like.

  The power supply unit 541 of the power supply substrate 251 has a driving voltage of 5 volts, which is a driving voltage of the control system, for a time sufficient to execute NMI interrupt processing even after the DC stable voltage becomes lower than the predetermined voltage. It is configured to maintain the output at a normal value. Therefore, the main substrate 102 and the payout control substrate 45 can execute and complete the NMI interrupt processing normally.

Further, in the present embodiment, the sub main board 301 also becomes a power down signal from the main board 102 based on the power failure signal from the power failure monitoring circuit unit 506 and a value (0 or 1) indicating the presence or absence of the power supply voltage drop. Has been entered. The backup function of the sub main board 301 will be described later.

  Note that the power failure monitoring circuit unit 506 can also be disposed at a portion other than the main substrate 102. For example, the power failure monitoring circuit unit 506 may be formed on the power supply substrate 251, and a power failure signal may be input from the power failure monitoring circuit unit 506 to each substrate on the power supply substrate 251. Moreover, it is also possible to omit the input of the power-off signal from the main substrate 102 to the payout control substrate 45. Further, the main substrate 102 may be able to exhibit the function of the power supply substrate 251. In this case, forming the power supply unit 541 on the main substrate 102 can be considered.

  In the payout control board 45, the CPU 511, which is an arithmetic device, includes a ROM 512 storing a control program to be executed by the CPU 511, fixed value data and the like, and an RWM 513 used as a work memory and the like.

  Like RWM 503 of main substrate 102, RWM 513 of payout control substrate 45 is configured to be able to receive backup voltage from power supply substrate 251 even after the power of pachinko gaming machine 10 is shut off (data backup). The RWM 513 is provided with a backup area 513 a in addition to a memory and an area for temporarily storing various data and the like.

  The backup area 513a is an area for storing values such as a stack pointer at the time of power shutdown, each register, and I / O when the power is shut down due to the occurrence of a power failure or the like. Based on the information in the backup area 513a, the state of the pachinko gaming machine 10 is restored to the state before the power is turned off. Writing to the backup area 513a is executed when the power is shut off by NMI interrupt processing, and restoration of each value written to the backup area 513a is executed in the main processing when the power is turned on.

  The sub substrate 104 is composed of a sub main substrate 301 and a sub sub substrate 302. Among them, the sub main board 301 is provided with a CPU 521, a ROM (program ROM) 522, a work RWM 523, an input port 527, an output port 528, a bus line (not shown) and the like. The output side of the main board 102 is connected to the input side of the input port 527, and the CPU 521, the ROM 522, the work RWM 523, the output port 528, etc. are connected to the output side of the input port 527. In addition, the sub main substrate 301 is provided with a sound control circuit 820 used for sound output control.

  The sub-sub substrate 302 includes a video RWM (video memory) 524, a character ROM 525, an image controller 526, an input port 530, an output port 529, a bus line (not shown), and the like. The output side of the sub main board 301 is connected to the input side of the input port 527, and the video RWM 524, the character ROM 525, the image controller 526, and the output port 529 are connected to the output side of the input port 530.

  The CPU 521 of the sub main substrate 301 controls the display of the effect symbol display device 60 based on the effect control command (command) for symbol display transmitted from the main substrate 102. The ROM 522 is a memory for storing various control programs executed by the CPU 521 and fixed value data, and the work RWM 523 temporarily stores work data and flags used when the CPU 521 executes various programs. Memory.

The video RWM 524 of the sub-sub substrate 302 is a memory for storing display data to be displayed on the effect symbol display device 60, and the display content of the effect symbol display device 60 is changed by rewriting the contents of the video RWM 524 . The character ROM 525 is a memory for storing character data such as a symbol displayed on the effect symbol display device 60. The image controller 526 adjusts the respective timings of the CPU 521, the video RWM 524, and the output port 529 to intervene in reading and writing of data, and reads the display data stored in the video RWM 524 from the character ROM 525 at a predetermined timing. The symbols are superimposed in the order of the layers for which the priority order is determined, and displayed on the effect symbol display device 60.

  The power supply substrate 251 includes a power supply unit 541 for supplying power to each part of the pachinko gaming machine 10, and an initialization switch circuit unit 543 having an initialization switch 544. The power supply unit 541 supplies necessary operating voltages to the main substrate 102, the payout control substrate 45, and the like through a power supply path (not shown). As an outline, the power supply unit 541 takes in a predetermined voltage supplied from the outside, and applies a predetermined amount of voltage for driving various switches, motors, logic circuits, etc. to the main substrate 102, the payout control substrate 45, etc. Supply.

The initialization switch circuit unit 543 outputs an RWM erase signal for clearing the backup data to the main board 102 and the payout control board 45 when, for example, the game arcade clerk or the like presses the initialization switch 544 when the power is turned on. Circuit is provided. The main board 102 and the payout control board 45 clear the data in the backup areas 503a and 513a when the RWM erase signal is input when the pachinko gaming machine 10 is powered on.
<Functional Configuration of Main Substrate and Sub Substrate>

  Next, the main substrate 102 and the sub substrate 104 will be described from the functional aspect. As shown in FIG. 5, the main board 102 in the present embodiment is a ball entry judging means 110, a first lottery means 126, a second lottery means 128, a common drawing lottery means 136, a hold control means 116, a main display control means 118. , Condition holding means 176, special game control means 120, specified game control means 122, open / close control means 124, advance information notification means 157, command transmission means 332.

  On the other hand, the sub-substrate 104 in the present embodiment is composed of the sub-main substrate 301 and the sub-sub-substrate 302 as described above, and among the sub-main substrates 301, as shown in FIG. , Symbol mode determination means 131, effect determination means 132, effect display control means 134. In addition, the sub main substrate 301 includes a command receiving unit 304 and an effect mode transmitting unit 305. Further, the sub-substrate 104 is provided with a sound control means 312 for controlling the speaker output and the like, and a light control means 313 for controlling the game effect lamp output and the like.

  Each functional block included in the main substrate 102 may be configured to be mounted on the sub main substrate 301 instead of the main substrate 102. Similarly, each functional block included in the sub main substrate 301 may be configured to be mounted on the main substrate 102 instead of the sub main substrate 301.

However, since the transmission and reception of data between the main substrate 102 and the sub main substrate 301 is in one direction from the main substrate 102 to the sub main substrate 301, the entire operation is realized by the data transmission and reception in such one direction. The respective components are arranged on the main substrate 102 and the sub main substrate 301. As described above, since the unidirectionality of data transmission from the main substrate 102 to the sub main substrate 301 is maintained, data can be transmitted from the configuration included in the sub main substrate 301 to the configuration included in the main substrate 102. Also, it can not request data transmission. Therefore, the information generated by the main substrate 102 is the same as that of the sub main substrate 3.
It can not be referenced from the sub main board 301 unless it is sent unilaterally to 01.

Further, as shown in FIG. 6 as in the case of the sub main substrate 301, the sub sub substrate 302 is provided with an effect mode reception means 308, an effect execution means 309 and the like.
<< Main function of main board >>

  Entry determination means 110 determines entry of the game ball to each winning opening. The ball entry determination means 110 determines that the gaming ball has won the first start winning opening 62 when the first starting winning information is received, and when the second starting winning information is received, the gaming ball wins the second starting winning opening 63 I judge. The ball entry determination means 110 determines that the game ball has won the first large winning opening 91 when the first large winning opening winning information is received, and the game ball receives the second large winning opening winning information when the second large winning opening winning information is received. It is determined that a winning is made in the mouth 92, and when the general winning information is received, it is determined that the gaming ball has won in the general winning opening 72. When the ball entry determination means 110 receives the passage information, it determines that the gaming ball has passed through the operation opening 68.

  The first lottery means 126 for executing the first lottery corresponding to the entry into the first starting winning opening 62 is a first lottery value acquiring means 112, a first success / failure judging means 113, a first pattern determining means 114, a first One symbol determining means 320 is included. The second lottery means 128 for executing the second lottery corresponding to the entry into the second starting winning opening 63 is a second lottery value acquiring means 115, a second success / failure judging means 117, a second pattern determining means 119, a second 2 includes pattern determination means 322. The result of the first lottery is shown in the form of the variable display of the first special symbol 192 in the first special symbol display device 70, and in the form of the variable display of the decorative symbols 190a to 190c in the display area 194 of the effect symbol display device 60. It is indicated by. The result of the second lottery is shown in the form of the variable display of the second special symbol 193 in the second special symbol display device 71, and the form of the variable display of the decorative symbols 190a to 190c in the display area 194 of the effect symbol display device 60. It is indicated by.

  The first lottery means 126 and the second lottery means 128 transmit the result of the lottery corresponding to the symbol fluctuation to the effect determining means 132 together with the control command of the symbol fluctuation when the symbol fluctuation is started.

  The first lottery value acquisition means 112 acquires the value of the random number as a first chance lottery value for the first lottery, triggered by entering the first start winning opening 62. The second lottery value acquisition means 115 acquires the value of the random number as a second success or failure lottery value for the second lottery, triggered by entering the second start winning opening 63. For example, the values acquired as the first success or failure lottery value and the second success or failure lottery value for the success or failure lottery are acquired from the numerical value range from “0” to “65535”. In this embodiment, the random numbers acquired as the first and second lottery values and the second lottery value are hardware random numbers (built-in random numbers generated internally by the CPU 501) sharing one generation device configured of hardware. It is generated by a two-stage random number generation unit that calculates (adds) a software random number (soft random number) extracted by a software random number generation program (a counter or the like updated for each interrupt). By the way, if the acquisition timing is completely the same, the same value will be acquired as the value of the hardware random number based on the entry of the first start winning opening and the value of the hardware random number based on the entry of the second starting winning opening Therefore, only one of the random number acquisition systems is designed so as not to break down and become an unexpected game probability. The hold control unit 116 temporarily suspends the values acquired by the first lottery value acquisition unit 112 and the second lottery value acquisition unit 115 as the first win lottery value or the second win lottery value. However, the first on-off lottery value and the second on-off lottery value are suspended within a range not exceeding the predetermined on-hold upper limit number suspended by the on-hold control means 116.

The first success or failure judgment means 113 executes a validity or failure judgment to determine whether or not to shift to the special game based on the first success or failure lottery value. The second success or failure judgment means 117 executes the validity or failure judgment to decide whether or not to shift to the special game based on the second success / failure lottery value. The first pass / fail judgment unit 113 and the second pass / fail judgment unit 117 hold a pass / fail judgment table to be referred to in the pass / fail judgment.
<< Number to be in accordance with the lottery

  FIG. 8 shows the correspondence between a random number per special symbol (hereinafter referred to as a "success or failure random number") which is a random value which is a first success or failure lottery value or a second success or failure lottery value, and a lottery result. In the success / failure determination table of this figure, the determination results of the big hit and the loss and the success / failure lottery value are associated, and the big hit / fail probability is determined according to the respective range settings associated with each other. The first pass / fail judgment unit 113 and the second pass / fail judgment unit 117 (refer to FIG. 5) refer to the pass / fail judgment table of this figure in the pass / fail judgment as the main judgment. In any of the first lottery by the first success / failure determination means 113 and the second lottery by the second success / failure determination means 117, a big hit occurs only when the success / failure lottery value falls within the range of "63239 to 63402" under normal conditions. The range of the big hit is expanded at the time of definite variation, and it becomes a big hit not only when the pass / fail lottery value falls in the range of “63239 to 63402” but also falls in the range of “63403 to 64878”. Thus, the range corresponding to the jackpot changes according to the gaming state.

  Further, in the present embodiment, when the success or failure lottery value is “0 to 63238” and “64879 to 65535”, it does not fall within the jackpot range. That is, the range from “0” to “63238” which is the lower limit value of the acceptance random number range and the lottery result corresponding to “65535” which is the upper limit value are out of order.

  In this manner, a group consisting of continuous numerical values is formed for each lottery result, in the numerical range of the pass / fail random number. Then, for example, in the first lottery, as shown in FIG. 8, the numerical range “0 to 63238” is the first outgroup, “63239 to 63402” is the first big hit group, and “63403 to 64878” is The second big hit group, "64879-65535" is the second out-of-group.

  The number of random numbers corresponding to the first loss is 63,239. Further, the number of random numbers corresponding to the big hit 1 (first big hit group) is 164, and the number of random numbers corresponding to the big hit 2 (second big hit group) is 1476. Then, the jackpot probability at the normal probability in the first game is 164/65536, and the jackpot probability at the high probability is 1640 (= 1476 + 164) / 65536.

  Further, as described above, the pass / fail random number can take a value in the range of “0 to 65535”, and in the present embodiment, the pass / fail random number is a built-in random number (hardware random number) in the numerical range of “0 to 65535”. And a soft random number (software random number) per special symbol in the numerical range of "0 to 65520". The internal random number is a value extracted from the internal random number table. In the built-in random number table, numerical values in a predetermined range (for example, “0 to 65535”) are arranged in an arbitrary order, and a count value is incremented by one by hardware (counter circuit) using a clock input to the CPU 501. Every time, the numerical values arbitrarily arranged in the built-in random number table are to be acquired according to the order of arrangement, regardless of the numerical value relation. Then, numerical values in the acquired built-in random number table are extracted and used for calculation with soft random numbers. It can be said that such built-in random numbers are random numbers generated by a random number generation device including a hardware-like configuration.

On the other hand, the software random number is a random number generated by a software-like random number generation device in which numerical values arranged in ascending or descending order are incremented by adding a count value of 1 for each interrupt by a programmed counter. It can be said. And, in this embodiment, the number of random numbers of soft random numbers per special symbol is a prime number “65521”, and software random numbers to be added to internal random numbers that are addition sources are more than internal random numbers. The random value range (the size of the random number) is set small. In addition, in the generation of the pass / fail random number, the built-in random number and the software random number are not limited to simply adding them together, but, for example, they may be integrated or they may be added after performing any of a predetermined number of additions, subtractions and subtractions. , And other operations may be performed.

In the present embodiment, although the pass / fail random number is generated by a combination of the hardware random number and the software random number, the present invention is not limited to this. It is also possible to create the pass / fail random number using only one of them.
<< Places pertaining to symbol lottery >>

  The first symbol determination means 320 and the second symbol determination means 322 shown in FIG. 5 judge the above-mentioned acceptance / rejection determination of the aforementioned symbol lottery value (special symbol random number per symbol, hereinafter also referred to as “symbol random number”) separately acquired On the basis of the result of, the stop design is decided upon the start of the fluctuation of the design. The first symbol determination means 320 and the second symbol determination means 322 hold a plurality of symbol determination tables to be referred to in order to determine a stop symbol of a special symbol. The first symbol determination means 320 and the second symbol determination means 322 refer to different symbol determination tables according to the result of the determination of acceptance or rejection.

  FIG. 9 is a view schematically showing a symbol determination table. FIG. 9A is a table to be referred to when the determination result of the first lottery is a big hit, and FIG. 9B is a case when the determination result of the second lottery is a big hit FIG. 9C is a table to be referred to, and FIG. 9C is a table to be referred to when the result of the pass / fail judgment is “off”. The first symbol determination means 320 and the second symbol determination means 322 refer to the symbol determination table of this figure in symbol determination. In each symbol determination table, the correspondence between the special symbols represented by the numbers “0” to “8” and the first symbol lottery value or the second symbol lottery value is defined. The types of special symbols are respectively associated with jackpot and outlier determination results, a predetermined odd number corresponds to a big hit, and a predetermined even number corresponds to an outlier.

  As shown in FIG. 9 (a), in the first lottery, the special symbols "7", "5", "3", "", which are predetermined odd numbers among the special symbols "0" to "8". 1 and the even numbers “0” and “2” are symbol lottery values “0 to 124”, “125 to 499”, “500 to 714”, “715 to 734”, and “735 to 799 "and" 800 to 999 "are associated with each other. Furthermore, the special symbols “7”, “5”, “3”, “1”, “0” and “2” are associated with various jackpots of 16R probability variation and 10R probability variation described later. Here, the special symbol relating to the first lottery may be referred to as a first special figure, a special figure 1, a special symbol 1, a symbol 1 or the like in addition to the above-mentioned first special symbol.

  In addition, as shown in FIG. 9B, in the second lottery, the special symbols "7", "3", "0" and "2" are symbol lottery values "0 to 499" and "500", respectively. To 669 "," 670 to 799 ", and" 800 to 999 ". Furthermore, the special symbols “7”, “3”, “0” and “2” are associated with various jackpots of 16R probability variation and 4R probability variation described later. Here, the special symbol pertaining to the second lottery may be referred to as a second special figure, a special figure 2, a special symbol 2, a symbol 2 or the like in addition to the aforementioned second special symbol.

The types of jackpots in the first lottery and the second lottery described above will be described below. First, in the present embodiment, a big hit that repeats unit game 16 times (hereinafter referred to as “16R big hit” as appropriate), a big hit that repeats unit game 10 times (hereinafter referred to as “10R big hit” as appropriate), 4 unit games There is a big hit (hereinafter also referred to as "4R big hit" as appropriate) repeated several times. In these special games, when the first large winning opening 91 or the second large winning opening 92 is opened for about 30 seconds, or nine or more balls in the first large winning opening 91 or the second large winning opening 92. When the game ball falls down, there is one which closes the big winning opening temporarily and ends one unit game. Such a special game is a so-called hit with the goal of causing the player to acquire the game ball, and is intended to cause the player to acquire more game balls. Further, in the present embodiment, the specific gaming state such as the above-mentioned probability change or time-shortening occurs for all the big hit. And, the winning probability of the 16R probability variation in which the player can expect more balls is 12.5% in the first lottery and 50% in the second lottery, and the second lottery is more than the first lottery. The 16R probability variation is more likely to occur.

  Subsequently, as shown in FIG. 9C, the special symbols “4”, “6” and “8” which are even numbers among the special symbols “0” to “8” are associated with the detachment. Special symbol "4" is associated with symbol lottery value range "0 to 332", special symbol "6" is associated with symbol lottery value range "333 to 665", and special symbol "8" is symbol lottery It is associated with the range of values “666 to 999”.

  In the present embodiment, when the result of the lottery is a big hit, the upper limit “999” in the numerical range of the above-mentioned symbol random numbers is a special symbol (non 16R big hit symbol) which is a big hit other than the 16R big hit. It is assigned. Further, the present invention is not limited to this, and the lottery result of the non-16R big hit symbol may be allocated to the lower limit value "0", and the lottery result of the non-16R big hit symbol may be allocated to both the upper limit value and the lower limit value.

  The above-described symbol lottery is performed by software random numbers, and the process of generating random numbers is simplified as compared with the success or failure lottery using both software random numbers and hardware random numbers. This is because it is easy to become a target of fraudulent acts for cheating lottery, while it is difficult to become a target of cheating compared to the lottery for nominations, the crystal oscillator necessary for generating hardware random numbers for symbol drawing It is because it was set as the structure which does not use parts, such as. In addition, it is not limited to this, It is possible to create a pattern random number only by hardware random number, or by combining a hardware random number and a software random number.

In addition, as described above, a group consisting of continuous numerical values is formed for each lottery result with respect to the numerical range of symbol random numbers. And, for example, in the first lottery, in the case of a big hit, as shown in FIG. 9A, the numerical range “0 to 124”, “125 to 499”, “500 to 714”, “715 to 734” "," 735-799 "and" 800-999 "are respectively associated with the special symbols" 7 "," 5 "," 3 "," 1 "," 0 "and" 2 " It is each group. Furthermore, in the second lottery, in the case of a big hit, as shown in FIG. 9B, the numerical range “0 to 499”, “500 to 669”, “670 to 799”, and “800 to 999”. "Is each group matched with special symbol" 7 "," 3 "," 0 ", and" 2 ", respectively. Further, in the case of the exfoliation, as shown in FIG. 9C, the numerical ranges "0 to 332", "333 to 665" and "666 to 999" are the special symbols "4" and "6", respectively. And each group corresponded to "8".
<< Numbers related to fluctuation pattern lottery >>

  Returning to FIG. 5, the first pattern determination means 114 separately acquires a variation pattern in which the display process of the symbol variation to be displayed on the first special symbol display device 70 and the effect symbol display device 60 is separately acquired. It determines from among a plurality of change patterns based on. The second pattern determination means 119 is based on a second pattern lottery value to separately acquire a variation pattern in which the display process of the symbol variation to be displayed on the second special symbol display device 71 and the effect symbol display device 60 is determined. Determine from among the variation patterns. Each of the first pattern determination means 114 and the second pattern determination means 119 determines the variation pattern of the symbol variation with reference to the variation pattern table when starting the symbol variation. The first pattern determination unit 114 and the second pattern determination unit 119 respectively hold or share a plurality of fluctuation pattern tables as fluctuation pattern selection criteria to be referred to in order to determine fluctuation patterns.

In the fluctuation pattern, the fluctuation time from the fluctuation start to the stop when fluctuation display of the special symbol is determined, and it has various fluctuation time depending on the type. That is, for each variation pattern, the variation display time is determined for each pattern as the termination condition of the symbol variation, and the variation of the special symbol is stopped when the variation display time elapses. The plurality of fluctuation pattern tables are defined such that the selection tendency of fluctuation time (the tendency related to the length of the fluctuation display time of the selected fluctuation pattern) is different as the correspondence between the fluctuation pattern and the lottery value.

  The plurality of variation pattern tables include a limited frequency pattern table that is a selection criterion that is different from the other variation pattern tables in the tendency of the effect content. The limited frequency pattern table is a variation pattern table provided with a limited frequency pattern that causes a variation presentation pattern with a specific tendency (limited frequency pattern presentation) to be selected on the sub main substrate 301 side. In the present embodiment, a predetermined limited frequency pattern table may be used in relation to the specific game after the end of the special game, but this point will be described later.

  FIG. 10 is a view schematically showing a fluctuation pattern table. The first pattern determination unit 114 or the second pattern determination unit 119 refers to the variation pattern for removal shown in FIG. 10A when the result of the determination of acceptance is removal. The first pattern determination means 114 and the second pattern determination means 119 refer to the fluctuation pattern table of this figure in the fluctuation pattern determination. When the result of the determination is the 16R big hit, the variation pattern table for the 16R big hit shown in FIG. 10 (b) is referred to. When the result of the determination is the 4R big hit or 10R big hit, the variation pattern table for the 4R big hit or 10R big hit shown in FIG. 10C is referred to.

  In FIG. 10A, a super reach of "super 1" is associated with the pattern lottery value "0 to 2599", and a super reach of "super 2" is associated with the pattern lottery value "2600 to 4999". It is done. One of the fluctuation patterns of “normal 1”, “normal 2” and “no reach” is associated with the pattern lottery value “5000 to 49999”. As described above, when the result of the pass / fail judgment is “off”, any of the super reach, the normal reach, and the no reach may be selected. In addition, when selecting the “no reach” fluctuation pattern in the fluctuation pattern table for losing, in the time saving state, reference is made to a different table so that a fluctuation pattern whose fluctuation time is substantially shorter than that in the normal state is selected. In addition, although the variation pattern table for disconnection is defined so that the columns to be referred to differ depending on the number of reservations, the details of the normal state as an example will be described later with reference to FIG.

  In FIG. 10 (b), the super lottery of "super 1" is associated with the pattern lottery value "0-23519", and the super reach of "super 2" is associated with the pattern lottery value "23520-47039" It is done. The reach of “normal 1” is associated with the pattern lottery value “47040 to 48999”, and the reach of “normal 2” is associated with the pattern lottery value “49000 to 49999”. As described above, when the result of the determination is the 16R big hit, the variation pattern with the reach is selected.

  In FIG. 10C, the pattern lottery value “0 to 23999” is associated with the super reach of “super 3”, and the pattern lottery value “24000 to 49999” is associated with the normal reach of “normal 3”. ing. As described above, when the result of the determination is the 4R big hit or the 10R big hit, "Super 3" or "Normal 3" is selected with a probability of about 50%.

The pattern lottery described above is performed by software random numbers in the same manner as the symbol lottery, and the process of generating random numbers is simplified as compared to the acceptance lottery using both software random numbers and hardware random numbers. This is because, like the symbol lottery, the success lottery is likely to be a target of fraudulent behavior, whereas the pattern lottery is less likely to be a target of fraud than a yes or no lottery, so hardware random numbers are generated for the pattern lottery. It is because it is set as the structure which does not use parts, such as a crystal oscillator required for that. The present invention is not limited to this, and it is possible to create random numbers relating to the fluctuation pattern lottery only by hardware random numbers, or by combining hardware random numbers and software random numbers.

  Further, as described above, a group consisting of continuous numerical values for each lottery result is formed with respect to the numerical range of the fluctuation pattern lottery value (hereinafter also referred to as "variation pattern random number"). Then, in the case of an outlier, as shown in FIG. 10A, the pattern lottery values "0 to 2599", "2600 to 4999", and "5000 to 49999" are groups of "super 1", " The group of "super 2", "normal 1", "normal 2", and "no reach" are associated with each other. Further, in the case of the 16R big hit, as shown in FIG. 10 (b), the pattern lottery values "0 to 23519", "23520 to 47039", "47040 to 48999", and "49000 to 49999" are respectively Each reach of "super 1", "super 2", "normal 1", and "normal 2" is a group associated with each other. Further, in the case of the 4R big hit or 10R big hit, as shown in FIG. 10C, the pattern lottery values "0 to 23999" and "24000 to 49999" are for each reach of "super 3" and "normal 3" Is a group associated with. Note that other variation patterns of “Super 1”, “Super 2”, “Normal 1”, “Normal 2”, and “No reach” described above may be added. For example, it may be subdivided into different fluctuation time fluctuation patterns.

  FIG. 11 is a diagram showing in detail the variation pattern table for disconnection. In the variation pattern table 210a of this figure, the range of the pattern lottery value associated with the variation pattern differs for each number of reservations. Specifically, the smaller the number of reservations, the wider the range of pattern lottery values allocated to fluctuation patterns having a relatively long fluctuation time, and the probability that such fluctuation patterns with a long fluctuation time are selected is increased. . Therefore, the smaller the number of holdings by the first holding means 144 or the second holding means 146, the longer the average fluctuation time. Therefore, when the number of reservations by the first holding means 144 or the second holding means 146 is less than a predetermined number, for example, 1 to 2, the selection probability of the long fluctuation pattern of fluctuation time becomes higher than usual, and the fluctuation time It tends to be relatively long.

  In the first column 212a, the number of pending results of the first lottery by the first suspending means 144 or the number of pending results of the second lottery by the second suspending means 146 is 1 when the pattern lottery value range and the variation pattern are The correspondence is shown. Similarly, in the second column 214aa, the third column 216a, and the fourth column 218aa, the number of pending results of the first drawing by the first holding means 144 or the number of pending results of the second drawing by the second holding means 146, respectively The correspondence between the pattern lottery value range and the variation pattern in the cases 2, 3, and 4 is shown. That is, it can be considered that the first column 212a, the second column 214aa, the third column 216a, and the fourth column 218aa indicate a variation pattern table for each number of reservations. In this figure, an example in which a plurality of variation patterns that can be selected at the time of detachment are classified into five types according to variation time will be described, but in practice a plurality of variation presentation patterns are prepared for each of these categories. Is equivalent to the fact that several dozens of variation effect patterns are associated with the lottery value range for each category.

In the first range 222, any of the first column 212a, the second column 214aa, the third column 216a, and the fourth column 218aa as a variation pattern when the lottery value corresponds to the pattern lottery value from 0 to 2599 The variation pattern of super reach of "super 1" is associated. In the second range 224, any of the first column 212a, the second column 214aa, the third column 216a, and the fourth column 218aa is a variation pattern when the lottery value corresponds to the pattern lottery value from 2600 to 4999. The variation pattern of the super reach "super 2" is associated. As described above, in the case of the pattern lottery value of lottery value from 0 to 2599 and the pattern lottery value of lottery value from 2600 to 4999, the same fluctuation pattern of fluctuation time is selected regardless of the number of reservations.

  In the third range 226, the first column 212a, the second column 214aa, the third column 216a, and the fourth column 218aa are normal reach as fluctuation patterns when the lottery value corresponds to the pattern lottery value of 5000 to 49999. Three kinds of fluctuation patterns of “normal 1”, “normal 2” and “no reach” are associated. However, the range of the pattern lottery value to which each variation pattern is associated differs depending on the number of reservations. In the first column 212a, the sizes of the lottery value ranges to which "normal 1", "normal 2" and "no reach" are respectively associated are approximately equal, and the ranges obtained by dividing 5000 to 49999 into three equal sections are associated. There is. On the other hand, in the second column 214aa, the size of the lottery value range associated with each of "normal 1" and "normal 2" is slightly smaller than the lottery value range associated with "no reach". In the third column 216a, the size of the lottery value range associated with each of "normal 1" and "normal 2" is further reduced, and in the fourth column 218aa, "normal 1" and "normal 2" are supported. The size of the lottery value range to be attached is further reduced.

  The fluctuation time of "normal 1" and "normal 2" may be longer than the fluctuation time of "no reach", and in the case of "no reach", the fluctuation time may be shortened as in the short time state, The average fluctuation time is different according to the setting contents of the third range 226 of the above. As the number of reservations increases from 1 to 2, 3 and 4, the pattern lottery value range of “normal 1” and “normal 2” becomes smaller, and conversely, the pattern lottery value range of “no reach out” becomes larger. Therefore, the larger the number of reservations, the shorter the average fluctuation time, and conversely, the smaller the number of reservations, the longer the average fluctuation time. As described above, by using the fluctuation pattern table in which the correspondence between the pattern lottery value range and the fluctuation pattern differs depending on the number of reservations, control is realized in which a fluctuation pattern with a long fluctuation time is easily selected when the number of reservations decreases. be able to. Further, as a variation pattern of the decorative symbol 190, a variation pattern may be set which is applied across a plurality of successive variations of each of the first special symbol 192 and the second special symbol 193.

  Furthermore, with regard to the selection tendency of the fluctuation pattern, the selection tendency is set in relation to the number of reservations according to the first lottery and the number of reservations according to the second lottery as a result of the acceptance lottery You may do it. By doing in this way, for example, when the result is a definite change and the result of the success or failure lottery is lost, for the first special symbol 192, the number of reservations according to the first lottery and the number of reservations according to the second lottery The probability that the fluctuation pattern defined as a relatively long fluctuation time is selected is set relatively high regardless of, and the second special symbol 193 is set regardless of the number of reservations pertaining to the first lottery It is possible to set a relatively low probability that the fluctuation pattern specified as having a relatively long fluctuation time is selected according to the number of reservations relating to the second lottery. Also, if the variation is definite and the result of the lottery is a big hit, the fluctuation time is defined as being relatively short regardless of the number of reservations for the first lottery and the number of reservations for the second lottery. It is also possible to set a relatively low probability that a fluctuation pattern is selected.

  Further, with respect to the fluctuation pattern table as an example is shown in FIGS. 10 and 11, although not shown, a further subdivided fluctuation pattern table is provided. As described above, the subdivision of these fluctuation pattern tables is either the first lottery or the second lottery, whether it is a big hit or not, the number of holdings, etc. It is also performed based on attributes such as whether the type is, whether or not the probability state of the big hit lottery is high probability, and whether or not time is short.

  In addition, the fluctuation patterns such as “Super 1”, “Super 2”, “Normal 1”, “Normal 2”, and “No reach” described above are further subdivided and configured by a plurality of fluctuation patterns. Also, for each variation pattern, assignment of names and selection probabilities is performed individually. And, the name of each fluctuation pattern, the relationship between the gaming state (usually, each state such as reach, probability change, short time, big hit and the like) which is used, the fluctuation production pattern which is selected with sub main base 301, developer etc Is something that can be recalled.

  Here, one variation pattern table should have different names and variation patterns with the same variation time, or different variation pattern tables should have the same name and variation patterns with the same variation time. It is also possible.

Then, the variation pattern selected according to the game situation on the main substrate 102 is notified to the sub main substrate 301 as a part of the above-mentioned effect control command, and the sub main substrate 301 causes the effect symbol display device 60 to be displayed. Etc. are used to select a variation presentation pattern to be executed. Then, in many cases, on the side of the sub substrate 104, a plurality of variation effect patterns having different contents in the same variation time are associated with the variation pattern selected by the main substrate 102 as a selection target. . Therefore, for example, even when a variation pattern of a specific name is designated from the main substrate 102 to the sub main substrate 301, the variation effect pattern selected on the sub main substrate 301 is different, and effects of different contents are displayed. Is sometimes performed.
<< Lottery means pertaining to ordinary symbols >>

  Returning to FIG. 5, the common drawing lottery means 136 executes the common drawing (normal symbol) lottery based on the detection of passage of the game ball in each operation opening 68a, 68b, and the common drawing lottery value acquiring means 137, It includes design allowance determination means 138, common drawing pattern determination means 139, and common drawing symbol determination means 140. The result of the common drawing lottery is shown in the form of the variation display and the stop display of the normal symbol in the normal symbol display device 59 (see FIG. 3 and FIG. 7A).

  The common drawing lottery means 136 holds a symbol determination table to be referred to in order to determine the stop symbol of the normal symbol displayed on the normal symbol display device 59. In the symbol determination table, the correspondence relationship between the lottery value and the normal symbol is defined, and the common drawing lottery means 136 is a common drawing lottery value acquiring means 137, a common drawing success or failure judging means 138, and a common drawing pattern determining means 139 And, by the common pattern design determination means 140, the fluctuation pattern and the stop design of the normal design are determined with reference to the design determination table. When the determined stop symbol becomes a predetermined symbol, it is determined that the normal symbol corresponds to a hit, and after the fluctuation display of the normal symbol is stopped by the stop symbol, the opening / closing control means 124 is the second start winning opening The 63 ordinary motorized items are expanded for a predetermined time in a mode corresponding to the type of the hit. The lottery value of the normal symbol is temporarily suspended by the suspension control means 116. However, the lottery value is held only when the predetermined holding upper limit number held by the holding control means 116 is not exceeded.

In the present embodiment, with regard to the normal symbols, all of the success / failure random numbers related to the common-character design suitability determination means 138, the pattern random numbers related to the common-character pattern determination means 140, and the variation pattern random numbers related to the common drawing pattern determination means 139 are all software. Created using only random numbers. And as for each random number range, the success / failure random numbers are 0-282, the symbol random numbers are 0-262, and the fluctuation pattern random numbers are 0-232. In addition, it is not limited to this, It is possible to use the random number which concerns on a normal symbol as a hardware random number, or to be based on the combination of a hardware random number and a software random number.
<< Other main functions of main board >>

The hold control means 116 includes a first hold means 144, a second hold means 146, and a common view hold means 14.
Including 7 When the first holding means 144 newly displays a symbol variation corresponding to a previous lottery when the first lottery is executed, the special drawing lottery value relating to the new first lottery is drawn Hold until the start of the variable display of the symbol corresponding to the value. In the present embodiment, random numbers are held with an upper limit of four as a special drawing lottery value related to the first lottery. When the second variation means 146 newly displays a symbol variation corresponding to a previous lottery when the second lottery is executed, the special drawing lottery value relating to the new second lottery is drawn Hold until the start of the variable display of the symbol corresponding to the value. In the present embodiment, random number values are held with an upper limit of four as special drawing lottery values relating to the second drawing. The common drawing holding means 147 sets the common drawing lottery value as the normal symbol holding information acquired by the common drawing drawing means 136 along with the passage of the game ball at the operation openings 68a, 68b, with four being the upper limit, respectively. Hold as. The number of these holdings is represented by the number of lighting or blinking of the first special drawing holding lamp 20, the second special drawing holding lamp 21, and the common drawing holding lamp 22, respectively. The number of holdings by the first holding means 144 and the second holding means 146 is also displayed on the display area 194 of the effect symbol display device 60.

  The lottery value held by the second holding means 146 is preferentially digested over the lottery value held by the first holding means 144, and symbol variation is displayed. Therefore, even if the lottery value for the big hit is suspended by the first storage means 144, the symbol variation corresponding to the big hit lottery value of the first storage means 144 is not displayed as long as the second storage means 146 is suspended. Therefore, even if the first holding means 144 holds a big hit, it may be possible to obtain a plurality of consecutive big hits by continuing to hit until the second holding means 146 holds a big hit.

  The main display control unit 118 includes a first special view control unit 148, a second special view control unit 150, and a common view control unit 153. The first special figure control means 148 causes the first special symbol display device 70 to display the variation of the first special symbol 192 in accordance with the variation pattern determined as a result of the first lottery by the first lottery means 126. The second special figure control means 150 causes the second special symbol display device 71 to display the variation of the second special symbol 193 in accordance with the variation pattern determined as a result of the second lottery by the second lottery means 128.

  When the special drawing lottery value relating to the second drawing is held by the second holding means 146, the first special drawing control means 148 holds the start of the symbol variation display corresponding to the first drawing. On the other hand, the second special drawing control means 150 starts the symbol variation display corresponding to the second drawing regardless of whether the special drawing lottery value relating to the first drawing is held by the first holding means 144 or not. . Thereby, when the lottery value is held by both the first holding means 144 and the second holding means 146, the lottery value held by the second holding means 146 is preferentially read and symbol variation is displayed. Ru. In such a case, the lottery value held by the first holding means 144 is not read out until the number of holdings of the second holding means 146 becomes 0, and the symbol fluctuation does not start either.

  The first special view control means 148 and the second special view control means 150 change start and stop commands at the start timing and stop timing of the variable display of the first special symbol 192 and the second special symbol 193. It transmits to the above-mentioned effect display control means 134. When transmitting the change start command, the determined success or failure determination result, the stop symbol, the value indicating each of the change pattern, and the value indicating which of the first lottery and the second lottery is displayed together with the change start command It transmits to the display control means 134. When transmitting the change stop command, a value indicating the stop symbol is sent to the effect display control means 134 together with the change stop command. Thereby, the variable display by the main display control means 118 and the effect display control means 134 synchronizes, and interlocking is maintained. The common drawing control means 153 causes the normal symbol display device 59 to display the result of the lottery by the common drawing lottery means 136 as the fluctuation display of the normal symbol.

The condition holding means 176 holds the special game operating condition as a condition for shifting to a special game including multiple unit games involving the opening of the big winning opening. The special game operation condition is a result indicating transition to a special game in the first lottery or the second lottery, and the content of the condition is that symbol variation corresponding to the lottery is stopped.

  The special game control means 120 operates the special game when the first special symbol 192 is stopped in a predetermined big hit mode, when the first lottery by the first lottery means 126 results in the transition to the special game. It is determined that the condition is established, and the special game is executed by opening the first large winning opening 91. Similarly, when the second lottery by the second lottery means 128 results in the transition to the special game, the special game control means 120 causes the second special symbol 193 to be stopped in a predetermined big hit mode. It is determined that the special game operation condition is established, and the special game is executed by opening the second large winning opening 92.

  The specific game control means 122 controls the normal game in the state of probability change and short time. The specific game control means 122 shifts to the time saving state after the end of the special game according to the type of the big hit. On the other hand, transition to the definite variation state after the end of the special game is limited to the case where the symbol determined by the first symbol determination means 320 or the second symbol determination means 322 is a big hit symbol accompanied by transition to a definite variation. The time saving state is continued until the sum of the variable display counts of the first special symbol 192 and the second special symbol 193 reaches a predetermined termination condition count, for example, 100 times, counting from the end of the special game. The first pattern determination unit 114 and the second pattern determination unit 119 select a variation pattern having a short variation time so that the variation display time of the first special symbol 192 and the second special symbol 193 is substantially shortened. On the other hand, the definite change state is attached to the jackpots of all types, and is continued until the total number of variable displays after the special game reaches a predetermined number (here, 104 times). During the probability change state, the probability that the first determination unit 113 or the second determination unit 117 determines that the determination result of the determination is a big hit is maintained at a high value.

  When the first start winning opening 62 enters the ball, the prior information notifying means 157 selects the first lottery means 126 for the ball regardless of whether or not the symbol variation display corresponding to the ball is started. The information indicating the lottery value according to is transmitted to the sub main board 301. Also, when the second start winning opening 63 enters the ball, regardless of whether or not the symbol variation display corresponding to the entering ball is started, the lottery value by the second lottery means 128 for the entering ball is shown Information (hold lottery value) is transmitted to the sub main board 301. The holding lottery value includes information indicating which one of the first start winning opening 62 and the second starting winning opening 63 the player has entered, and a pass / fail range / design range / pattern range as a result of the prior determination.

  Note that such notification of the advance information makes it possible, for example, to make an effect such as making the effect of the notice different depending on the remaining number of the definite variation continuation number. More specifically, it is considered that, as the remaining number of the definite variation continuation number decreases, the advance notice effect is frequently performed, the information held in the hold control means 116 is determined in advance, and the notice effect is continuously executed. Be

The opening and closing control means 124 controls the opening and closing of the first motor winning combination in the second start winning opening 63, the first large winning opening 91, and the second large winning opening 92. When the normal symbol is stopped in a specific manner, the opening / closing control means 124 sends an opening instruction to the normal motor combination solenoid 76 to open the normal rotation combination of the second start winning opening 63. In the special game, the opening / closing control means 124 sends an opening instruction to the big winning opening solenoid 80 or the big winning opening solenoid 81, and opens the first big winning opening 91 or the second big winning opening 92. Further, the opening / closing control means 124 executes the opening extension for expanding the opening / closing mechanism of the second start winning opening 63 for a long time as compared with the normal state in the definite variation state and the short time state after the special game.
<< Major functions of sub main board >>

In the sub main board 301, the command receiving means 304 receives various commands from the main board 102, and as described later, the symbol mode determining means 131, the effect determining means 132,
The presentation mode information related to the presentation mode determined and controlled by the presentation display control unit 134 or the like is transmitted to the sub-sub substrate 302 via the presentation mode transmission unit 305.

  The pattern storage means 130 provided in the sub main substrate 301 holds a plurality of effect patterns in which the effect image content to be displayed on the effect symbol display device 60 and the display process thereof are determined in the variation of the decorative symbols 190a to 190c. . The effect pattern includes a plurality of change effect patterns in which the change process from change start to stop and the change process in the change display of the decorative symbols 190a to 190c are defined, and the change display of the decorative symbol to the big hit It includes a plurality of preview effect patterns that suggest the height of the expectation degree before the stop of the variable display.

  Based on the result of the first lottery received from the first lottery means 126 or the result of the second lottery received from the second lottery means 128, the effect determining means 132 causes the effect display control means 134 to display on the effect symbol display device 60. Determine the content of the effect. The effect determination means 132 selects any one of the plurality of variation effect pattern data corresponding to the variation pattern of the special symbol determined by the first pattern determination means 114 or the second pattern determination means 119, and stores the pattern storage means 130. Read from The effect determining means 132 determines the combination of the stop symbols of the decorative symbols 190a to 190c based on the stop symbol or the variation pattern of the special symbol determined by the first lottery means 126 or the second lottery means 128.

  The stop symbols of the decorative symbols 190a to 190c are formed as a combination of three symbols, and for example, when the result of the determination by the first lottery means 126 or the second lottery means 128 indicates the transition to a special game of big hit A combination, for example, a combination of three patterns such as "777" and "555" is selected. In this case, it is possible to select a decorative symbol according to the same number as the first special symbol 192 or the second special symbol 193, for the numerals aligned as the decorative symbols 190a to 190c. For example, when the first special symbol 192 or the second special symbol 193 is "7", the decorative symbols 190a to 190c become "777". Alternatively, the jackpot may be indicated by a combination of symbols including a specific symbol indicating that at least one of the three symbols is a hit. Then, the effect determining means 132 sends the stop symbol combination of the decorative symbols 190a to 190c and the variation effect pattern data of the decorative symbols to the effect display control means 134.

  The variation display pattern of the decorative symbol defines the variation display mode of the decorative symbol, that is, the variation process and the presentation process from the variation start of the ornamental symbol to the variation stop. The variation effect pattern includes a reach pattern that displays a stop pattern combination that is a hit mode or an escape mode after reaching a hit state if there is one more symbol aligned, and a stop pattern that is an offset mode without passing the reach state. Contains a no reach pattern that displays combinations. In particular, patterns when undergoing reach conditions include patterns with long and short variations, and as described above, reach patterns with relatively short variation times are referred to as “normal reach” and reach with long variation times The pattern is called "super reach". In each variation presentation pattern, a variation time is determined for each pattern as an end condition of the symbol variation, and the symbol variation is stopped when the variation time elapses. The effect determination means 132 selects a variation effect pattern of the decorative symbol having the same variation time as the special symbol according to the variation pattern of the special symbol.

The above-described normal reach and super reach in the sub main substrate 301 correspond to the variation patterns such as “normal 1”, “normal 2”, “super 1”, and “super 2” in the main substrate 102 described above. Further, the above-mentioned no reach pattern in the sub main board 301 corresponds to the “no reach” fluctuation pattern in the main board 102 as well. In the pachinko gaming machine 10 of the present embodiment, a large number of variation patterns of the sub main substrate 301 are provided corresponding to each variation pattern of the main substrate 102, and the variation pattern selected by the main substrate 102 is a sub When the main substrate 301 is notified as a command, the sub main substrate 301 selects one of the plurality of variation patterns that can be selected for the designated variation pattern. When the variation patterns in the main substrate 102 are further subdivided, more variation patterns in the sub main substrate 301 are also provided corresponding to the segmentation in the main substrate 102. In addition, various variation patterns in the sub main substrate 301 may be used in combination with the above-described various announcement effect patterns.

  The effect display control means 134 includes a first effect control means 168 and a second effect control means 170. The effect display control means 134 performs control for effect processing relating to sound output (sound) such as lighting and extinguishing of the game effect lamp 90 and sound output from the speaker 19.

  The first effect control means 168 and the second effect control means 170 select the result of the first lottery by the first lottery means 126 or the result of the second lottery by the second lottery means 128 as the selected variation effect pattern data. Therefore, it is variably displayed on the display area 194 of the effect symbol display device 60 as the decorative symbols 190a to 190c.

  The first effect control means 168 reserves the start of the symbol variation display corresponding to the first lottery when the result of the second lottery is suspended by the second reserve means 146. The second effect control means 170 starts the symbol variation display corresponding to the second lottery regardless of whether or not the result of the first lottery is suspended by the first reserve means 144. Thereby, when the lottery value is held by both the first holding means 144 and the second holding means 146, the lottery value held by the second holding means 146 is read preferentially and the variation of the decorative symbol is Is displayed. In such a case, the lottery value held by the first holding means 144 is not read out until the number of holdings of the second holding means 146 becomes 0, and the variation of the decorative symbol is not started either. As described above, the effect display control unit 134 causes the effect symbol display device 60 to display the symbol change effect including the change display of the decorative symbols 190 a to 190 c.

  The effect determination means 132 stores the pending lottery result notified by the prior information notification means 157 in a predetermined buffer area. Further, the effect determining means 132 selects the lottery result regarding the change (the change display being executed at that time) as the main determination result notified from the first lottery means 126 and the second lottery means 128 of the main substrate 102, and The notice effect is displayed in accordance with the pending lottery result notified in advance by the information notification means 157 and stored in the buffer area. Specifically, an advance notice effect is displayed as a precursor to indicate the presence or absence of a big hit in the pending lottery result in which the symbol change is performed in the future. The effect determining means 132 executes a predetermined advance lottery to determine whether or not to display the advance effect, and (on the predetermined probability, for example) on condition that it has won the advance lottery, Display the notice effect. The notice effect set in accordance with the preliminary determination result in the on-hold lottery result in this manner is called "pre-reading effect".

In addition, the effect determination means 132 is the number of reservations (hereinafter also referred to as "first number of reservations") in the first reservation means 144 set in the winning information and the number of reservations in the second reservation means 146 (hereinafter, "the first The first number of reservations and the second number of reservations at the current point in time are specified according to the number of reservations of two. The effect display control means 134 causes the first holding number and the second holding number specified in the effect determining means 132 to be displayed in the first holding number display portion 196 and the second holding number display portion 197 of the effect symbol display device 60. Display. In addition, when the number of reservations is newly specified in the effect determination means 132, the display of the first number of reservations display portion 196 and the second number of reservations display portion 197 is sequentially updated.
<< Various patterns of pre-reading effect >>

When the above-mentioned pre-reading effect is executed, an effect pattern (including visual and auditory) different from the normal effect pattern appearing before that is executed, but such The specific aspect and the execution start timing of the effect pattern concerning pre-reading effect are not uniform, but are rich in change.

  For example, as an example of the pre-reading effect, one using the hold display in the first hold number display unit 196 and the second hold number display unit 197 shown in FIG. 7 (b1) and (b2) can be mentioned. Furthermore, as an effect pattern (hereinafter referred to as “hold change”) different from the normal effect pattern to be performed in the hold display, one that changes the color, shape, or pattern of the holding ball display, or the hold display to repeat flashing. What blinks, or a combination of these may be mentioned. And among these, as what changes the form of a holding ball display, what changes the color of a holding ball display, for example to red or gold at a predetermined | prescribed timing etc. can be illustrated, although it is normally green. Furthermore, as what changes the shape of the holding ball display, it changes from the shape of a normal circle to various items related to the story of the effect or the form of a person (all include moving images), and the form before the change in holding. For example, it is possible to exemplify the enlargement while maintaining the similar form. Moreover, as what changes the pattern of a holding ball display, what can be changed from the display of the normal single color pattern without a pattern to an animal body surface pattern etc. can be illustrated. Furthermore, as what makes a pending | holding display blink, what makes the period of a blink different, etc. can be illustrated.

  Furthermore, the timing of such holding change is also various, for example, based on the starting winning combination (the detection of a game ball, which may be referred to as "target winning" in the following) which is the target of the holding change. Or, those based on other start winnings (also referred to below as “other winnings”) may be mentioned. Furthermore, at the timing of the pending change based on the other winnings, the variable display (hereinafter referred to as "preceding variation") related to the starting winnings (hereinafter may be referred to as "preceding winnings") that occurred earlier than the target winnings. There are cases in which the state of "may be referred to" is used as a reference, and the case in which a start winning (which may be referred to as "following win" in the following) generated after the target winning is referred to.

  Among these, as the pending change based on the target winning, the effect display control means 134 which is a functional means provided on the sub substrate 104 is a pending corresponding to the target winning based on the preliminary determination result regarding the target winning. There is an aspect of executing a pending change from the beginning of the display. In addition, it is conceivable that the suspension display corresponding to the target winning is initially started with the normal suspension display pattern, and the suspension is changed when a predetermined time passes.

  Moreover, the following can be mentioned as a pending | hold change on the basis of the state of a prior winning combination or a prior | preceding fluctuation | variation. For example, the suspension display relating to the target winning is started in the normal display pattern, and thereafter, the variable display which has been executed when the target winning has occurred is ended. Then, the variable display relating to the earliest stored on hold information (the first on-hold storage) among the start-up winning information relating to the preceding winning, which has been suspended until then, is started. Then, when the hold indication relating to the target winning is shifted to a hold display of one lower rank (for example, the one shifted to the fourth to third hold display), a special display from the normal hold display pattern Change to a pattern.

In addition, as the pending change based on the status of the advance prize and the advance fluctuation, the advance fluctuation can be used to continuously execute over a plurality of variable displays (a plurality of start winning information). . And as a production | presentation pattern of this continuous pending | holding change, the following can be illustrated. For example, when the hold display relating to the target winning is performed at the fourth position (the fourth position (the left end position)) in the first number-of-holds display portion 196 in FIG. 7 (b1), (b2). , And displayed in a color (for example, red) different from the color (for example, green) of the normal reservation display at the other positions (for example, the first to third positions). Then, the settlement of holding progresses, and the position of the holding display related to the target winning is the third position, the second position, the first position, and the right side (left side in the case of the second holding number display unit 197) Every time the shift is made, the color of the hold display changes to orange, gold and iridescent sequentially.

  Moreover, the following can be illustrated as a pending | hold change on the basis of the above-mentioned succeeding prize. For example, every time a start winning is detected, the above-mentioned effect determination means performs a lottery (hold change execution lottery) whether or not to make a hold change relating to the target winning, and the lottery result is to make a hold change In this case, regardless of the position at which the on-hold display related to the target winning is displayed, the on-hold display of the on-target winning to be performed at that time is changed on-off. Further, the present invention is not limited to this, and when the result of the pending change execution lottery is to perform the pending change, when the pending display relating to the target winning is shifted to a predetermined position (for example, the second position). It is also conceivable to change the status to a different mode from before. It should be noted that the hold change execution lottery is not limited to performing for each start winning, for example, when a predetermined condition is satisfied (for example, during a specific effect mode, while a predetermined effect is being performed, etc.) It may be limited.

  In the present embodiment, the pending display is taken as an example of the effect pattern relating to the pre-reading effect, but the present invention is not limited to this, and can be applied to control for stopping the effect pattern, for example. It is. Then, as an aspect of control for stopping the effect pattern, for example, a continuous effect (hereinafter referred to as "continuous advance notice", including pseudo ones) is executed over a plurality of variable displays. In this case, a lottery for determining whether or not to end the continuous advance notice may be determined based on the lottery result of the gaming state read ahead.

  With regard to the prefetching effect as exemplified above, it is possible to adopt a configuration that conveys the type of symbol group of the special symbol. That is, as the above-mentioned first special symbol 192 (or second special symbol 193), for example, a large number of symbols such as 256 types each are set, and the first special symbol display device 70 (or second special symbol display device 71) A number of symbols can be distinguished by the difference in lighting patterns of the configured LEDs. Then, these many symbols are classified into, for example, 16 types in a mode in which they are linked to the result of the acceptance lottery, and a plurality of groups each formed of a plurality of symbol groups are formed. Furthermore, a code distinguishable by the sub main substrate 301 is assigned to each symbol group, and the symbol of the symbol group to which the numerical value acquired by random number lottery belongs from the main substrate 102 to the sub main substrate 301 is designated the effect pattern Included in the command to be sent. Then, the sub main board 301 determines, based on the command from the main board 102, which one of the symbol groups the command relates to, and based on the determination result, performs the pre-reading effect in association with the result of the acceptance lottery.

  In addition, it is possible to comprise so that the command concerning pre-reading effect may include four information of a pass / fail, a hit symbol, a fluctuation pattern, and the number of holding balls as one set. Furthermore, since the pass / fail random number, the symbol random number, and the variation pattern random number are grouped as described above, it is possible to perform communication by including information indicating the group in the command. The technical significance can be made similar even if the term “grouping” is replaced with terms such as “block division”, “group division” and the like.

  Further, it is possible to adopt a configuration in which the transmission conditions of the prefetch command are changed and set according to the situation, and in the situation where the transmission conditions are set, command transmission according to the transmission conditions is performed. For example, during a big hit (during a special game), it is conceivable that only the second special symbol 193 relating to the second game is valid, and only the command relating to the second special symbol 193 is transmitted. In addition, whether it is a lottery related to which of the first game and the second game, and whether it is a normal gaming state or a specific gaming state where there is a definite change (or time reduction or electric power support) It is also possible to switch over the tables to be used (e.g., a pass / fail judgment table, a symbol judgment table, a variation pattern table, etc.) according to the point or the like.

In addition, about a pending | holding display, it is possible to carry out in the aspect according to the other various game states not only in the gaming state which performs the above-mentioned prefetch effect. For example, when the probability of the big hit lottery is the normal probability and the probability of the high probability, the modes of the hold display are different from each other, and when the open extension of the ordinary electric role is performed (when the open extension function is in operation) When the open extension is not performed (when the open extension function is not activated), it is possible to make the modes of the hold display different from each other. As a specific mode of the suspension display, it may be mentioned that the shape of the first suspension number display portion 196 (or the second suspension number display portion 197) is changed from a perfect circle to a shape of a specific character or item. it can. Note that it is also possible to delay or accelerate the timing of start and end of effects in the hold display mode different according to the gaming state with respect to the timing at which the corresponding gaming state occurs.
<Various commands sent from main board to sub main board>

  Next, various commands transmitted from the main board 102 to the sub main board 301 will be described. First, as the transmission timing of the command, during the initial screen display, during the customer waiting demo (standby demo), at the time of symbol fluctuation start of the special symbol, at the time of symbol confirmation of the special symbol, during symbol confirmation of the special symbol, at the big hit start demonstration, When the big hit medium large winning opening is open, when the big hit middle large winning opening is closed, there is a hit end demonstration, a big hit end demonstration end, etc. Among these, during the initial screen display, it is a period from when the power of the pachinko gaming machine 10 is turned on to when the customer waiting demo is started and the steady state is entered. In addition, at the start winning, at the time of power failure recovery, and at the time of error detection, command transmission is performed in any case. Furthermore, command transmission is also performed when RWM is cleared.

  Among these, as the command at the time of RWM clearing, there are a command of initialization of the effect display, initialization of the effect LED, and various errors. The effect indicator initialization command is for displaying a predetermined off symbol on the effect symbol display device 60. The effect LED initialization command is to light part of the game effect lamp 90 when the communication is normal. The various error commands are for displaying effects etc. in accordance with the state of the error.

  There is a customer waiting demo command as a customer waiting demonstration command. The customer waiting demonstration command is for setting the effect symbol display device 60 and the game effect lamp 90 for the customer waiting demonstration and erasing the voice.

  As a command at the start of symbol fluctuation of special symbol, symbol 1 memory number, symbol 2 memory number, communication inspection 1, communication inspection 2, effect frequency A to Z, effect selection state 0 to 2, fluctuation additional information, symbol 1 effect There are commands of pattern, symbol 2 effect pattern, symbol 1 character effect, and symbol 2 character effect. The symbol 1 memory number command indicates the number of reserved memories of the first special symbol 192, and the symbol 2 memory number command indicates the number of reserved memories of the second special symbol 193. The communication check 1 command and the communication check 2 command are for confirming whether normal communication is performed. The various commands of the number of times of presentation A to Z indicate the number of times concerning the effects according to the above-mentioned limited frequency table, and the various commands of the effect selection states 0 to 2 indicate the types of effects according to the limited frequency table It is a thing. The fluctuation additional information command indicates information for adjusting the fluctuation time. The symbol 1 effect pattern command is for transmitting a command corresponding to the variation pattern of the first special symbol 192, and the symbol 2 effect pattern command transmits a command corresponding to the variation pattern of the second special symbol 193. It is for. The symbol 1 character effect command is for transmitting a command corresponding to the symbol of the first special symbol 192, and the symbol 2 character effect command is for transmitting a command corresponding to the symbol of the second special symbol 193. It is a thing.

In the present embodiment, the command at the start of the symbol variation of the special symbol includes the item relating to the lottery effect relating to the above-mentioned normal symbol (lottery effect command). And the command about this lottery effect can be provided as a command contained in the above-mentioned fluctuation addition information command. Here, the transmission timing of the command relating to the lottery effect may be another timing instead of the symbol variation start time of the special symbol. Then, as another transmission timing of the command related to the lottery effect, it is possible to illustrate during the fluctuation of the special symbol, and it is possible to transmit during each change of the long opening during the fluctuation of the special symbol. In addition, it is possible to adopt a control mode that, if it is determined that the game is open for a long opening, the lottery effect command can be transmitted either at the start of the change of the special symbol or during the change of the special symbol. is there.

  As commands at the time of symbol determination of the special symbol, there are commands of symbol 1 effect pattern stop and symbol 2 effect pattern stop. The symbol 1 effect pattern stop command and the symbol 2 effect pattern stop command are for stopping the decorative symbols 190a to 190c based on the first special symbol 192 and the second special symbol 193, respectively.

  As commands during symbol determination of special symbol, fluctuation time reduction number 0 (at low probability), fluctuation time reduction number A to Z (at low probability), fluctuation time reduction number 0 (at high probability), during probability fluctuation Command of up to a predetermined number of fluctuations). These are for transmitting a command related to the gaming state at that time, and are used for effect mode display, time-saving display, and the like.

  As a command at the time of the big hit start demonstration, there are a command of the design 1 big hit start demonstration, a design 2 big hit start demonstration, the launch position specification. The symbol 1 big hit start demonstration command and the symbol 2 big hit start demonstration command are for displaying a start demonstration based on the big hit symbols of the first special symbol 192 and the second special symbol 193. The launch position designation command is used to inform the launch position when the player is to strike the game ball between the first large winning opening 91 and the second large winning opening 92 by so-called left or right hitting. belongs to.

  The launch position specification command causes the player to break the game ball between the first large winning opening 91 and the second large winning opening 92 by so-called left or right hitting as in the big hit start demonstration. In this case, it is for informing the launch position.

  As a command at the time of big hit medium large winning a prize opening opening, there is a command of demonstration 1-16 during pattern 1 big hit, demonstration 1-16 during pattern 2 big hit. These are for displaying effects based on the jackpot symbols and the number of rounds of the first special symbol 192 and the second special symbol 193.

  As a command at the time of big hit medium large winning a prize opening closing, there is large winning a prize opening closing production command. This is for displaying the special winning opening closing effect.

  As a command at the time of the hit end demonstration, there is a command of the end demonstration of 1 pattern, the command of the end demonstration of 2 patterns. These are for displaying a hit end demonstration effect based on the hit symbols of the first special symbol 192 and the second special symbol 193.

  As the command at the end of the jackpot demonstration, there is a firing position specification command. This is because when the firing position needs to be divided due to the positional relationship of the first start winning opening 62, the second starting winning opening 63, the first large winning opening 91, and the second large winning opening 92, etc. , And to inform the launch position.

The commands at the time of starting winning prize include a notice of winning notice (per notice production), a notice of symbol notice (per notice symbol production), a notice of fluctuation (pattern notice effect), a memory of symbol 1 and a memory of symbol 2. Each command of hit notice, symbol notice, and change notice is a command (pre-read command) related to the above-mentioned pre-reading effect by the pre-information notifying means 157. The hit notice command is for transmitting the random value range of the pass / fail random number, and includes the pass / fail information according to the lottery probability. The symbol advance command is for transmitting a random value range of symbol random numbers, and includes information related to the type of hit. Furthermore, the fluctuation advance notice command is for transmitting a random number range of the fluctuation pattern, and can be used to specify the type of the fluctuation pattern group (no reach, normal reach, super reach, etc.). The command of the symbol 1 memory number and the symbol 2 memory number is for transmitting the number of reserved memories of the first special symbol 192 and the second special symbol 193. Then, in the present embodiment, as a result of the success or failure lottery, information such as presence / absence of pre-reading effect, period, etc. is transmitted to the sub main board 301 by each command of hit notice, symbol notice, and change notice.

  As a command at the time of power failure return, communication inspection 1, communication inspection 2, gaming state A to E for power failure return, number of times of presentation A to Z, effect selection state 0 to 2, pattern 1 character effect, pattern 2 character effect, There is a command of power failure return hit state, power failure return special symbol 1 state, power failure return special symbol 2 state, firing position designation, errors a to d, number of symbol 1 memory, number of symbol 2 memory.

  The commands of the communication inspection 1 and the communication inspection 2 are for confirming whether or not normal communication is performed. The commands of the game states A to E for power failure recovery are for transmitting different commands according to the game state at the time of power failure. The command of the number of effects A to Z indicates the number of times related to the effect according to the above-mentioned limited frequency table, and the command of the effect selection states 0 to 2 indicates the type of effect according to the limited frequency table is there. The symbol 1 character effect and the symbol 2 character effect command are for transmitting commands corresponding to the symbols of the first special symbol 192 and the second special symbol 193.

The power failure return state command is for transmitting a different command depending on whether or not it is hit. The special symbol 1 state at power off return and the special symbol 2 state at power off return are the commands according to the first special symbol 192 and the second special symbol 193 according to the standby, fluctuation, hit etc It is for sending. As described above, the launch position specification command is for designating an appropriate launch position according to the situation. Errors a to d are for transmitting the presence and type of an error. The command of the symbol 1 memory number and the symbol 2 memory number is for transmitting the number of reserved memories of the first special symbol 192 and the second special symbol 193.
<Main control processing of main board>

Next, main control processing in the main substrate 102 of the pachinko gaming machine 10 having the above-described configuration will be described based on FIGS. The main control processing of the pachinko gaming machine 10 described here is performed on the main board 102 and initialization performed by the CPU 501 (main CPU) mounted on the main board 102 along with the powering on of the pachinko gaming machine 10. The control start process and the power-off process (see FIGS. 12 and 13), the game progress interrupt process (see FIG. 14), and the process of setting the power-off confirmation information.
<< Operation of system reset >>

  First, in the pachinko gaming machine 10 of the present embodiment, whether a user reset is generated when a timeout signal from interrupt processing time monitoring means described later or a travel monitoring signal from the travel monitoring means (travel monitoring circuit) is generated. It is possible to set in advance whether to cause a system reset. The above-mentioned traveling monitoring circuit has a function of monitoring whether or not the user program for game control is correctly executed in the designated area.

When it is set that the above-mentioned system reset is to be generated, when the pachinko gaming machine 10 is powered on and power supply is started, the CPU 501 follows the setting contents of the program management area (described later). And perform various settings of the CPU 501, such as setting of internal reset operation and setting of various random number circuits. Specifically, the setting of the internal reset operation according to the setting contents of the reset setting of the program management area, the 16-bit random number initial setting 1 of the program management area, the 16-bit random number initial setting 2 and the 16-bit random number initial setting 3 According to the setting contents of 8-bit random number initial setting 1 and 8-bit random number initial setting 2, various settings for 16-bit random number and 8-bit random number are performed.

  Thereafter, the CPU 501 shifts to a security mode (described later) and executes a security check. Then, when the security check is completed, the CPU 501 shifts to the user mode and starts the execution of the user program as described later.

  Next, when the user program is being executed (specifically, during execution of circulation processing and gaming progress interrupt processing in control start processing described later), a timeout signal from interrupt processing time monitoring means described later, When the traveling monitoring signal from the traveling monitoring means is generated, the system reset is set as the setting of the internal reset operation, so that the system reset is generated based on the generation of the time-out signal and the traveling monitoring signal. Then, as described above, the CPU 501 initializes all internal circuits including the CPU core, and performs various settings in accordance with the setting contents of the program management area. Then, the CPU 501 shifts to the above-described security mode, and executes the security check. Furthermore, the CPU 501 shifts to the user mode and starts the execution of the above-mentioned user program.

  On the other hand, when it is set to generate a user reset when the timeout signal from the interrupt processing time monitoring means described later or the travel monitoring signal from the travel monitoring means is generated, the power supply to the pachinko gaming machine 10 is The processing after the power supply is started after the power supply is started is the same as in the case of generating the above-mentioned system reset. However, if a time-out signal or a traveling monitoring signal is subsequently generated while the above-mentioned user program is being executed, the user reset is set as the setting of the internal reset operation. User reset occurs based on occurrence. When a user reset occurs, in the CPU 501, initialization of a predetermined circuit among the internal circuits of the CPU 501 is performed. Here, the predetermined circuit includes a CPU core, a timer circuit, a free run counter circuit, an arithmetic circuit, a parallel input port, a parallel output port, a serial communication circuit, an interrupt controller, and the like. Then, the process returns to the top address of the user program, and execution of the user program is started again from the top address. Specifically, control start processing (described later) is started again.

  Subsequently, the specific operation of the system reset will be described. In this embodiment, when the CPU 501 receives a system reset, all internal circuits including the CPU core are initialized as described above, and a signal related to a predetermined terminal (here, an output signal related to the PRG terminal) is L (L). If it is low, the security mode is entered. If the PRG terminal is at H (high) level, the program mode (PROM mode) is entered. More specifically, if the output signal from the PRG terminal is a signal fixed at L level, the security mode is entered, and if the signal is fixed at H level, the program mode is entered.

  There are three operation modes of the basic circuit in the CPU 501 of the present embodiment, the above-mentioned security mode, user mode and PROM mode. Among these, the security mode is a program of the built-in ROM after checking the security according to the non-rewritable boot program and checking whether the user program stored in the program data area of the built-in ROM satisfies a predetermined condition. In this mode, environment settings for executing a user program are performed using various settings stored in the management area.

As the predetermined condition to be satisfied by the user program in the security check described above, for example, it can be exemplified whether or not the authentication code calculated based on the user program matches the stored authentication code. Moreover, as an authentication code, what is determined based on a user program and can be stored with a user program can be illustrated. When no abnormality is found in this security check, the mode is automatically switched to the user mode, and the execution of the user program is started from the reset address (here, 0000H). On the other hand, when an abnormality is found in the security check, the operation of the basic circuit is stopped.

The above-mentioned user mode is a mode in which the user program stored in the program data area of the built-in ROM is executed. The aforementioned PROM mode is a mode for writing a user program from the outside of the CPU 501 into the program data area of the built-in ROM.
<< Program Management Area >>

  Although not shown, the address map defined for the operation of the CPU 501 includes a program code / data area and a program management area. Among these, the program code / data area is a user program. This is an area for storing data and data. The program management area is a storage area for storing information necessary for the CPU 501 to perform various settings such as setting of an internal reset operation at the time of system reset. Further, a predetermined area of the address map is a built-in register area allocated to a built-in register, and the built-in register area includes a start register for a predetermined timer which is interrupt processing time monitoring means in the area. It includes a clear register for the timer, an internal information register, and various registers used in the random number circuit.

Furthermore, in the program management area described above, a header, program code end address, program code start address 2, program code end address 2, reset setting, 16-bit random number initial setting 1, 16-bit random number initial setting 2, 16-bit random number initial setting Setting 3, 8-bit random number initial setting 1, 8-bit random number initial setting 2, security time setting, random number clock monitoring setting, etc. are included.
<< Extension Function of Security Mode >>

  As one of the characteristic functions of the CPU 501 in the present embodiment, an extension function of the security mode can be mentioned. The extension function of the security mode is to extend the time of the security mode generated after the above-mentioned system reset by the two methods of "fixed extension" and "random extension". Then, in the security mode extension function, the addition time of the time set by the two methods is the extension time.

That is, in this security mode, there is a reset input as shown in the top row in FIG. 18 and a predetermined security mode time determined in advance as the operation mode shown in the bottom row in the figure elapses After the security check is completed (by counting -276.5 SCLK), a fixed extension time is provided to wait for a predetermined period to elapse. Then, when this fixed extension time is over, as shown in the middle part of the figure, an H level reset output is output, but after this reset output, the operation mode waits for a random period to wait for random operation. Extension time is provided. In the present embodiment, strictly speaking, after the random extension time is over, the security mode ends when a predetermined time (here, 276.5 × the internal system clock (SCLK) of the CPU 501) elapses. Then, it shifts to the above-mentioned user mode. Since the above-mentioned security check is performed during such a security mode time, the time of security check can be secured appropriately. Furthermore, the above-mentioned fixed extension time and random extension time are set in the above-mentioned program management area. Hereinafter, “fixed extension” and “random extension” will be described more specifically.
<<< Fixed extension of security mode >>>

  In the above-mentioned fixed extension, the security mode time defined in advance can be extended by the set time. The extension time is set using the lower 6 bits (bit numbers 0 to 5) in the security time setting of the program management area. Then, the values of the lower 5 bits (bit numbers 0 to 4) are set to four types “00001”, “01000”, “10000”, “11111”, and the least significant bit is set to “0” or “1”. It can be illustrated to represent eight fixed extension times with the system clock frequency (or system clock period) as a variable.

  More specifically, if the value of the lower 5 bits (bit numbers 0 to 4) is "00001", if the value of bit number 5 is "0", the setting content is 2 ^ 22 x internal system clock Assuming that the period is × 1, and the value of the bit number 5 is “1”, it can be exemplified that the setting content is 2 × 24 × internal system clock period × 1. If the value of bit number 5 is “0”, the fixed extension time is about 0.42 sec if the internal system clock frequency is 10.0 MHz, and if the internal system clock frequency is 16.0 MHz, the fixed extension time is The time is about 0.26 sec. In addition, when the value of bit No. 5 is “1”, the fixed extension time is about 1.68 sec when the internal system clock frequency is 10.0 MHz, and the fixed extension time is when the internal system clock frequency is 16.0 MHz. The time is about 1.05 sec.

  Furthermore, if the value of the lower 5 bits (bit numbers 0 to 4) is "01000" and the value of bit number 5 is "0", the setting content is 2 ^ 22 x internal system clock cycle x 8 If the value of bit number 5 is “1”, it can be exemplified that the setting content is 2 ^ 24 × internal system clock cycle × 8. If the value of bit number 5 is “0”, the fixed extension time is about 3.36 seconds if the internal system clock frequency is 10.0 MHz, and if the internal system clock frequency is 16.0 MHz, the fixed extension time is The time is about 2.10 seconds. In addition, when the value of bit number 5 is “1”, the fixed extension time is approximately 13.42 seconds if the internal system clock frequency is 10.0 MHz, and if the internal system clock frequency is 16.0 MHz, the fixed extension time is The time is about 8.39 seconds.

  If the value of the lower 5 bits (bit numbers 0 to 4) is “10000” and the value of bit number 5 is “0”, the setting content is 2 ^ 22 × internal system clock cycle × 16. If the value of bit number 5 is “1”, it can be exemplified that the setting content is 2 ^ 24 × internal system clock cycle × 16. If the value of bit number 5 is “0”, the fixed extension time is approximately 6.71 sec if the internal system clock frequency is 10.0 MHz, and if the internal system clock frequency is 16.0 MHz, the fixed extension time is The time is about 4.19 seconds. In addition, when the value of bit number 5 is “1”, the fixed extension time is approximately 26.84 sec if the internal system clock frequency is 10.0 MHz, and the fixed extension time if the internal system clock frequency is 16.0 MHz. The time is approximately 16.78 seconds.

Furthermore, if the value of lower 5 bits (bit numbers 0 to 4) is "11111" and the value of bit number 5 is "0", the setting content is 2 ^ 22 x internal system clock cycle x 31. If the value of bit number 5 is “1”, it can be exemplified that the setting content is 2 ^ 24 × internal system clock cycle × 31. Then, when the value of bit No. 5 is "0", the fixed extension time is about 13.00 sec if the internal system clock frequency is 10.0 MHz, and the fixed extension time if the internal system clock frequency is 16.0 MHz. The time is approximately 8.13 seconds. In addition, when the value of bit number 5 is “1”, the fixed extension time is approximately 52.01 sec if the internal system clock frequency is 10.0 MHz, and the fixed extension time if the internal system clock frequency is 16.0 MHz. The time is about 32.51 seconds.
<<< random extension of security mode >>>

In the aforementioned random extension, the predefined security mode time can be extended by random time. The extension time is set using 7 to 6 bits of the security time setting of the program management area. Then, 7-bit to 6-bit value "00" is assigned not to be extended, and the value "01", "10", "11" makes the system clock frequency (or system clock cycle) a variable. It can be illustrated to represent the setting content of.

  More specifically, when the value of 7 to 6 bits is "01", the setting content is set to 0 to 2 ^ 5 x 255, and if the internal system clock frequency is 10.0 MHz, random extension is performed. The time is 0 to 0.816 ms, and if the internal system clock frequency is 16.0 MHz, the random extension time is 0 to 0.51 ms. In addition, when the value of 7 to 6 bits is “10”, by setting the setting contents to 0 to 2 ^ 10 × 255, if the internal system clock frequency is 10.0 MHz, the random extension time is 0 to When the internal system clock frequency is 16.0 MHz, the random extension time is 0 to 16.32 ms. Furthermore, when the value of 7 to 6 bits is “11”, the setting content is set to 0 to 2 ^ 15 × 255, and if the internal system clock frequency is 10.0 MHz, the random extension time is 0 to When the internal system clock frequency is 16.0 MHz, the random extension time is 0 to 522.24 ms.

As described above, when setting the random extension time, all settings (7 to 6 bits are set to “00”, “10 to 10” except when the 7 to 6 bits are set to “00” (when not extended). Or “11”), the random extension in the range including “0 ms” will be performed. And, even in the setting in which the random extension is performed, substantially the same setting as in the case where the random extension is not performed can be performed, and the value of 7 to 6 bits is maintained at "00", "10", or "11". However, it has become possible to set the random extension time with a wide range and high freedom.
<< Initial setting of main CPU >>

Next, a random number setting function, which is another characteristic of the CPU 501, will be described. The random number setting function in the CPU 501 of this embodiment includes three setting functions (16-bit random number initial setting 1, 16-bit random number initial setting 2 and 16-bit random number initial setting 3) related to 16-bit random numbers and 8-bit random number. There are two random number setting functions (8 bit random number initialization 1 and 8 bit random number initialization 2). Then, with regard to these various random number setting functions, specific contents are designated by 8-bit setting data.
<<< initial setting of 16-bit random number >>>

  Among these, in the above-described 16-bit random number initial setting 1, setting of the activation method, the update clock, and the random number sequence changing method according to the two channels (ch0, ch1) is performed by the above setting data. First, the start method of the 16-bit random number ch1 is set by the most significant bit (bit number 7) of the setting data. If the value of this bit No. 7 is "0", activation at the maximum value determined by the software is set, and if it is "1", it is automatically activated with the transition to the user mode described above. It becomes. Here, in the transition to the user mode, a security check to be described later is performed immediately after activation of the CPU 501, and then executed. Then, upon transition to the user mode, the above-mentioned control start process (see FIG. 12) is executed. Also, the selection of the activation method according to bit number 7 and the setting of the maximum value when bit number 7 is “0” will be described later.

  Furthermore, the update clock is set by bit number 6. When the value of this bit No. 6 is "0", the internal system clock of the CPU 501 is specified, and when it is "1", it is input to the external clock for updating internal random numbers (here, to a predetermined terminal (RCK terminal) of the CPU 501). A signal (an external clock divided-by-two signal) obtained by dividing (here, dividing by 2) the signal is specified.

  Further, the random number sequence changing method is set by the bit number 5 and the bit number 4. When the values of bit numbers 5 and 4 are "00", no change is specified, and when "01", change by software is specified. Further, when the values of bit numbers 5 and 4 are "10", automatic change from the second round is designated, and in the case of "11", automatic change from the first round is designated.

  Furthermore, the lower 4 bits of bit numbers 3 to 0 are assigned to the setting of the 16-bit random number ch0. Then, the activation method is set by bit number 3, the update clock is set by bit number 2, and the random number sequence changing method is set by bit numbers 1 and 0. Furthermore, the relationship between the value of each bit and the setting content is the same as the above-described 16-bit random number ch1.

  That is, when the value of bit number 3 is "0", the software starts up with the maximum value setting as in the case where bit number 7 is "0". When it is "1", the user mode is entered. It will be started automatically with the migration of Furthermore, when the value of bit number 2 is "0", the internal system clock is specified, and when it is "1", the aforementioned external clock divide-by-two signal is specified. In addition, when the values of bit numbers 1 and 0 are "00" in order, it is specified not to change, and in the case of "01", changing by software is specified. Furthermore, when the values of bit numbers 1 and 0 are "10", automatic change from the second cycle is specified, and for "11", automatic change from the first cycle is specified.

  Next, in the above-mentioned 16-bit random number initial setting 2, as in the case of 16-bit random number initial setting 1, setting of the activation method, update clock, and random number sequence changing method for two channels (ch3 and ch2) according to setting data Is done. Furthermore, the relationship between setting data related to 16-bit random number initial setting 2 and setting contents is the same as that of 16-bit random number initial setting 1.

  Then, when the value of bit number 7 or the value of bit number 3 is "0", the software starts up with the maximum value setting, and when it is "1", it is automatically started along with the transition to the user mode described above. The Rukoto. Furthermore, when the value of bit No. 6 or the value of bit No. 2 is "0", the internal system clock is specified, and when it is "1", the aforementioned external clock divide-by-two signal is specified. Further, when the values of bit numbers 5 and 4 or the values of bit numbers 1 and 0 are "00", no change is specified, and when "01", change by software is specified. Furthermore, when the values of bit numbers 5 and 4 and bit numbers 1 and 0 are "10", it is specified to automatically change from the 2nd cycle, and in the case of "11", it is automatically created from the 1st cycle. It is specified to change.

  Next, in the above-described 16-bit random number initial setting 3, the start value (initial value) of the 16-bit random number is set by the 8-bit setting data. That is, the start value of the 16-bit random number ch3 is set by the most significant bit (bit number 7) of the setting data. When the value of bit number 7 is "0", the start value is set to a fixed value (here, 0001H), and when it is "1", the start value is a value based on the ID number (described later). It is set. In addition, whether or not to change the start value of the 16-bit random number ch3 every system reset is set by the bit number 6 of the setting data. Then, when the value of the bit number 6 is "0", no change is specified, and when it is "1", change is specified.

Here, the above-described ID number is one of the unique information set in the CPU 501. For example, the CPU 501 can store three types of unique information such as a ROM code, a chip individual number, and an ID number as unique information. Storage of these unique information is possible by providing a unique information storage circuit. Among these specific information, the ROM code is, for example, a 4-byte numerical value generated from storage data of a predetermined area in the ROM 502 (see FIG. 4), and can be composed of four numerical values different in generation method is there. The chip individual number is, for example, a 4-byte number given at the time of manufacture of the CPU 501, and can indicate a different numerical value for each chip constituting the microcomputer in the CPU 501. The ID number is, for example, an 8-byte number assigned at the time of manufacture of the CPU 501, and can indicate a different numerical value for each chip constituting the microcomputer.

  Also, while the chip individual number can be read from the user program, the ID number can be set so that it can not be read from the user program. The unique information storage circuit may be included in the ROM 54 by using a predetermined area of the ROM 502, for example. Alternatively, the unique information storage circuit may be included in the CPU 501, for example, by using a built-in register of the CPU 501.

  Furthermore, bit numbers 5 and 4 of the setting data described above are used to set the start value of 16-bit random number ch2, and bit numbers 3 and 2 are used to set the start value of 16-bit random number ch1. The bit numbers 1 and 0 are used to set the start value of the 16-bit random number ch0. Furthermore, bit number 5, bit number 3 and bit number 1 are used to set start values for ch2, ch1 and ch0, respectively. Then, when the value of each bit number is “0”, the start value is set to a fixed value (here, 0001H) as in the case of bit number 7 described above, and when it is “1”, the start value is Is set to a value based on the above-mentioned ID number.

Subsequently, bit number 4, bit number 2 and bit number 0 are used to set whether or not to change the start value at each system reset in each of ch2, ch1 and ch0. When the value of each bit number is "0", as in the case of bit number 7 described above, no change is specified, and when "1", change is specified. Here, with regard to the above-mentioned bit number 6, bit number 4, bit number 2 and bit number 0, which is an even number, when “1” is selected to change the start value at each system reset, the start value is “0” It will not be a fixed value as specified. As a result, when the start value is changed every system reset, it is prevented that the initial value is unexpectedly fixed to some sort of value.
<<< initial setting of 8-bit random number >>>

  Next, initialization of 8-bit random numbers will be described. First, in 8-bit random number initial setting 1, as in the case of 16-bit random number initial setting 1 described above, setting data is used to set the activation method, update clock, and random number sequence changing method related to two channels (ch0, ch1). To be done. First, the starting method of the 8-bit random number ch1 is set by the most significant bit (bit number 7) of the setting data. If the value of this bit No. 7 is "0", activation at the maximum value determined by the software is set, and if it is "1", it is automatically activated with the transition to the user mode described above. It becomes. Here, in the transition to the user mode, a security check to be described later is performed immediately after activation of the CPU 501, and then executed. Then, upon transition to the user mode, the above-mentioned control start process (see FIG. 12) is executed.

  Furthermore, the update clock is set by bit number 6. When the value of bit number 6 is "0", the internal system clock is designated, and when it is "1", the above-mentioned external clock divide-by-two signal is designated.

Further, the random number sequence changing method is set by the bit number 5 and the bit number 4. When the values of bit numbers 5 and 4 are "00", no change is specified, and when "01", change by software is specified. Further, when the values of bit numbers 5 and 4 are "10", automatic change from the second round is designated, and in the case of "11", automatic change from the first round is designated.

  Furthermore, the lower 4 bits of bit numbers 3 to 0 are assigned to the setting of the 8-bit random number ch0. Then, the activation method is set by bit number 3, the update clock is set by bit number 2, and the random number sequence changing method is set by bit numbers 1 and 0. Furthermore, the relationship between the value of each bit and the setting content is the same as the above-described 8-bit random number ch1.

  That is, when the value of bit number 3 is "0", the software starts up with the maximum value setting as in the case where bit number 7 is "0". When it is "1", the user mode is entered. It will be started automatically with the migration of Furthermore, when the value of bit number 2 is "0", the internal system clock is specified, and when it is "1", the aforementioned external clock divide-by-two signal is specified. In addition, when the values of bit numbers 1 and 0 are "00" in order, it is specified not to change, and in the case of "01", changing by software is specified. Furthermore, when the value of bit numbers 1 and 0 is "10", it is specified to automatically change from the second round, and in the case of "11", it is specified to automatically change from the first round.

  Next, in the above-described 8-bit random number initial setting 2, as in the case of 8-bit random number initial setting 1, setting of the activation method, update clock, and random number sequence changing method according to setting data Is done. Furthermore, the relationship between setting data relating to 8-bit random number initial setting 2 and setting contents is similar to that of 8-bit random number initial setting 1.

Then, when the value of bit No. 7 or the value of bit No. 3 is "0", the software starts up with the maximum value setting, and when "1", it automatically starts up with the transition to the user mode described above. It will be done. Furthermore, when the value of bit No. 6 or the value of bit No. 2 is "0", the internal system clock is specified, and when it is "1", the aforementioned external clock divide-by-two signal is specified. Further, when the values of bit numbers 5 and 4 or the values of bit numbers 1 and 0 are "00", no change is specified, and when "01", change by software is specified. Furthermore, when the values of bit numbers 5 and 4 and bit numbers 1 and 0 are "10", it is specified to automatically change from the 2nd cycle, and in the case of "11", it is automatically created from the 1st cycle. It is specified to change.
<<< Overview of 16-bit Random Numbers >>>

  As 16-bit random numbers, there are 16-bit pseudo random numbers of 4 channels (RL0 to RL3), which can be operated independently. And this 16-bit random number generates a random number value from 0 to 65535. The outline of the 16-bit random number in this embodiment will be described below.

  First, selection of an update clock related to a 16-bit random number will be described. In the 16-bit random number in the present embodiment, it is possible to select a clock (count clock) for updating each channel of the aforementioned random number circuit. The count clock includes an internal system clock and an external clock (input clock to the RCK terminal) divided by two. Predetermined settings can be performed individually for any count clock, and each setting is made by using predetermined bits of setting data in the above-described 16-bit random number initial setting 1 or 16-bit random number initial setting 2 (here Can be performed by the bit number 2).

Among the internal system clock described above and the external clock divided by two, the internal system clock is automatically updated. On the other hand, with regard to the external clock divided by two, the update is performed using a signal obtained by dividing the external clock signal input from the RCK terminal for internal random number update into two.

  The frequency of the signal that can be input to the RCK terminal is limited to less than or equal to the frequency of the external clock signal input to the EX terminal in order to operate the CPU 501. That is, the frequency of the signal that can be input to the RCK terminal must be less than or equal to the frequency of the clock signal input to the EX terminal. In addition, the CPU 501 is provided with a clock monitoring function, and can monitor the input clock. When monitoring this input clock, the above-mentioned random number clock monitoring setting of the program management area is used.

  When an abnormality is detected in monitoring the input clock, the RCER bit of the internal information register is set to a value of "1". The RCER bit is cleared to "0" after reading the internal information register, but if the abnormal state continues, the RCER bit is again set to "1".

  Subsequently, a method of starting 16-bit random numbers will be described. The method of activating the 16-bit random number of each channel described above can be selected from the method of activating with the maximum value setting and the method of automatically activating at the user mode transition as described later. Further, any of the activation methods can be selected in each of the 16-bit random number initial setting 1 and the 16-bit random number initial setting 2 of the program management area described above. Furthermore, these activation methods can be set individually for each of the aforementioned channels.

  In the method of starting with the above-mentioned maximum value setting, when the maximum value is set in the maximum value setting register corresponding to each channel, a 16-bit random number is started. More specifically, for any channel, a 16-bit random number is activated after setting the upper byte of the maximum value setting register. Therefore, setting the lower byte of the maximum value setting register does not activate the 16-bit random number.

  In the above-described method of automatically activating at the user mode transition, a 16-bit random number is automatically activated at the maximum value of FFFFH at the user mode transition. And when this starting method is selected, it is not possible to set the maximum value.

  Subsequently, setting of the above-described maximum value will be described. In the present embodiment, the maximum value of the random numbers generated by the 16-bit random numbers of each channel can be set to any value within the range of 256 to 65535. Here, 256 which is the minimum value among the maximum values 256 to 65535 which can be set is a value larger than 255 which is the maximum value of the numerical value (0 to 255) which can be represented by 1 byte. ing. To set the maximum value, select "Start with maximum value setting" and select 16-bit random number for the channel to be used to start the program management area with 16-bit random number initial setting 1 and 16-bit random number initial setting 2 Set the maximum value in the maximum value setting register. Then, the above-mentioned random number circuit generates a random number value within the range of the random number set in the maximum value setting register in the 16-bit random number. Although the maximum value setting register can read / write, writing can be performed only once after system reset. The random number is activated when the upper byte of the upper byte and the lower byte in the maximum value setting register is set. The 16-bit random number is not activated only by setting the lower byte of the maximum value setting register.

All values (from 0 to the set maximum value) can be obtained with the set maximum value as the upper limit. For example, when the maximum value is set to 300, the random number values are sequentially updated so as to become any value that does not match (do not overlap) among 301 values from 0 to 300, and the last value (301 This value is the value of the eye, in other words, the update value of the 300th time.) Is a value which does not match (do not overlap) among the 301 values from 0 to 300. The setting of the maximum value can be set individually for each channel. When the random number value is fetched before setting the maximum value, it is necessary to read the fetched random number value. That is, before setting the maximum value, random numbers are not activated, and the random value acquired before setting the maximum value can not be secured, so delete it from the register by reading, and I try not to use it. In other words, in this embodiment, random numbers may be acquired before setting the maximum value, but when acquired at the timing before setting, the acquired random value is read from the register by reading. It has deleted. This can prevent the use of the random number remaining in the register. And management with respect to the taken-in value before setting of the maximum value can be thorough, and the occurrence of an unexpected situation can be prevented.

  Subsequently, a cycle in which the random number sequence set as described above makes one round will be described. The calculation formula is different depending on the set maximum value in the cycle in which the above-mentioned 16-bit random number makes a round. That is, when the maximum value is 2 ^ m-1 (m = 9 to 16), the period of one cycle of the 16-bit random number = (1 / count clock frequency) × (maximum value + 1) One round cycle is calculated. For example, when the maximum value setting is 65535 (= 2 ^ 16-1), if the update frequency (the frequency of the count clock) is 10.0 MHz, one round cycle of the random number sequence is 6.5536 ms, and the update frequency is 16.2. If it is 0 MHz, it will be 4.096 ms.

  Similarly, when the maximum value is 16383 (= 2 14-1), one cycle of the random number sequence is 1.6384 ms if the update frequency is 10.0 MHz, and 1 if the update frequency is 16.0 MHz. It will be .024 ms. When the maximum value is 4095 (= 2 ^ 12-1), if the update frequency is 10.0 MHz, one round cycle of the random number sequence is 0.4096 ms, and if the update frequency is 16.0 MHz, 0.40 ms. It will be 256 ms. Furthermore, when the maximum value is 1023 (= 2 ^ 10-1), if the update frequency is 10.0 MHz, one round cycle of the random number sequence is 0.1024 ms, and if the update frequency is 16.0 MHz, 0.1. It will be 064 ms. When the maximum value is 511 (= 2 ^ 9-1), if the update frequency is 10.0 MHz, one round cycle of the random number sequence is 0.0512 ms, and if the update frequency is 16.0 MHz, 0.1. It becomes 032 ms.

  On the other hand, when the maximum value is other than 2 ^ m-1 (m = 9 to 16), a random number sequence is calculated according to the following equation: cycle of 16-bit random number rounding = (32 / count clock frequency) x (maximum value + 1) One round cycle is calculated. For example, when the maximum value is 65534 (= 2 ^ 16-2), if the update frequency (the frequency of the count clock) is 10.0 MHz, one round cycle of the random number sequence is 209.7120 ms, and the update frequency is 16.0 MHz If it is, it will be 131.070 ms.

  Similarly, if the maximum value is 16382 (= 2 14-2), one cycle of the random number sequence is 52.4256 ms if the update frequency is 10.0 MHz, and 32 if the update frequency is 16.0 MHz. It will be .766 ms. When the maximum value is 4094 (= 2 ^ 12-2), if the update frequency is 10.0 MHz, one round cycle of the random number sequence is 13.104 ms, and if the update frequency is 16.0 MHz, 8. It will be 190 ms. Furthermore, when the maximum value is 1022 (= 2 ^ 10-2), if the update frequency is 10.0 MHz, one round cycle of the random number sequence is 3.2736 ms, and if the update frequency is 16.0 MHz, It will be 046 ms. When the maximum value is 510 (= 2 ^ 9-2), if the update frequency is 10.0 MHz, one round cycle of the random number sequence is 1.6352 ms, and if the update frequency is 16.0 MHz, It becomes 022 ms. Furthermore, if the maximum value is 256 (= 2 ^ 8), one cycle of the random number sequence is 0.8224 ms if the update frequency is 10.0 MHz, and 0.514 ms if the update frequency is 16.0 MHz. Become.

  Subsequently, selection of the start value in the above-described random number sequence will be described. In this embodiment, the start value from the first round of the above 16-bit random number is set individually from “0001H”, a value based on the ID number, or a value that fluctuates at each system reset. It is possible. The start value can be set individually for each channel by the 16-bit random number initialization 3 of the program management area.

  When the above-mentioned "0001H" is used as the start value, the start value at the time of updating the above-mentioned random number circuit is "0001H". When a value based on the above ID number is used as a start value, the start value when updating the random number circuit is a value based on the ID number. The start value at this time is different for each chip of the microcomputer built in the CPU 501. Furthermore, in the case where a value that fluctuates at each system reset described above is used as the start value, the start value at the time of updating the random number circuit is a value that fluctuates at each system reset. At this time, the start value of each individual chip built in the CPU 501 also becomes a different value each time the system reset is input.

  Subsequently, selection of a random number sequence changing method will be described. The random number sequence in which the above 16-bit random numbers are generated is normally updated with a fixed rule in the range of 0 to 65353 (maximum value when the maximum value is set), but in this embodiment, You can change the order. However, it is not possible to choose the sort order arbitrarily. The random number sequence can be selected from the following four methods by specifying in the 16-bit random number initial setting 1 and the 16-bit random number initial setting 2 in the program management area. And about the change method of a random number sequence, it is possible to set separately.

  In the present embodiment, the changeable method of the random number sequence that can be set does not change the random number sequence, is changed by software, automatically changes the random number sequence from the second cycle, automatically starts the random number sequence from the first cycle. There are four modes of changing. Among these, in the method in which the random number sequence is not changed, the random number sequence is not changed, and the random value is updated according to a fixed rule which is not changed.

  In the method of changing by the above-mentioned software, the random number sequence is changed by the user program. In this way, it is possible to change each channel individually. The random number sequence change register is used to change the random number sequence, and the random number sequence change function is made effective by writing “1” to the corresponding bit among the 8 bits of the random number sequence change register. Become.

  The random number sequence is not changed for one round of the operation of the aforementioned random number circuit (in the middle of the random number sequence), and the random number sequence from the beginning of the next cycle is changed. When the random number sequence change request, which is a process for designating the change of the random number sequence, is accepted, the corresponding bit of the random number sequence change register is cleared to “0”. The change of the random number sequence can be performed any number of times. However, if there is no request for the next change after the change, the previous change pattern is continued.

  For example, if there is a request for changing the random number sequence after the start of the nth random number sequence, the random number sequence for the next n + 1th cycle has n cycles after the generation of the last random value of the nth random number sequence. It becomes a new random number sequence for which there is a change request. Thereafter, if there is no request for changing the random number sequence, the random number sequence in the (n + 2) th period and the n + 3th period is the same random number sequence as in the (n + 1) th period. Then, for example, if there is a request for changing the random number sequence in the middle of the n + 3 period, the random number sequence after the n + 4 period becomes a new random number sequence for which the change request has been made during the n + 3 period.

In the above-described method of automatically changing the random number sequence from the second cycle, the random number sequence generated from the second cycle is automatically changed. Then, every time the random number sequence makes a round, the random number sequence is automatically changed. Further, in the above method of automatically changing the random number sequence from the first round, the random number sequence generated from the first round is automatically changed. Then, every time the random number sequence makes a round, the random number sequence is automatically changed.

  Subsequently, a random number acquisition method will be described. In the present embodiment, 16-bit random numbers can capture random values in three ways for each channel. As these three methods, there can be mentioned a first acquisition method by software, a second acquisition method, and an acquisition method by external terminal input. In the following, the first loading method by software is "loading 1 by software", the second loading method by software is "loading 2 by software", and the loading method by external terminal input Is referred to as "capture by external terminal input".

  Among the above three acquisition methods, acquisition 1 by software is the case where the external update clock is selected, and in acquisition 1 by software, a random value is acquired by the user program. One register for storing random numbers is prepared for each channel. Then, by writing “1” to the bit corresponding to the register to be fetched of the random number soft latch register, the random number value is fetched to the soft latch random number value register of the corresponding channel. When the random number value is taken, the corresponding bit of the random number soft latch flag register is set to "1". However, when the random number soft latch register is written without reading the random number value, the random number value can not be fetched. As a result, the random number soft latch register can be properly used, and the process relating to taking in the random number value can be optimized.

  Among the above three acquisition methods, software acquisition 2 is the case where the above-mentioned internal system clock is selected, and in software acquisition 2, the soft latch random number register of the corresponding channel is selected. While reading from the lower byte, the value of the upper byte is fetched. Then, in this case, the corresponding bit of the random number soft latch flag register is not set and does not become "1". This makes it possible to optimize the process for fetching the random value when the internal system clock is selected. Note that this acquisition 2 by software is effective only when the internal system clock is selected as the update clock.

  Of the above three capture methods, in the capture by the external terminal input, the registers for storing random number values are two for channel 0 (two sets of upper byte and lower byte), channels 1 to 3 For each one (3 sets in total) are prepared. The setting of which external terminal is used to capture information in each register is performed using a hard latch selection register provided for each channel.

  This hard latch selection register is set to two when channel 0 is used, and is set to one when other channels are set.

  When an active signal longer than the period set in the input port control register is input in advance, the random number is taken into the hard latch selection register provided for each channel.

  Eight input port control registers are provided, and two hard latch selection registers are set when channel 0 is used and one when channels 1 to 3 are used.

  When the random number value is fetched, the corresponding bit of the 16-bit random number hard latch flag register provided for each corresponding channel is set to "1". The 16-bit random number hard latch flag register is set to two even when any channel is used.

  Subsequently, detection of an abnormality related to a 16-bit random number will be described. In this embodiment, it is possible to detect an operation abnormality of a 16-bit random number in two states of “external clock frequency abnormality” and “update abnormality”. Then, the detected state can be confirmed by the internal information register.

  With regard to the above-mentioned external clock frequency abnormality, when the external clock is selected as a random number update clock, frequency monitoring is performed. When monitoring is performed, the input clock is set by the above-described random number clock monitoring setting of the program management area. When the decrease of the set frequency is detected, the RCER bit of the internal information register is set to "1". The RCER bit is cleared to "0" after reading the internal information register, but if the abnormal state continues, the RCER bit is set again to "1".

For the above-mentioned update abnormality, the update state of the 16-bit random number is monitored, and when an abnormality is detected, the RLER bit of the corresponding internal information register is set to "1". The RLER bit is cleared to "0" after reading the internal information register, but if the abnormal condition continues, the RLER bit is set again to "1".
<<< Overview of 8-bit Random Numbers >>>

  In the present embodiment, in addition to the above-described 16-bit random number, it is possible to generate an 8-bit random number as described above. As this 8-bit random number, there are 4-channel (RS0 to RS3) 8-bit pseudo random numbers, which can be operated independently. Then, this 8-bit random number generates random numbers from 0 to 255. The outline of 8-bit random numbers in the present embodiment will be described below.

  First, selection of an update clock related to an 8-bit random number will be described. In the 8-bit random number in the present embodiment, it is possible to select a clock (count clock) for updating each channel of the aforementioned random number circuit. The count clock includes an internal system clock and an external clock (input clock to the RCK terminal) divided by two. Predetermined settings can be performed individually for any count clock, and each setting is made by using predetermined bits of setting data in the above-described 8-bit random number initial setting 1 or 8-bit random number initial setting 2 (here Can be performed by the bit number 2).

  Among the internal system clock described above and the external clock divided by two, the internal system clock is automatically updated. On the other hand, with regard to the external clock divided by two, updating is performed using a signal obtained by dividing the clock signal input from the RCK terminal for internal random number updating into two.

  The frequency of the signal that can be input to the RCK terminal is limited to less than or equal to the frequency of the external clock signal input to the EX terminal in order to operate the CPU 501. That is, the frequency of the signal that can be input to the RCK terminal must be less than or equal to the frequency of the clock signal input to the EX terminal. In addition, the CPU 501 is provided with a clock monitoring function, and can monitor the input clock. When monitoring this input clock, the above-mentioned random number clock monitoring setting of the program management area is used.

  When an abnormality is detected in monitoring the input clock, the RCER bit of the internal information register is set to a value of "1". The RCER bit is cleared to "0" after reading the internal information register, but if the abnormal state continues, the RCER bit is again set to "1".

  Subsequently, a method of activating 8-bit random numbers will be described. The method of activating the 8-bit random number of each channel described above can be selected from the method of activating with the maximum value setting and the method of automatically activating at the user mode transition as described later. Further, any of the activation methods can be selected in each of the 8-bit random number initial setting 1 and the 8-bit random number initial setting 2 of the program management area described above. Furthermore, these activation methods can be set individually for each of the aforementioned channels.

  In the method of starting with the above-mentioned maximum value setting, when the maximum value is set in the maximum value setting register corresponding to each channel, an 8-bit random number is started. Here, unlike the case of a 16-bit random number (for example, “00FFH”), for example, the setting is started only with “FFH”. That is, the process of activating the random number after setting the upper byte of the maximum value setting register as in the case of the 16-bit random number is not performed.

  In the above-described method of automatically activating in the user mode transition, an 8-bit random number is automatically activated with the maximum value as FFH in the user mode transition. And when this starting method is selected, it is not possible to set the maximum value.

  Subsequently, setting of the above-described maximum value will be described. In the present embodiment, an arbitrary value can be set in the range of 16 to 255 as the maximum value of the random numbers generated by the 8-bit random numbers of each channel. To set the maximum value, select 8-bit random number initial setting 1 and 8-bit random number initial setting 2 for program management area, and select "Start with maximum value setting" to select 8-bit random number for the channel to be used. Set the maximum value in the maximum value setting register. Here, unlike the case of the 16-bit random number, the process of setting the upper byte to activate the random number is not performed. That is, there is no need to combine the upper byte with the lower byte, for example, "00FFH", and the random number is activated with only the lower "FFH" setting.

  All values (from 0 to the set maximum value) can be obtained with the set maximum value as the upper limit. For example, assuming that the maximum value is 100, the random value is sequentially updated so as to be one of the 101 values from 0 to 100 that do not match (do not overlap), and the last value (101 This is the value of the eye, in other words, the 100th updated value.) Is further one of the 101 values from 0 to 100 that do not match (do not overlap). The setting of the maximum value can be set individually for each channel. When the random number value is fetched before setting the maximum value, it is necessary to read the fetched random number value. That is, before setting the maximum value, random numbers are not activated, and the random value acquired before setting the maximum value can not be secured, so delete it from the register by reading, and I try not to use it. In other words, in this embodiment, random numbers may be acquired before setting the maximum value, but when acquired at the timing before setting, the acquired random value is read from the register by reading. It has deleted. This can prevent the use of the random number remaining in the register. And management with respect to the taken-in value before setting of the maximum value can be thorough, and the occurrence of an unexpected situation can be prevented. This point is also similar to the case of the 16-bit random number.

  Subsequently, a cycle in which the random number sequence set as described above makes one round will be described. The calculation formula is different depending on the set maximum value in the cycle in which the above-described 8-bit random number makes a round. That is, when the maximum value is 2 ^ m-1 (m = 5 to 8), the cycle of 8-bit random number rounding = (1 / count clock frequency) x (maximum value + 1) One round cycle is calculated. For example, when the maximum value setting is 255 (= 2 ^ 8-1), if the update frequency (the frequency of the count clock) is 10.0 MHz, one round cycle of the random number sequence is 0.0256 ms, and the update frequency is 16.2. If it is 0 MHz, it will be 0.016 ms.

  Similarly, if the maximum value setting is 127 (= 2 ^ 7-1), one cycle of the random number sequence is 0.0128 ms if the update frequency is 10.0 MHz, and if the update frequency is 16.0 MHz, It will be 0.008 ms. When the maximum value setting is 63 (= 2 ^ 6-1), one cycle of the random number sequence is 0.0064 ms if the update frequency is 10.0 MHz, and 0 if the update frequency is 16.0 MHz. It will be .004 ms. Furthermore, if the maximum value setting is 31 (= 2 ^ 5-1), one cycle of the random number sequence is 0.0032 ms if the update frequency is 10.0 MHz, and 0 if the update frequency is 16.0 MHz. It will be .002 ms.

  On the other hand, when the maximum value is other than 2 ^ m-1 (m = 5 to 8), a random number sequence is calculated according to the following equation: cycle of 8-bit random number rounding = (16 / count clock frequency) x (maximum value + 1) One round cycle is calculated. For example, when the maximum value setting is 254 (= 2 8-2), if the update frequency (the frequency of the count clock) is 10.0 MHz, one round cycle of the random number sequence is 0.4080 ms, and the update frequency is 16.2. If it is 0 MHz, it will be 0.255 ms.

  Similarly, when the maximum value setting is 126 (= 2 ^ 7-2), if the update frequency is 10.0 MHz, one round cycle of the random number sequence is 0.2032 ms, and if the update frequency is 16.0 MHz, It will be 0.127 ms. When the maximum value setting is 62 (= 2 ^ 6-2), one cycle of the random number sequence is 0.1008 ms if the update frequency is 10.0 MHz, and 0 if the update frequency is 16.0 MHz. It will be .063 ms. Furthermore, when the maximum value setting is 30 (= 2 ^ 5-2), one cycle of the random number sequence is 0.0496 ms if the update frequency is 10.0 MHz, and 0 if the update frequency is 16.0 MHz. It will be .031 ms. When the maximum value setting is 16 (= 2 ^ 4), if the update frequency is 10.0 MHz, one round cycle of the random number sequence is 0.0272 ms, and if the update frequency is 16.0 MHz, 0.017 ms. It becomes.

  Subsequently, selection of a random number sequence changing method will be described. The random number sequence in which the above-described 8-bit random number is generated is normally updated with a certain rule in the range of 0 to 255 (maximum value when the maximum value is set), but in this embodiment You can change the order. However, it is not possible to choose the sort order arbitrarily. The random number sequence can be selected from the following four methods by specifying 8 bit random number initial setting 1 and 8 bit random number initial setting 2 in the program management area. And about the change method of a random number sequence, it is possible to set separately.

  In the present embodiment, the changeable method of the random number sequence that can be set does not change the random number sequence, is changed by software, automatically changes the random number sequence from the second cycle, automatically starts the random number sequence from the first cycle. There are four modes of changing. Among these, in the method in which the random number sequence is not changed, the random number sequence is not changed, and the random value is updated according to a fixed rule which is not changed.

  In the method of changing by the above-mentioned software, the random number sequence is changed by the user program. In this way, it is possible to change each channel individually. The random number sequence change register is used to change the random number sequence, and the random number sequence change function is made effective by writing “1” to the corresponding bit among the 8 bits of the random number sequence change register. Become.

  The random number sequence is not changed for one round of the operation of the aforementioned random number circuit (in the middle of the random number sequence), and the random number sequence from the beginning of the next cycle is changed. When the random number sequence change request, which is a process for designating the change of the random number sequence, is accepted, the corresponding bit of the random number sequence change register is cleared to “0”. The change of the random number sequence can be performed any number of times. However, if there is no request for the next change after the change, the previous change pattern is continued.

  For example, if there is a request for changing the random number sequence after the start of the nth random number sequence, the random number sequence for the next n + 1th cycle has n cycles after the generation of the last random value of the nth random number sequence. It becomes a new random number sequence for which there is a change request. Thereafter, if there is no request for changing the random number sequence, the random number sequence in the (n + 2) th period and the n + 3th period is the same random number sequence as in the (n + 1) th period. Then, for example, if there is a request for changing the random number sequence in the middle of the n + 3 period, the random number sequence after the n + 4 period becomes a new random number sequence for which the change request has been made during the n + 3 period.

  In the above-described method of automatically changing the random number sequence from the second cycle, the random number sequence generated from the second cycle is automatically changed. Then, every time the random number sequence makes a round, the random number sequence is automatically changed. Further, in the above method of automatically changing the random number sequence from the first round, the random number sequence generated from the first round is automatically changed. Then, every time the random number sequence makes a round, the random number sequence is automatically changed.

  Subsequently, a random number acquisition method will be described. In the present embodiment, 8-bit random numbers can capture random values in three ways for each channel. As these three methods, there can be mentioned a first acquisition method by software, a second acquisition method, and an acquisition method by external terminal input. In the following, the first loading method by software is "loading 1 by software", the second loading method by software is "loading 2 by software", and the loading method by external terminal input Is referred to as "capture by external terminal input".

  Among the above three acquisition methods, acquisition 1 by software is the case where the external update clock is selected, and in acquisition 1 by software, a random value is acquired by the user program. One register for storing random numbers is prepared for each channel. Then, by writing “1” to the bit corresponding to the register to be fetched of the random number soft latch register, the random number value is fetched to the soft latch random number value register of the corresponding channel. When the random number value is taken, the corresponding bit of the random number soft latch flag register is set to "1". However, when the random number soft latch register is written without reading the random number value, the random number value can not be fetched. As a result, the random number soft latch register can be properly used, and the process relating to taking in the random number value can be optimized.

  Among the three acquisition methods described above, acquisition 2 by software is the case where the above-mentioned internal system clock is selected, and in acquisition 2 by software, the soft latch random number register of the corresponding channel is selected. Unlike in the case of 16-bit random numbers, they can be read directly. Here, processing such as reading of the upper byte at the same time as reading in the case of a 16-bit random number is not performed. Then, in this case, the corresponding bit of the random number soft latch flag register is not set and does not become "1". This software acquisition 2 is effective only when the internal system clock is selected as the update clock.

  Among the above three acquisition methods, in acquisition by the external terminal input, one register for storing a random number value is prepared for each channel. Setting of which external terminal is used to capture information in each register is performed using an 8-bit random number hard latch selection register. The 8-bit random number hard latch selection register is set to two when channel 0 is used, and is set to one when another channel is set.

  When an active signal longer than the period set in the input port control register is input in advance, random number values are taken into the 8-bit random number hard latch selection register provided for each channel.

  When the random number value is taken, the corresponding bit of the 8-bit random number hard latch flag register is set to "1".

In the present embodiment, as described above, it is possible to generate a counter value that is an 8-bit random number, but 16-bit random numbers are used for various lottery control in the pachinko gaming machine 10, and 8-bit random numbers are used. It has not been. That is, although the CPU 501 has a lottery function using 8-bit random numbers, it does not use 8-bit random numbers but uses only 16-bit random numbers. Furthermore, as described above, the 8-bit random number is 16 bits regarding the selection of the update clock, the start method, the setting of the maximum value, the cycle of one round of the random number sequence, the selection of the random number sequence changing method, and the random number value fetching method. It has the same function except for the difference between the random number and the number of bits.
<< Control start processing >>

Next, the control start process described above will be described. The control start process shown in FIGS. 12 and 13 is a control process which is started after the security check using the production code of the CPU 501 is performed by turning on the power of the pachinko gaming machine 10, and in this control start process, After the settings (S1 to S4) necessary for turning on the power are performed, the operation state (S5) of the initialization switch 544, the value of the power failure information flag in the power failure status confirmation process (S6 to S8), and the RWM area In response to the addition result (checksum data), processing at the time of power failure recovery (S9 to S17), processing at the time of initialization of RWM (S24 to S26), processing of time setting for gaming progress interrupt (S27), The circulation process (S33 (S28 to S32)), the process at the time of setting the power failure confirmation information (S301 to S307), and the like are executed.
<<< Required setting at power on >>

  As settings required at power on, setting of the stack pointer (S1), setting of the interrupt mode (S2), and setting of access permission to the RWM 503 (S3) are performed, followed by initialization of the built-in registers ( S4).

Among them, in the process of setting the stack pointer (S1), in order to secure the stack area, the stack pointer is set as an initial value of the stack pointer, and the stack pointer is set to a specific address. Next, in the interrupt mode setting (S2), a mode of a predetermined number is set, and in the RWM access permission setting (S3), access permission data is set in a predetermined register to permit access to the RWM. Do. As a result, the maskable interrupt is set to a specific interrupt mode, and the CPU built-in RWM is allowed access. Further, in the setting of the built-in register (S4), corresponding setting values such as a game progress interrupt use setting value and a clock source selection value are set using the built-in register initial setting table. The interrupt in the main board 102 will be described later.
<<< Confirmation of operation state of RWM clear switch >>>

  In the process of confirming the operation state of the initialization switch 544 (S5), the state of the output signal of the initialization switch 544 input through the input port is confirmed. It is determined whether the RWM clear switch has been pressed (turned on) or not (S5: NO), the value of the power-off information flag in the power-off situation determination process (S6 to S8) described later The process proceeds to the determination process (S6) of On the other hand, if the initialization switch 544 is pressed (S5: YES), the processing at the time of RWM initialization (S24 to S26) is performed.

  Here, it is determined that the initialization switch 544 is operated when the RWM clear switch bit of the corresponding input port is determined to be on five times in a row. In addition, the determination of the information as to whether or not the initialization switch 544 is pressed is performed only once at this time, and the determination is not performed thereafter.

In the state confirmation processing (S5) of the initialization switch 544, the RWM start address (address) is set as the reference value of the relative address, and the number of input confirmations (here five) is set, the corresponding input port Control processing such as input of value, inspection of RWM clear switch bit among values of the input port, confirmation of inspection result, and input confirmation repeated over the set number of input confirmation is executed.
<<< Status confirmation process at power off >>>

  In the power-off state confirmation process (S6 to S8) when the initialization switch 544 is not operated, whether the value of the power-off information flag is read and the read value matches predetermined power-off normal data It is determined whether or not it is (S6). The power-off normal data is stored when the process of power-off is normally performed when the power-off (power-off) when the power is turned off occurs. When the value of the power-off information flag does not match the power-off normal data and the determination result in S6 is NO, the control process will be described later as in the case where the initialization switch 544 is operated. The process proceeds to the process at the time of RWM initialization (S24 and later).

  If the value of the power-off information flag matches the power-off normal data (S6: YES), checksum data is calculated (S7). In the process of calculating the checksum data, although not shown, an initial value is set as checksum data, and after a predetermined operation is performed on the checksum data, the checksum data after the operation is 0. A determination is made as to whether it is different from

If the checksum data is not 0 (S8: NO), that is, if the restart preparation processing execution condition is not satisfied, the RWM head high order is set to the high order of the reference value of the relative address. The process proceeds to the process at the time of initialization (from S24). On the other hand, when the checksum data is 0 (S8: YES), the process proceeds to processing (S9 to S17) at the time of power failure recovery described later.
<<< Processing when power is restored >>

  In the process upon power failure recovery, the value of the stack pointer buffer is set in the stack pointer, and the stack pointer is returned to the value saved at the time of power failure (S9). Furthermore, in order to inspect the communication line between the main board 102 and the sub board 104, a request to transmit the effect control command to the sub board 104 is requested (S10, S11), the decoration lamp (game effect lamp) and the sound effect (sound In order to return the effect of the effect) to the state before the occurrence of the power failure, a request for transmitting the effect control command to the sub substrate 104 is made (S10, S11). Further, in order to request a command corresponding to the number of operation pending balls of the special symbol display device (70, 71), the symbol storage number command request process is executed (S12).

  Further, the solenoid is returned to the output state before the occurrence of the power failure (S13). Specifically, in order to restore the open / closed state of the second start winning opening 63, the first large winning opening 91, and the second large winning opening 92 to the state before the power is turned off, the ordinary electric role solenoid 76, the large winning The solenoid actuation bits for the port solenoids 80, 81 are examined in sequence. If the solenoid operation bit of the normal motor combination solenoid control is on, it is determined that the second start winning opening 63 is open before the power is turned off, and the solenoid operation setting value is set to the ordinary electric to open the second start winning opening 63. Store in the bonus solenoid control. Subsequently, when the solenoid operation bit of the first large winning solenoid control is on, it is determined that the first large winning opening 91 is open before the power is turned off, and the solenoid setting value is set to open the first large winning opening 91. Is normally stored in the motorized electric product solenoid control. Also, when the solenoid operation bit of the second big winning solenoid control is on, it is determined that the second big winning opening 92 is open before the power is turned off, and in order to open the first big winning opening 91 Usually stored in the motorized electric product solenoid control.

Thereafter, the process proceeds to the process of setting the special symbol (S14), and the information of the operating state of the probability variation function of the special symbol display device (70, 71) is set. In this process, the value of the special symbol mode flag is loaded (in other words, the value of the special symbol mode flag is incorporated) and stored in a predetermined register. Next, the setting of power supply recovery (S15) and the data storing process (S16) are executed. Further, the setting of detecting a communication line abnormality with the payout control board (S17) is executed. Here, the address of the error flag Is set, and the communication line error bit of the content of the error 1 flag is set. Then, the control process proceeds to a process (S27) of time setting for a game progress interruption described later.
<<< Process when initializing RWM >>>

  In the process at the time of initialization of RWM (S24 to S28), after clearing the RWM area (S24), initialization of RWM (S25), initialization of the effect indicator (rendering symbol display device 60) (S26), And the time setting for the game progress interruption (S27) is performed. Among these, in the clear of the RWM area (S24), the information is included including the information of the error flag set when various errors occur, and the check is performed. Then, in the processing from the clear of the RWM area (S24) to the initial setting of the RWM (S25), the clear data (00H) is set in the entire area of RWM, and the clear data is stored as the reference value of the relative address. Is +1. Furthermore, bit 7 of this reference value is examined and a determination of the examination result is carried out. In the process of determining the inspection result, if the inspection result is 0, the process returns to the processing of storing the above-mentioned clear data in the reference value, and the address of the initialization data setting table is set. Thereby, the initial value of RWM is set. In addition, clearing of the RWM area is not limited to the one that is performed for the entire area, and for example, only a partial area where specific information is stored or an area excluding an unused area may be cleared. It is also good.

In the initialization of the effect display (S26), in order to perform the initialization of the effect symbol display device 60 and the command transmission request of the error state and the fraud prize ball monitoring information, the command request data using the address of the effect initial command setting table as an argument Execute setting processing.
<<< Processing of time setting for game progress interruption >>>

In the process of clock setting for the game progress interrupt (S27), in order to start the game progress interrupt, the count value of the predetermined size is set in the corresponding counter setting register, and the game progress interrupt is generated every 4 ms, for example. .
<<< Circuit processing >>>

  After the clock setting for the game progress interrupt (S27), it prepares recursion (restart) of a predetermined timer which is interrupt processing time monitoring means and updates the random number related value used for generating the initial value of various random numbers. The circulation process (S33 (S28 to S32)) is performed. In this circulation process (S33), in order to manage the gaming machine, first, interruption is prohibited (S28). Furthermore, in order to prepare for the interruption processing time monitoring means to recurse, a predetermined value to be the first recursion information is set in the interruption processing time monitoring means clear register (S29). This first recursive information is a predetermined value such as 55H. Further, it is determined whether or not the power-off confirmation information is set (S30), and if it is set (S30: Yes), the process proceeds to power-off processing (S301 to S307) described later.

  If it is determined in the determination (S30) whether or not the power failure confirmation information described above is set (S30: No), the initial value random number update process is executed (S31), and The initial value random number per symbol, the pattern initial value random number per special symbol, and the software initial value random number per special symbol are updated. After this, after permitting the interrupt (S32), the process returns to the process of interrupt prohibition (S28) again, and the subsequent processes (S28 to S32) are sequentially repeated to circulate the control process.

The above-mentioned game progress interrupt is possible every time interrupt permission (S28) is executed, and the game progress interrupt process is repeated every predetermined cycle (here, 4 ms cycle) based on the cycle information set in S27. .
<<< Power-off process >>>

  If it is determined in the determination (S30) whether or not the power-off confirmation information is set (S30: Yes), the CPU 501 functions as a forced recursion means, and the setting of the 22nd recursion information Is performed (S301), the monitoring clocking of the interrupt processing time monitoring means is forcibly initialized, and the clocking is recursed. When the power supply is resumed due to the forced setting of the second recursive information (S301), the control process is started in a state where the monitoring timekeeping recurs. In other words, by forcing the monitoring clock to recurse when the power is cut off, it is possible to prevent the progress of the control processing without recursion of the monitoring clock in the control processing immediately after resuming the power supply. It has become.

  Subsequently, the address of the information flag (power-off information flag) at the time of power on is set, the value of the power-off information flag is read, and it is determined whether the information at the time of power on is normally stored. (S302). Then, if the information at the time of power-on is normally stored (S302: Yes), power-off normal data (55H in this case) is set (S304), and the checksum of RWM at the time of power-off is After calculation (S305), checksum data is created. Then, access prohibition is set (S306), and it is waited for the supply voltage to become lower than a predetermined value by the loop process (S307) at the time of the power-off and the power-off.

  In the determination (S302) as to whether or not the information at the time of power on is stored normally (S302: No), the power failure abnormality data is set. After (S303), the process proceeds to the above-mentioned access prohibition process (S306). <<< Process of power off confirmation information setting >>>

  Next, control processing in the case of setting the power failure confirmation information determined in S30 described above will be described. First, after the power is turned on, control start processing (see FIG. 12 and FIG. 13) is started through predetermined processing, and processing of clocking setting for gaming progress interruption executed during control start processing (FIG. 13) The loop processing is started through the inside (indicated by S27) and the like. This loop processing corresponds to the circulation processing (S33) in FIG.

  When the start timing of the game progress interrupt process comes after the start of the loop process, the game progress interrupt process shown in FIG. 14 is executed. Thereafter, when the power supply voltage drops during the game progress interrupt process, the control process jumps to a predetermined address (address 0066H here) in accordance with the non-maskable interrupt process (NMI process) by the signal input to the NMI terminal. To migrate. Then, according to the contents defined by the control program after the predetermined address (0066H) described above, the power-off confirmation information indicating that the NMI processing has occurred is set, and the power-off confirmation for setting the power-off confirmation information The processing of information setting is returned to return, and the processing returns to the processing at the time of power interruption during the game progress interrupt processing. Then, all the remaining processes to be executed in the game progress interrupt process of the cycle are completed and the process returns to return, and the process returns to the control start process (here, the loop process corresponding to S33 in FIG. 13).

  When the power supply voltage drops during the loop processing, the control processing shifts to a predetermined address (0066H) in the same manner as in the above-described case in accordance with the NMI processing. Then, the power-off confirmation information is set, and the process returns to return, and returns to the control start process (here, the loop process (S33)).

  Then, as described above, it is determined whether or not the power-off confirmation information is set (S30 in FIG. 13). Here, if the power failure confirmation information is not set, the process proceeds to the process of loop processing start and the circulation process (S33 in FIG. 13) is continued. On the other hand, if the power-off confirmation information is set, the power-off process (corresponding to the above-described S301 to S307) is executed, and the power-off is performed after the power-off process is completed.

  Also, in the present embodiment, when a non-maskable interrupt occurs, the instruction being executed is completed on an instruction-by-instruction basis. For example, if a non-maskable interrupt occurs during execution of a control process (here, LD (load) instruction) indicated by reference numeral 552 in FIG. 16, this control process 552 continues while the instruction is being executed, and this LD instruction is executed. The above-mentioned power-off confirmation information is set after the end of. That is, the setting time of the power failure confirmation information is determined by control processing in units of instructions, and the power failure confirmation information is set after such an instruction is completed.

  Here, the control process including the command as described above is a control process for each program module (in the present embodiment, for example, a control start process (see FIGS. 12 and 13), a game progress interrupt process (see FIG. 14), an initial value The concept is not limited to random number update processing (S31, S48), input processing (S45), and other processing, but also includes control processing such as setting and calculation of various data (S1 to S10, S41 to S44, etc.) It is. That is, taking the game progress interrupt process as an example, for example, when a non-maskable interrupt occurs during the execution of a specific instruction constituting the control process of the second set of recursive information (S 43), the execution of this specific instruction Power off confirmation information is set after completion of. Then, the process of setting the power-off confirmation information for setting the power-off confirmation information is exited, and the process returns to the process at the time of the power-off during the game progress interrupt process. Then, all the remaining processes to be executed in the game progress interrupt process of the cycle are completed and the process is returned, and the process is returned to the control start process (the loop process corresponding to S33 in FIG. 13). Steps S301 to S307 are executed.

  Further, for example, even when a non-maskable interrupt occurs during execution of a specific instruction in various random number update processing (S46), the power-off confirmation information is set after the execution of this specific instruction is completed. Then, the process of setting the power failure confirmation information is returned to return, and the process returns to the process at the time of power interruption during the game progress interrupt process, and the remaining process to be executed in the game progress interrupt process of the cycle is completed and controlled. Returning to the start process, the power-off process is executed as in the case described above.

  Such a control mode is the same as in the case where a non-maskable interrupt occurs in various aspects of the game. For example, when a non-maskable interrupt occurs during the execution of a specific instruction from the start of the prize monitoring process (S51) to the completion of the prize ball control process (S52) described later, the execution of this specific instruction is ended. After that, the power failure confirmation information is set. Then, the process returns to the prize monitoring process (S51) or the winning ball control process (S52), all the remaining processes to be executed in the game progress interrupt process of the cycle are completed, and the process is returned to return. The processing returns to the loop processing corresponding to S33 in the above, and the power-off processing (corresponding to S301 to S307 described above) is executed.

  Furthermore, if other control processing in game progress interruption processing is explained, the special symbol fluctuation start supervision which includes the special symbol control processing which specifies the control processing which relates to the fluctuation of the special symbol (S57) and the processing which does big hit lottery decision Even when a non-maskable interrupt occurs during execution of a specific instruction in control processing (S60), control processing related to error detection and error notification (S61), or other control processing, the instruction at that time After the completion of the execution of the power-off confirmation information is set, after all the remaining processing to be executed in the game progress interrupt processing of the cycle is completed, the power-off processing is executed.

Subsequently, management of the required time from power-off to power-off will be described. In the present embodiment, the required power-off time, which is the time from when the power supply voltage drops and reaches a predetermined value to when the power is turned off, is set by the power-off required time setting means. For example, a device for controlling the discharge, such as a capacitor provided on the power supply substrate 251, can be used as the power-off required time setting unit. As indicated by a symbol M in FIG. 17, the power-off time is a power-off signal output voltage at which the power-supply voltage starts to gradually decrease from a normal value (for example, 30 V) and the power-supply board 251 outputs a power-off signal. It is a time required to reach 5 V which is a supply voltage input to the CPU 501 of the main substrate 102 after reaching (for example, 18 V). In the present embodiment, the required power-off time X is the time A required to complete the control start process, the time B required to complete the game progress interrupt process, the time C required to set the power-off confirmation information, and It is set such that the relationship of A + B + C + D <X is established, which is larger than the sum of the time D required to complete the power-off process.

Further, the power-off required time is set to end earlier than the timing at which the sub-board 104 subordinate to the main board 102 and receiving various control commands starts the power-off process. That is, when the power of the pachinko gaming machine 10 is turned off, not only the main board 102 but also the sub board 104 which is the sub control means executes the power down process for the power down according to the contents of the control process. However, the start timing of the power-off process performed by the sub substrate 104 is after the power-down process is completed after the power-down required time has elapsed in the main board 102. Not only for the sub-substrate 104 but also for, for example, the delivery control substrate 54, the power-down process may be started after the power-down required time in the main substrate 102 has elapsed. Further, the relationship between the time required for the main substrate 102 to shut off the power and the start time of the process for turning off the secondary control means may be applied only to the payout control board 54. Furthermore, in addition to the sub substrate 104 and the payout control substrate 54, in the case where a sub control means having a control function is provided, it is also possible to apply to the sub control means.
<<< Initial value random number update process >>>

  In the above-described initial value random number update process (S31), the random number is updated from the initial value random number update table in order to update the initial value random number per normal symbol, the symbol initial value random number per special symbol, and the software initial value random number per special symbol. Acquire the number of times, and update the initial value random number for the number of updates. In the acquisition of the number of updates of random numbers, the content (number of random numbers) indicated by the data address (0D10H) of the column in the first row on the left column in the initial value random number update table (see FIG. 15A) is taken as the number of updates of random numbers. . In addition, here, the number of random numbers is three, ie, an initial value random number per symbol, a symbol initial value random number per special symbol, and a software initial value random number per special symbol. Furthermore, in the process of updating the initial value random number for the number of update times, 2-byte soft random number with the data address (0D13H) of the address (low order) address of the initial value random number per ordinary symbol of the initial value random number update table Execute update processing (described later). When the number of updates is two or more, the reference value of the relative address acquired by the 2-byte soft random number update process executed last time is used as an argument. Then, random number related values in the initial value random number updating process (S31) are generated using the random number values obtained by the 2-byte soft random number updating process.

  Specifically, the address of the initial value random number update table is set as the reference value of the relative address, and the content of the reference value is loaded as the number of random numbers (in other words, the content of the reference value is incorporated). Next, the reference value is incremented by 1 and the number of random numbers is saved, and then 2-byte soft random number update processing is performed. Further, the number of random numbers is restored, and if the result of subtracting 1 from the number of random numbers is not 0, the process returns to the above-described processing for saving the number of random numbers, and if 0, the initial value random number updating process (S31) is exited.

In addition, in the initial value random number updating process (S31), when there is an abnormality in the random number related value, the correction of the random number related value is performed. In the process of correcting the random number related value, a random number related value is generated based on the random number value obtained in the 2-byte soft random number update process, and a predetermined value is subtracted from the random number related value. If the subtraction result is 0, the random number relation value is determined to be normal and the random number relation value is stored, but if less than 0, the random number relation value is determined to be normal and the maximum value of the random number relation values +1 is set as a correction value, and this correction value is added to the random number related value, and then the obtained random number related value is stored. Thereby, the abnormality of the random number related value is detected, and the random number related value which is abnormal is corrected. That is, the correction of the random number related value is performed by performing a predetermined operation on the random number related value, and correcting the random number related value when the operation result does not become the predetermined value.
<<<< 2 byte soft random number update process >>>

In the above-described 2-byte soft random number update process, the maximum value of the random number and the storage address of the random number are acquired from the reference value of the input relative address, and the random number is updated. In obtaining the maximum value of the random number, the content indicated by the reference value + 0 is lower than the maximum value of the random number, and the content indicated by the reference value + 1 is upper than the maximum value of the random number. In the acquisition of the storage address of the random number, the content indicated by the reference value + 2 is lower than the random number storage address, and the RWM head upper address is higher than the random number storage address. In updating the random number, the random number is incremented by one, and in order to set it to 0 if the maximum random number is exceeded, a 2-byte random number is acquired from the contents indicated by the acquired random number storage address, and the acquired random number is incremented by one. If the result of addition exceeds the obtained maximum random number value, 0 is set. The updated random number is stored in the acquired random number storage address, and is then set to the random number data to be output. Further, the reference value +3 is set to the reference value to be output.
<< game progress interrupt processing >>

  Next, a game progress interrupt process repeated in a 4 ms cycle based on the cycle information set in the process of setting the time for game progress interrupt (S27) will be described. Prior to the description, the terms "special motorized part", "condition device", and "parts continuous actuation device" used in the following will be described. Each of these represents a conceptual device in the control process of the pachinko gaming machine 10, and among these, the "special electric winning combination" operates the first large winning opening 91 and the second large winning opening 92. It will be In addition, the "conditional device" operates when the game ball entering the first large winning opening 91 or the second large winning opening 92 is detected, and the "special item continuous operating device" is a special electric role combination. The object can be operated several times in succession.

  As shown in FIG. 14, in the game progress interrupt process, setting of the interrupt operation condition (S41, S42), recursion of the interrupt processing time monitoring means (S43), management of the gaming machine (S45 to S70), permission of interrupt ( S71) is sequentially performed to return to the processing before the occurrence of the game progress interrupt.

  Specifically, in the process of setting the interrupt operation condition (S41, S42), in order to clear the interrupt flag, the interrupt operation condition setting value is stored in the game progress interrupt control register (S41), and the interrupt operation condition setting is performed. The value is set in the control register corresponding to the predetermined input terminal (S42). Thereafter, the second recursion information is set (S43), and the second recursion information is set in the interrupt processing time monitoring means register (S44). The second recursive information, together with the previously set first recursive information, is a condition for causing the monitoring clock of the interrupt processing time monitoring means to recurse and restart, as described later.

  In the management of gaming machines (S45 to S70), in order to manage gaming machines, the following processing is sequentially executed. First, in order to monitor the input of a specific signal, an input process (S45) is performed. The targets of monitoring here are various switches attached to the game board, a tray full switch, an open signal, a magnetic detection signal, a radio wave detection signal, a glass non-detection signal, and a disconnection short-circuit power supply abnormality detection signal It is.

Subsequently, various random number updating processes (S46) are executed to update the normal symbol variation pattern random number and the variation pattern random number. Furthermore, the initial value update type random number updating process (S47) is executed to update the random number per normal symbol, the symbol random number per special symbol, and the soft random number per special symbol. Next, an initial value random number update process (S48) is executed to update the initial value random number per symbol, the symbol initial value random number per special symbol, and the software initial value random number per special symbol. Also, in order to update the 2-byte timer, the timer subtraction process (S49) is executed, and in order to set the effective period of the second starting winning opening 63, the effective period setting process of the second starting opening (S50) is performed. .

  Further, the prize monitoring process (S51) is executed to store the number of times the prize balls are paid out, create an output request for the board external information, and send a command to be transmitted to the sub substrate 104. Subsequently, in order to control the payout control board 45, a winning ball control process (S52) is performed.

  Next, when the game ball passes the normal symbol operation gate (operation openings 68a and 68b), the normal symbol operation gate monitoring process (S53) is executed to store the random number related to the normal symbol, and the normal symbol display device or The normal symbol control process (S54) is executed in order to perform the process relating to the normal symbol electric combination. Furthermore, in order to monitor the start of fluctuation of the normal symbol, the normal symbol fluctuation start monitoring process (S55) is executed. Also, in order to monitor the winning of the first starting winning opening 62 and the second starting winning opening 63 of the gaming ball, the starting opening monitoring control process (S56) is executed, and the first special symbol display device 70 or the second special symbol In order to perform processing concerning display 71, special symbol control processing (S57) is executed. Then, in order to perform processing concerning the special electric combination, the special electric combination control processing (S58) is executed, and in order to perform processing concerning the effective period of the first large winning opening 91 or the second large winning opening 92, The special winning opening valid period setting process (S59) is executed, and the special symbol fluctuation start monitoring control process (S60) is executed to monitor the start of fluctuation of the first special symbol 192 and the second special symbol 193.

  Next, execute anomaly detection processing (S61) to monitor magnetism, disconnection / short circuit / power supply, radio waves, monitor the open / close state of the glass frame set / game board frame, and monitor the pair glass. In order to detect the entrance passage passing time abnormality, the entrance passage passing time abnormality detection processing (S62) is executed. In addition, the game state display process (S63) to request display of the number of times the special electric character works continuously, an error state, the number of operation suspension balls of the normal symbol display device, and the number of operation suspension balls of the special symbol display device To monitor the touch state (including the state of the amount of operation) of the launch handle 17, the steering wheel state signal inspection process (S64) is executed. In addition, the display of special symbols, the display of normal symbols, the display of the number of operation suspension balls of special symbol display devices (70, 71), the display of the number of operation suspension balls of normal symbol display devices, the display of gaming state, the special electric role goods The LED output process (S65) is executed to display the number of times the camera is operated continuously and the error display.

  Subsequently, in order to output the signal of prohibition / permission of the launch of the game ball, launch control signal output processing (S66) is executed, and in order to create and output a signal to be output to the test apparatus, test signal output processing (S67) Run. Furthermore, in order to output the output data of the normal motorized combination product solenoid, the first large winning opening open solenoid, and the second large winning opening open solenoid, to execute the solenoid output processing (S68), to transmit the effect control command Then, the effect control command transmission process (S69) is executed, and an external information output process (S70) is executed to output a signal to the external terminal (various external output terminals of the external relay terminal board 49 (see FIG. 2)).

After that, the interrupt permission (S71) is executed, and the control process returns to RET. And the above-mentioned circulation processing (S28-S32) of control start processing is performed using the remaining time until the next game interruption is performed.
<<< Input processing >>>

The input process (S45) is a control module related to the switch input, and in this input process (S45), each switch attached to the game board, an open / short circuit power source abnormality detection signal, an open signal, a radio wave detection signal, Also, in order to monitor the input of various signals of the touch state signal, the number of inspections, the input port address, the level mask data, the level address, and the rising mask data are acquired from the input information table, and switch input is performed for the number of inspections.

  When acquiring the number of inspections, input port address, level mask data, level address, rising mask data, the content indicated by the address (input information table + 0) of the input information table is the number of inspections, input port address from input information table +1, Level mask data, level address and rising mask data are acquired for the number of inspections.

  In the switch input, after the level data of the acquired input port is created, when the acquired rising mask data is other than 0, the rising data is created. In creating level data, the state of the bit indicated by the acquired level mask data is read a predetermined number of times (for example, 5 times) continuously, with an interval of a predetermined period (for example 5 μs) or more from the acquired input port The read bits of all the bits are stored in the acquired level address as the current level data. The upper address (level upper address) of level data is the RWM head upper address (0F0H). Also, as a bit that has not been matched even once in five readings, the previous level data is stored.

In creating the rising data, in order to create rising data of the bit indicated by the acquired rising mask data, the exclusive OR of the current data and the previous level data is calculated, and the result of the exclusive OR and the current level data are calculated. Calculate the logical product. Further, the logical product of the created rising data and the acquired rising mask data is calculated, and the result of the logical product is stored in the area of the address obtained by +1 to the address of the acquired level address.
<<< Various random number update processing >>

In the various random number updating process (S46), the normal pattern variation pattern random number and the variation pattern random number are updated. In the update of the normal symbol variation pattern random number, the normal symbol variation pattern random number is +1, and in order to set it to 0 when exceeding the maximum value (here 232), the lower address of the normal symbol variation pattern random number and the normal symbol variation pattern random number maximum The RWM update process is executed with the value +1 (here, 223) as an argument. In updating the fluctuation pattern random number, in order to update the fluctuation pattern random number, a predetermined value (here, 3511) is subtracted from the value of the fluctuation pattern random number. When the subtraction result is less than 0, the variation pattern random number maximum value + 1 (here, 50000) is added to the subtraction result. The calculated result is stored in a fluctuation pattern random number.
<<< Initial value update type random number update process >>>

  In the initial value update type random number update process (S47), the initial value update type random number update table (see FIG. 15 (b)) in order to update the normal random number per symbol, the special symbol random number per symbol and the soft random number per special symbol. The number of random numbers to be updated, the maximum value of random numbers, the address of the initial value update type random number, and the address of the initial value work are acquired, and the initial value update type random number is updated.

  In order to obtain the number of random numbers to be updated, the maximum value of random numbers, the address of initial value update type random numbers, and the address of initial value work, the data address of the column on the left column 1st row of the initial value update type random number update table (0D30H The content (number of random numbers) indicated by) is the number of random numbers to be updated, and the maximum value of random numbers, the address of initial value update random numbers, and the initial value work from the second column on the left column of the initial value update type random number update table The addresses of are sequentially acquired for the number of random numbers to be updated.

In updating the initial value update type random number, the initial value update type random number is incremented by 1 and the maximum value is set to 0, so the maximum value of the initial value update type random number in the initial value update type random number update table is described Performs 2-byte soft random number update processing with the specified address as an argument. As a result of execution, when the value of the updated initial value update type random number matches the content of the acquired initial value work, the initial value of the initial value update type random number is updated by two lines down from the address of the acquired initial value work. The contents of the initial value random number indicated by the address (0D37H) and the address three lines below (0D38H) are set as new initial values, and stored in the acquired initial value update type random number address and the acquired initial value work address.
<<< Initial value random number update process >>>

For the initial value random number update process, the same program module as the initial value random number update process executed in the control start process is used, but the cycle of updating the random number related value is the game progress interrupt cycle (here 4 ms) Is different from when executed during control start processing.
<<< Timer subtraction processing >>>

In the timer subtraction process (S49), in order to update the 2-byte timer, the content of the address (2-byte timer update table address + 0) of the 2-byte timer update table is the timer number, and the next address (2-byte timer update) The lower address of the 2-byte timer is acquired from the address of the table +1) by the number of timers. Further, the acquired 2-byte timer is inspected, and as a result of the inspection, if the 2-byte timer value is other than 0, the 2-byte timer is updated (content of the 2-byte timer-1). If the value of the 2-byte timer is 0 as a result of the inspection, the 2-byte timer is not updated.
<<< Starting opening 2 effective period setting process >>>

In the effective period setting process (S50) of starting opening 2, in order to set the effective period of second starting winning opening 63, a value corresponding to the value of the normal symbol status (described later) and the value of starting opening 2 effective extension timer Is stored in (the storage area of) the start opening 2 effective period flag. The relationship between the value of the normal symbol status and the value stored in the start aperture 2 valid period flag corresponding to the value of the start aperture 2 effective extension timer is that the value of the normal symbol status is 3 indicating that the normal motor vehicle is in operation. In this case, no value is set for the starting opening 2 effective extension timer, and predetermined starting opening 2 effective period data (1) is used as a value stored in the starting opening 2 effective period flag. On the other hand, when the value of the normal symbol status indicates a value other than that during normal motor combination operation, if the value of the start opening 2 effective extension timer is not 0, a predetermined start opening as a value stored in the start opening 2 effective period flag 2 Valid period data (1) is used. Also, when the value of the normal symbol status indicates a value other than that of the normal motor combination, if the value of the start opening 2 effective extension timer is 0, a predetermined start opening as a value stored in the start opening 2 effective period flag 2 Invalid period data (0) is used.
<<< Prize monitoring process >>>

In the prize monitoring process (S51), storage of the number of times the prize balls are paid out, creation of a security output request to be output to the external terminal (various external output terminals of the above-mentioned external relay terminal board 49 (see FIG. 2)) In order to make a request to send a command to be sent to the effect control board (here, the sub main board 301), the content indicated by the address of the prize monitoring table (winning monitor table + 0) is taken as the number of inspections Conduct a pass inspection. If it is determined that the gaming ball has passed the switch as a result of the switch passage inspection, storage of the number of winning balls, creation of a security output request to be output to an external terminal, and transmission of a command are requested. Here, the configuration of the prize monitoring table includes the number of inspections and inspection data of various game ball detection devices (game ball switches), and the configuration of inspection data is switch bit data, EVENT data, MODE data, award ball judgment It consists of data and invalid period existence judgment data.
<<< Prize ball control process >>>

In the prize ball control process (S52), in order to control the payout control substrate 45, monitoring of data reception from the payout control substrate 45, a command transmission request to the payout control substrate 45, command transmission to the payout control substrate 45, and payout The received data inspection from the control board 45 is sequentially performed. In monitoring data reception from the payout control board 45, data reception monitoring processing is executed. In the command transmission request to the payout control board 45, the payout command request process is executed. In command transmission to the payout control board 45 and inspection of received data from the payout control board 45, a payout command control process is executed.
<<< Normal pattern operation gate monitoring process >>>

In the normal symbol operation gate monitoring process (S53), when passing through the normal symbol operation gate (here, the operation openings 68a and 68b) of the gaming ball is monitored and it is determined that the normal symbol operation gate is passed, Updates the number of symbol operation pending balls (the number of normal symbols pending). As a result of the update, when the passage of the gaming ball is confirmed when the value of the normal symbol operation holding ball number is less than 4, which is the maximum number, the random number related to the normal symbol is stored.
<<< Normal symbol control process >>>

In the normal symbol control process (S54), in order to perform processing concerning the normal symbol display device 59 or the normal motorized symbol, the state of the normal symbol is monitored, and the normal symbol display device 59 is determined when it is determined that the normal symbol control is underway. Or execute the processing related to the ordinary motorized role. In the monitoring of the state of the normal symbol, when the above-mentioned normal symbol status is other than 0, it is determined that the normal symbol control is in progress. During the normal symbol control process, the value of the normal symbol status takes 1 to 4 and the corresponding control module is executed in each of the normal symbol status 1 to 4. And during the normal symbol status 1 during the normal symbol variation, during the normal symbol status 2 during the normal symbol stop symbol display, during the normal symbol status 3 during the normal motor symbol operation, during the normal symbol status 4 during the normal motor symbol operation end demonstration It corresponds.
<<< Normal pattern change start monitoring process >>>

  Normal symbol variation start monitoring process (S55), monitor the operating state of the normal symbol, if it is determined to start the variation of the normal symbol, normal symbol operation pending ball number update, hit determination, decision of the stop symbol, Perform normal symbol variation setting. In monitoring the operating status of the normal symbol, when the value of the normal symbol status is 0 indicating normal symbol variation standby, and when the value of the normal symbol operation pending ball count is other than 0, the variation of the normal symbol starts I will judge. In the update of the normal symbol operation retention ball number, the content of the normal symbol operation retention ball number is decremented by one. In the hit determination and the determination of the stop symbol, a normal symbol hit determination process is executed. In the variation setting of the normal symbol, after the setting of the normal symbol variation pattern number and the setting of the variation time of the normal symbol, the status setting and hit determination of the normal symbol, the RWM used for the variation pattern determination is cleared.

In the setting of the normal symbol variation pattern number, the probability variation function inspection process is executed, and the byte data acquisition processing is executed by using the obtained normal probability variation operation data and the address of the normal symbol variation control table as an argument. As a result of execution, the 1-byte selection number acquisition process is executed with the address calculated by adding the acquired base address and the acquired 1-byte data and the value of the normal symbol variation pattern determination area as arguments. As a result of execution, the acquired selection number is set as a normal symbol variation pattern number. In the setting of the variation time of the normal symbol, 1 byte selection number acquisition processing is executed with the value obtained on the basis of (-2) the normal symbol variation time table address and the normal symbol variation pattern number as an argument. As a result of execution, the acquired 2-byte data is stored in the normal symbol timer. In order to set the condition of the normal symbol during the normal symbol variation, the data storage processing is performed with the address of the normal symbol variation state setting table as an argument in the state setting and hit determination of the normal symbol and clearing of the RWM used for determining the variation pattern. Run. Also, the normal symbol variation pattern determination region used to determine the normal symbol hitting determination region and the variation pattern used for the hit determination is cleared to zero.
<<< Startup port monitoring control processing >>>

In the starting opening monitoring control process (S56), monitoring of the starting opening 1 (first starting winning opening 62) winning of the gaming ball and the starting opening 2 (second starting winning opening 63) winning is performed. The start-up monitoring process is performed using the corresponding monitoring table (start-up 1 monitoring table or start-up 2 monitoring table) for both the start opening 1 and the start opening 2, but the start opening for the start opening 2 is (2) The value of the validity period flag is checked, and as a result of the inspection, when the value of the start opening 2 validity period flag is predetermined start hole 2 validity period data, the start opening monitoring process is executed.
<<< Special symbol control process >>>

In the special symbol control process (S57), the state of waiting for a hit is examined, and if it is determined that the waiting for a hit state, the special symbol display device 1 (first special symbol display device 70) or the special symbol display device 2 (first) 2) Execute the processing related to the special symbol display device 71). In the check of the hit waiting state, when the value of the special power game status (to be described later) is 0, it is determined that the hit waiting state is set. In the processing relating to the special symbol display device 1 or the special symbol display device 2, in order to perform any of the processing relating to the special symbol display device 1 or the special symbol display device 2, the value of the special view 2 gaming status is inspected. As a result of inspection, in the case of 0, it is judged that processing concerning the special symbol display device 1 is performed, and in the case other than 0, it is judged that processing concerning the special symbol display device 2 is performed. In each of the processing relating to special symbol display device 1 and the processing relating to special symbol display device 2, the address of special feature game status (special feature 1 game status or special feature 2 game status) and special feature control table corresponding Special symbol control general-purpose processing is executed with the address of (Special figure 1 control table or special figure 2 control table) as an argument.
<<< Special electric role control control process >>>

In the special electric symbol control process (S58), in order to perform processing concerning the special electric symbol, the operating condition of the condition device and the special electric symbol is checked, and the condition device is in operation or the special electric symbol is in operation. If it is determined, the processing pertaining to the special motorized role is executed. In the inspection of the operating state of the condition device and the special electric symbol, when the value of the special power game status is other than 0, it is determined that the condition device is in operation or the special electric symbol is in operation. When the condition device is in operation or the special electric symbol is in operation, the value of the special power game status takes 1 to 8, and the corresponding control module is executed in each of the special power game status 1 to 8. And special power game status 1 is in preparation for big winning opening opening, special power gaming status 2 is during special electric role operation, special power gaming status 3 is during large winning hole closing, special power gaming status 4 is during big hit end demonstration There is.
<<< Large winning opening effective period setting process >>>

In the special winning opening valid period setting process (S59), a value corresponding to the value of the special winning opening valid period buffer is stored in the special winning opening valid period flag. For example, when the value of the special winning opening effective period buffer is 0, the special winning opening invalid period data is stored in the special winning opening effective period flag, and when the value of the special winning opening effective period buffer is other than 0, the special winning opening effective The period data is stored in the special winning opening valid period flag. In the present embodiment, the first large winning opening 91 and the second large winning opening 92 are provided as the special winning openings, but the same control processing can be applied to any of them.
<<< Special symbol variation start monitoring control process >>>

In the special symbol variation start monitoring control process (S60), monitoring of the variation start of the special symbol 1 (here, the first special symbol 192) and the special symbol 2 (here, the first special symbol 192) is performed. In any of the symbols 2, the special figure gaming status (special figure 1 gaming status or special figure 2 gaming status) address and special figure fluctuation start monitoring table (special figure 1 fluctuation start monitoring table or special figure 2 fluctuation start monitoring table) Execute special symbol variation start monitoring processing with the address of the as an argument.
<<< Failure detection processing >>>

In the abnormality detection process (S61), monitoring of magnetism, disconnection / shorting / power supply monitoring, radio wave monitoring, monitoring of open / close state of glass frame set / game board frame / back set (here set base 39) etc. In order to do this, create an error judgment value. Thereafter, the inspection of the error state, the storage of the error state, and the display request of the error state effect of the gaming machine to the effect control board (here, the sub main board 301) are sequentially performed. If it is determined that there is no change to the error state in the inspection of the error state, storage of the error state and display request of the error state effect of the gaming machine to the effect control board are not performed.

In creating the error determination value, in order to create an error determination value, an inspection of the magnetic detection signal, an inspection of the open / short power supply abnormality detection signal, an inspection of the radio wave detection signal, and an inspection of the open signal are sequentially performed. However, inspection data used for these inspections is a value obtained by ANDing the result of exclusive ORing the value of the reception signal level and the value of the error flag with the communication error mask data. In checking the error state, in order to check the error state, the error flag comparison value and the value of the error flag are compared, and if they match, it is determined that there is no change in the error state. The comparison value of the error flag is a value in which the bit 0 of the communication line abnormality determination value is reflected on the bit 0 of the error determination value created by the creation of the error determination value. In storing an error state, an error flag comparison value created by checking the error state is stored in the error flag. In the display request of the error state effect of the gaming machine on the effect control board, the command request setting process is executed with the MODE (error A) data and the error flag comparison value created in the inspection of the error state as arguments.
<<<< Ball Passing Time Abnormality Detection Processing >>>>

  In the ball passing time abnormality detection process (S62), in order to detect the ball passing time abnormality, the continuous on time of each switch (each winning detection device) level is monitored, and as a result of monitoring, the change from the previous time is If it is determined that there is an entry passage time abnormality setting, a command transmission request, and a security output request output to an external terminal are sequentially created. However, when monitoring the continuous on-time at each switch level and determining that the continuous on-time is not abnormal, generation of a security output request to be output to the external terminal is not performed.

In monitoring the continuous on time of each switch level, to monitor the continuous on time of each switch level, the content indicated by the address of the continuous switch table is regarded as the number of inspections, and switch bit data is sequentially acquired for the number of inspections. Acquisition of timer address corresponding to each acquired switch bit data, measurement of switch level ON time, and judgment that continuous ON time is abnormal, acquisition of EVENT data stored in address corresponding to each switch bit data I do. If it is determined that the continuous on time is not abnormal, EVENT (error B0) data (00H) is set. If the acquired EVENT data and the value of the ball passing time abnormality flag (described later) are different, it is determined that there has been a change from the previous time. In setting the ball passing time abnormality, EVENT data is stored in the ball passing time abnormality flag. In a command transmission request, command request setting processing is executed with MODE (error B) data (9EH) and EVENT data as arguments. In the creation of the security output request to be output to the external terminal, the signal output request processing is executed with the address +1 of the abnormal sensor detection timer as an argument.
<<< Playing state display process >>>

  In the game state display process (S63), the display request of the number of times the special electric character works continuously, the error state, the number of operation reserved balls of the normal symbol display device, and the number of operation suspended balls of the special symbol display device In order to do, display data generation of the number of times the special motorized product operates continuously, display data generation of the error state, display data generation of the number of operation holding balls of the normal symbol display device, and operation holding ball of the special symbol display device Create display data for the number.

In order to create display data of the number of times the special motorized symbol operates continuously, the number of inspections is acquired from the address of the maximum operation frequency comparison table in order to create the display data of the number of continuously actuated the special motorized symbol. . The final round data of the maximum actuation number comparison table and the value of the large winning opening maximum opening number are sequentially compared by the acquired number of inspections, and when they match, the special motorized symbol works continuously with the number of inspections when they match. It is stored in the area of the special power activation number display number as display data of the number. If all the values do not match, 0 is stored as display data in the special power operation number display number area.

In order to create display data of the error state, the display data of the status indication light 1 and the status indication light 2 are created, and the display data of the main control error indication light is created. In the display data creation of the number of operation suspension balls of the normal symbol display device and the display data of the operation suspension sphere number of the special symbol display device, the number of updates is the content of the address of the operation suspension sphere number update table as the update number The lower address of the operation pending ball number and the lower address of the blinking timer are sequentially acquired for a minute, and the blinking timer is updated and the display pattern number is created.
<<< Handle state signal inspection process >>>

  In the handle state signal inspection process (S64), in order to monitor the touch state of the launch handle 17, the state of the handle is inspected, and as a result of the inspection, when it is determined that the handle state is changed, the handle state monitoring timer is subtracted. , Update of the steering wheel state, setting of the steering wheel state monitoring timer, and command transmission request of steering wheel state effect. If it is determined that the steering wheel state does not change as a result of the inspection, the steering wheel state monitoring timer is set. When it is determined that the steering wheel timer is under subtraction in the subtraction of the steering wheel state monitoring timer, the subsequent processing regarding the steering wheel state is not performed.

  In checking the handle state, in order to check the handle state, the value of the received signal level and the value of the handle state flag are checked. When the bit indicating the received signal level value is 0 and the value of the handle state flag is 00H, it is determined that there is no change in the handle state, and when the value of the handle state flag is 01H, it is determined that there is a change in the handle state. Do. If the bit indicating the received signal level value is 1 and the value of the handle state flag is 00H, it is determined that the handle state has changed, and if the value of the handle state flag is 01H, it is determined that the handle state has not changed Do.

  In the subtraction of the steering wheel state monitoring timer, the content of the steering wheel state monitoring timer is decremented by one in order to perform subtraction of the steering wheel state monitoring timer. If the result of the subtraction is other than 0, it is determined that the timer is under subtraction. In updating the handle state, a value corresponding to the value of the handle state flag is stored in the handle state flag in order to update the handle state. When the value of the handle state flag is 00H, the value stored in the handle state flag is 01H, and when the value of the handle state flag is 01H, the value stored in the handle state flag is 00H.

In setting the handle state monitoring timer, the handle state monitoring time is stored in the handle state monitoring timer in order to set the handle state monitoring timer. In the command transmission request of the steering wheel state effect, in order to perform the command transmission request of the steering wheel state effect, the result of ANDing the MODE (handwheel state information) data and the predetermined value 7FH Execute command request setting processing using as an argument.
<<< LED output processing >>>

  In the LED output process (S65), display of special symbol, display of normal symbol, display of operation suspension ball number of special symbol display device, display of operation suspension ball number of normal symbol display device, display of gaming state, special electric In order to display the number of times the utility operates continuously, display the operating status of the special motorized positioner when the utility continuous operating device is not working, display the right and left strikes, and display the error , Initialize the display, and output the display data sequentially.

In initializing the display, clear data is output to the segment output port in order to initialize the display. In outputting display data, in order to output display data, after outputting a digit corresponding to the data to be displayed, the data to be displayed is output. In order to output a digit corresponding to the data to be displayed, after the digit counter is updated, the data output of the digit is acquired, and the acquired output data is output. In the present embodiment, a 7-segment decoder is used to output data to be displayed on the 7-segment display, according to the game situation. The data output in the LED output process includes segment data indicating on / off of each segment of the 7-segment display body, pattern data transmitted to the 7-segment decoder, etc. The configuration for control and more specific control modes will be described later.
<<< Emission control signal output processing >>>

  In the launch control signal output process (S66), in order to output a signal of prohibition / permission of launch of the gaming ball, the setting of the prohibition / permission of communication corresponding to the communication state with the payout control board 45 and the short circuit power supply abnormality After acquiring the output data of the prohibition / permission of the emission, the signal of the prohibition / permission of the emission is output. In the setting of the prohibition / permission of firing corresponding to the communication state with the dispensing control board 45 and the open / short circuit power supply abnormality and the acquisition of the output data of the prohibition / permission of firing, a flag reflecting the bit setting request is created and output data To get

When creating a flag that reflects the bit setting request, if the communication error bit of the error flag or the open-circuit short circuit power supply error bit of the error flag is on, the bit clear request is reflected on the flag; otherwise, the bit set request Reflect on the flag. In obtaining output data, bit data setting processing is executed with a flag reflecting a bit setting request, an address of a buffer such as a digit, and firing permission signal bit data as arguments. As a result of execution, the acquired bit data is used as output data. In the case of the output of the signal of prohibition / permission of firing, in order to output the signal of prohibition / permission of firing, the acquired output data is output to the digit etc. output port.
<<< Test signal output process >>>

  In the test signal output process (S67), a signal to be output to the test apparatus is created and output to the corresponding output port. Among the plurality of test signal output ports, the test signal output port 1 outputs signals during operation of the condition device during the operation of the large hit, the character continuous operation device, and the like during fluctuation of each special symbol from the corresponding terminals. Test signal output port 2 is from each terminal to which the signal of the normal electric symbol open extension state, the normal symbol variation time shortening state, the normal symbol high probability state, the special symbol variation time shortening state, the special symbol high probability state is associated Output. The test signal output port 3 outputs a normal motor combination signal in operation signal, a normal symbol variation signal, a normal symbol contact signal, and a special motor combination signal in operation signal from the corresponding terminals. In order to create a signal to be output to each of the test signal output ports 1 to 3, an output data creation process is performed with the address of the corresponding test signal data table among the test signal data tables 1 to 3 as an argument.

The test signal output port 5 outputs signals from the gaming machine error state, the designated firing position, and the symbol data from the corresponding terminals. In the creation of the signal to be output to the test signal output port 5, the lower 2 bits of the symbol combination number are usually bits 0 and 1 of the symbol data. Also, error check processing is executed with test terminal error output mask data as an argument. If an error is detected as a result of execution, it is determined that a gaming machine error is in progress, and the gaming machine error status signal is turned on. Otherwise, create an OFF of gaming machine error status signal. When the value of the striking state flag is 0, the firing position designation signals 1 to 3 are turned off. Otherwise, it turns on the launch position designation signal 1, and turns off the launch position designation signal 2 and the launch position designation signal 3. The test signal output port 6 and the test signal output port 7 output signals of symbol data from the corresponding terminals.
<<< Solenoid output processing >>>

In the solenoid output process (S68), in order to output the output data of the normal motor combination solenoid and the special winning opening open solenoid, acquisition of the output data of the ordinary electric combination solenoid and acquisition of the output data of the big winning opening opening solenoid And output of output data. In acquisition of output data of the ordinary motor combination product solenoid and acquisition of output data of the big winning opening open solenoid, acquisition of solenoid operation flag and solenoid operation timer, acquisition of output data, update of solenoid operation timer are sequentially Do. In the output of the output data, the result of the logical sum of the acquired output data of the ordinary motor-actuated product solenoid and the output data of the big winning opening open solenoid is output to the solenoid output port.
<<< Effect control command transmission process >>>

  In the effect control command transmission process (S69), the transmission request of the command to be transmitted to the effect control board is checked, and if it is determined that the transmission request is made, the command data to be requested is acquired and the used command buffer is cleared. Acquisition of MODE data corresponding to acquired command data, output of MODE data, retention of MODE data, acquisition of EVENT data corresponding to acquired command data, output of EVENT data are sequentially performed. The transmission timing of the command data is defined by the effect data strobe, and a predetermined time (here, 46 μs or more) after the on time (here, 2 μs or more) of the effect data strobe signal is the effect data holding time.

  In the inspection of the command transmission request, the value of the command request writing position (area) is compared with the value of the command request reading position (area), and if the values do not match, it is determined that there is a command transmission request. In acquiring the command data to be requested, the address calculation value stored in the command request reading position and the double value of the logical product of the position correction bit data are added and the address of the command buffer is added. As command data. The command request reading position is incremented by one in order to update the contents of the reading position of the command data after acquiring the address calculation value stored in the command request reading position. When clearing the command buffer, the command buffer in which the acquired command data is stored is cleared to 0 in order to clear the command buffer.

In the acquisition of MODE data corresponding to acquired command data, the upper part of the acquired command data is set as MODE data. In the output of the MODE data, after the acquired MODE data is output to the effect command output port, in order to output the effect data strobe, strobe output processing is executed. In holding the MODE data, it waits for a predetermined time (here, 46 μs or more) to hold the MODE data. When acquiring EVENT data corresponding to acquired command data, the lower part of the acquired command data is taken as EVENT data. In the output of EVENT data, after the acquired EVENT data is output to the same effect command output port as that described above, strobe output processing is executed in order to output an effect data strobe.
<<< External information output process >>>

  In the external information output process (S70), a signal to be output to the external input terminal is created, and the created signal is output. The configuration of the external information output port includes external information 1 to external information 6 and security, and one remaining bit is unused. In the creation of the external information 1 and the external information 3 to the external information 6, an output data creation process is executed with the address of the external information data table as an argument.

When creating external information 2, in order to create external information 2, a predetermined bit of the starting opening information timer is checked, and as a result of the check, the external information is matched to the on / off of the predetermined bit of starting opening information timer Create 2 on / off. When creating security, error check processing is executed with external information error output mask data as an argument. As a result of execution, if an error is detected, it turns on the security bit of the output data. Otherwise, create security bit off for output data. In the output of the created signal, the created external information 1 to external information 6 and the security are output to the external information output port.
<< Interrupt on main board >>

  Next, an interrupt in the main board 102 will be described. In the main board 102, maskable interrupts and non-maskable interrupts are performed, among which the maskable interrupts are those by PT0I. In the maskable interrupt by PT0I, the system clock is divided to realize an interrupt cycle of 4 ms, and the aforementioned game progress interrupt process (PTC 0 interrupt process) is executed in this interrupt cycle.

  On the other hand, the non-maskable interrupt occurs when the main board 102 detects the power-off and outputs a power-off signal, and the power-off signal is input to the non-maskable interrupt terminal 504.

The game progress interrupt processing is monitored by the interrupt processing time monitoring means, and the interrupt processing time monitoring means may be initialized and restarted within the timeout time set in the function setting of the program management area of the CPU 501. If it can not, it times out and the above-mentioned user reset occurs. Then, as described above, the core of the CPU 501 is reset, and control start processing is executed. The restart of the interrupt processing time monitoring means is executed when the recursive information is set and the built-in timer is initialized respectively during the circulation processing in the control start processing and during the game progress interrupt processing.
<< Random number on main board >>

  Next, random numbers used in the main board 102 will be described. The random number in the present embodiment is divided into a random number related to the operation of a bonus and another random number to be used for a game. The random number related to the character work operation, the random number per symbol normally, the initial value random number per symbol normally, the random number per special symbol, the soft random number per special symbol, the software initial value random number per special symbol, the symbol random number per special symbol, and the special symbol There are seven types of symbol initial value random numbers.

  The normal symbol random number is a random number used for the lottery of the normal symbol display device. The value of the random number is “0 to 282”, and the magnitude of the random number is 283. The update method first adds 1 to the previous random number, returns the value to 0 if the result of the addition exceeds the maximum value, and if the random number makes one round, the value of the initial value random number per normal symbol at that time It is the value of the per-random number. The update time is every game progress interrupt, and is updated once every game progress interrupt. The acquisition time is when the passage detection of the game ball is detected by the passage detection devices 69a and 69b of the operation openings 68a and 68b. The number of random numbers to be judged differs between the low probability case and the high probability case, and is 11 for the low probability and 282 for the high probability.

  The initial value random number per symbol normally is a random number for determining the initial value of the random number per symbol normally and the end value of the random number per symbol normally. The value of the random number is “0 to 282”, and the magnitude of the random number is 283. In the updating method, first, 1 is added to the previous random number, and if the result of addition exceeds the maximum value, it is returned to 0. The update time is every game progress interrupt, and is also updated while the game progress interrupt is not being executed.

The special symbol per random pattern is acquired by software acquiring a random number (hardware random number) generated by a predetermined channel (exemplified here as “chA”) of the random number circuit of the CPU 501, and the special symbol display device (70, 71) Is a random number used for the lottery. The value of the random number is “0 to 065535”, and the magnitude of the random number is 65,536. The updating method is to update once with two clocks of the crystal oscillator input to the RCK (random number clock) terminal of the CPU 501. In this embodiment, a value based on the ID number of the CPU 501 is set as the start value of the random number, and it is changed every system reset executed with the power on (or off). As a method of changing the random number sequence, in the present embodiment, a method of automatically updating the random number sequence is set every time the random number sequence makes one round. The update time is a timing set by a 1/2 frequency-divided clock of the clock signal input to the RCK terminal.

  The acquisition time is different in the start winning detection device 74 of the first start winning opening 62 or the start winning detection device 75 of the second start winning opening 63. In the case of the start winning detection device 74 of the first start winning opening 62, a low level is input to the P0 terminal of the CPU 501 by turning the input signal from OFF to ON, and a random number value taken from chA of the random number circuit (hardware The random number value of the random number is stored in the random number value register (RA0D). The software acquires the built-in random number (hardware random number) stored in the random number value register (RA0D) when it is determined that the input signal of the start winning detection device 74 of the first start winning opening 62 is turned from OFF to ON. The special symbol random number is a value obtained by adding the soft random number per special symbol to the acquired built-in random number.

  On the other hand, in the case of the start winning detection device 75 of the second start winning opening 63, when the input signal turns from OFF to ON, a low level is input to the P1 terminal of the CPU 501, and the disturbance taken in from channel A of the random number circuit. This is different from the case of the start winning detection device 74 of the first start winning opening 62 in that numerical values are stored in the random number value register (RA1D).

  The number of random numbers that will hit the jackpot for the special symbols per random pattern differs between the low probability case and the high probability case, with 164 being low probability and 1640 being high probability.

  Further, regarding the random number per special symbol, the period of the random number is about 0.013 s (seconds) because the random number having the size of 65,536 is updated at a predetermined speed.

  The soft random number per special symbol is a random number used for lottery of the special symbol display device (70, 71) and added to the acquired internal random number when acquiring the internal random number generated by chA of the random number circuit as described above . The value of the random number is “0 to 65,520”, and the magnitude of the random number is 65,521. The update method first adds 1 to the previous random number, returns the value to 0 if the result of the addition exceeds the maximum value, and if the random number makes one round, the value of the software initial value random value per special symbol at that time is special It is assumed to be the value of soft random number per symbol. The update time is every game progress interrupt, and is updated once every game progress interrupt. The acquisition time is when the winning of the game ball is detected by the start winning detection device 74 of the first start winning opening 62 or the start winning detection device 75 of the second start winning opening 63.

  Special symbol soft initial value random number is a random number for determining the initial value of soft random number per special symbol and the end value of soft random number per special symbol, the value of random number takes "0-65520" and the random number is large Is 65,521. In the updating method, first, 1 is added to the previous random number, and if the result of addition exceeds the maximum value, it is returned to 0. The update time is every game progress interrupt, and is also updated while the game progress interrupt is not being executed.

  The symbol random number per special symbol is a random number used to determine the combination of symbols that will be a big hit. The value of the random number is “0 to 999”, and the magnitude of the random number is 1000. The update method first adds 1 to the previous random number, returns the value to 0 if the result of the addition exceeds the maximum value, and if the random number makes one round, the value of the software initial value random value per special symbol at that time is special It is used as the value of symbol random number per symbol. The update time is every game progress interrupt, and is updated once every game progress interrupt. The acquisition time is when the winning of the game ball is detected by the start winning detection device 74 of the first start winning opening 62 or the start winning detection device 75 of the second start winning opening 63.

The special symbol initial value random number per symbol is a random number for determining the initial value of the symbol random number per special symbol and the end value of the symbol random number per special symbol, the value of the random number takes “0 to 999” and the size of the random number Is 1000. In the updating method, first, 1 is added to the previous random number, and if the result of addition exceeds the maximum value, it is returned to 0. The update time is every game progress interrupt, and is also updated while the game progress interrupt is not being executed.

  There are two types of other random numbers to be used for gaming, a normal pattern fluctuation pattern random number and a fluctuation pattern random number. Among these, the normal symbol variation pattern random number is a random number used for the variation pattern selection of the normal symbol display device, the value of the random number takes “0 to 232”, and the size of the random number is 233. In the updating method, first, 1 is added to the previous random number, and if the result of addition exceeds the maximum value, it is returned to 0. The update time is every game progress interrupt, and is updated once every game progress interrupt. The acquisition time is when the passage detection of the game ball is detected by the passage detection devices 69a and 69b of the operation openings 68a and 68b.

The variation pattern random number is a random number used for the variation pattern selection of the special symbol display device (70, 71), the value of the random number is “0 to 49999”, and the magnitude of the random number is 50000. The updating method first subtracts 3511 from the previous random number, and if the subtraction result is less than 0, adds 50000 to the subtraction result. The update time is every game progress interrupt, and is updated once every game progress interrupt. The acquisition time is when the winning of the game ball is detected by the start winning detection device 74 of the first start winning opening 62 or the start winning detection device 75 of the second start winning opening 63.
<Other individual control processing modes>
<< Control mode related to command transmission timing >>

In this embodiment, the effect control command output from the main substrate 102 to the sub main substrate 301 is temporarily stored in the command buffer by the command request before transmission. The command buffer functions as a ring buffer of a plurality of buffers, and is performed once in the order stored in the command buffer in the control processing for command transmission (here, in the effect control command transmission processing (S69)). In the game progress interrupt process, one command is taken out of the command buffer and transmitted. It is also possible to adopt a method of transmitting a command whose priority is set high first. In addition, in various control processes, when a command that requires transmission is generated, it is also possible to perform command transmission as needed. When such a method is adopted, transmission of effect commands is collectively performed in one control processing module such as, for example, effect control command transmission processing (S69) during one game progress interrupt processing. Instead, command transmission is performed sequentially in each control processing module whenever the need for command transmission arises. Therefore, it is unlikely that the command transmission will be carried over to the next game progress interrupt processing. Then, for example, there is no delay in the command transmission at the start winning combination or the command transmission at the start of variation of the special symbol, and quick command processing becomes possible.
<< Control mode related to updating pending storage >>

  In the present embodiment, as described above, the configuration in which the second game is prioritized is adopted, and regularity is provided in the execution order of the first and second plurality of games, so The update is sequentially performed for each second game or first game. Therefore, if only updating the information stored on hold is performed for each second game or first game, the update on the information stored on hold is completed. However, the present invention is not limited to this, for example, a configuration in which priority is given to the first game, and a configuration in which the reserve storage is digested in the order in which start winnings occurred and stored on hold, instead of giving priority to any game It is possible to adopt. Among them, when adopting a configuration in which the reserve storage is digested in the order of occurrence of the start winning, updating of the reserve storage information according to the digestion, updating of the total number of reservations for a plurality of games, and storage of the winning order are performed. As a whole, it is possible to update pending and stored information.

Further, in the present embodiment, in order to inform the sub main board 301 that the pending storage has been updated, a request for the symbol storage number command (symbol 1 storage number command or symbol 2 storage number command) is made as described above. By including both the symbol 1 memory number command and the symbol 2 memory number command in one command, the required program and memory capacity can be reduced.
<< Control mode related to lottery of fluctuation pattern >>

  Then, the various aspects which concern on the lottery of a fluctuation pattern are demonstrated. In the aspect of the determination of the variation pattern described here, one of the pachinko gaming machines 10 may be selected and applied, or may be used in combination as appropriate. And when using a several aspect together, it is possible to use an aspect properly based on elements, such as a result of a pass / fail, for example.

  In the present embodiment, as described above, the determination result of the fluctuation pattern is determined by the number of holding balls, the special symbol (which may be a symbol group), and the fluctuation pattern selection state (status information of the special symbol). Although used as an element, a variation pattern corresponding to a combination of these determinants is selected. Then, with the determination of the fluctuation pattern, the fluctuation time paired with the fluctuation pattern is determined. Furthermore, in the present embodiment, with regard to the determination of the fluctuation pattern, the elements of the determination are made to differ depending on whether the result of the success or failure lottery is a big hit or a loss. That is, in the case of a big hit, a variation pattern is selected from among those linked to the effect state (status information of special symbol, etc.), a special symbol group, and a random number of success or failure. On the other hand, in the case of a loss, a fluctuation pattern is selected from among those linked to these based on the effect state, the number of holding balls, and the random number. Among them, in the case of a big hit, the fluctuation pattern to which the time of re-lottery on presentation is given is based on the state of presentation (presence or absence of specific effects etc.) and the special symbol group, The presence or absence is determined, and the determined result is transmitted from the main substrate 102 to the sub main substrate 301.

  In addition, when determining the fluctuation pattern and the fluctuation time, it is possible to determine the subsequent fluctuation time according to the determined effect pattern number (in other words, the contents of the effect pattern). For example, when the selected fluctuation pattern corresponds to the limited frequency pattern rendition, it is conceivable to determine the extension of the fluctuation time according to that afterward.

  In addition, by setting the command of fluctuation additional information as a command at the start of symbol fluctuation of a special symbol as described above, it is added later to the fluctuation time previously determined in relation to elements such as gaming state and hit symbol. An effect of adding time can be performed. Then, in the case of determining the overall fluctuation time in such an aspect, it is possible to create various fluctuation patterns while suppressing the number of fluctuation patterns provided in advance as small as described below. That is, considering pseudo continuous notice (so-called "pseudo run"), when the run patterns of the pseudo run are simply set individually, the same number of fluctuation patterns as the number of types of effects are provided in advance. You need to When the effect patterns are all prepared individually in this manner, the total number of variation patterns may be large, for example, to reach a number that exceeds 256. For this reason, in order to provide an identifiable code to a large number of fluctuation patterns, it is necessary to increase the number of bits and the number of bytes for representing the code as compared with the conventional case.

However, by using the fluctuation addition information (variation addition pattern), it is possible to connect fluctuation addition information, for example, selected by random numbers to a relatively small number of basic fluctuation patterns, and form a fluctuation pattern afterward. It is. And since a new fluctuation pattern can be formed by the combination of a fluctuation pattern by this, various fluctuation patterns can be created, without making the number of the fluctuation patterns beforehand provided excessive. In addition, it is possible to transmit the random number value according to the fluctuation additional information from the main board 102 to the sub main board 301 at the occurrence of the start winning as a command for pre-reading effect. In addition, it is also possible to set the appearance probability of the variation addition pattern so that the variation addition information is easily added when the limited frequency pattern effect is performed. In addition, if the example using fluctuation additional information is mentioned further, the decoration pattern 190a
When “777”, which is a probability variation pattern, is displayed from the beginning as a combination of ̃190c, setting of additional variation information is not performed, and “666”, which is a non-probability variation symbol, is displayed once as a combination of decorative symbols 190a to 190c. If it is set, the variable additional information is set to the effect (for example, the effect of the swing fluctuation, the effect representing the development of the fluctuation mode, and the like) until the result of whether or not to promote to 777 is displayed. There are things that

  Further, in the present embodiment, the fluctuation pattern is determined with the number of holding balls as an element, and the fluctuation pattern table to be referred to differs depending on how many the holding balls are. The fluctuation pattern table is provided corresponding to the number 0 to 4 of holding balls. The reason that the fluctuation pattern table corresponding to the hold 4 is provided as well as the four hold 0 to 3 is as follows. For example, consider a case where a new variable display is started from the situation where the number of balls held is four and the number of balls held is three. The state where the number of holding balls is 3 at the stage where the control process is not yet determined the fluctuation pattern which is the process during the later game progress interrupt process during the game progress interrupt process being executed at that time When a new start winning combination occurs, the number of holding balls is added to 4 when determining the fluctuation pattern. Therefore, the fluctuation pattern table is provided corresponding to the number of holding balls 0 to 4 so that such a situation can also be a factor in determining the fluctuation pattern.

  However, the present invention is not limited to this, and the variation pattern table may be provided corresponding to the number 0 to 3 of holding balls. In this case, in terms of control processing, it is possible to have a configuration in which the starting winning combination from the state of the number of holding balls 3 to the determination of the fluctuation pattern is not added. In addition, it is applicable also to the pachinko game machine of the type in which the maximum number of reservations (for example, 8) other than four is set also about either aspect.

Moreover, it is possible to set it as the time of fluctuation pattern lottery as acquisition timing of a fluctuation pattern random number. That is, since the variation pattern random number is not a random number relating to the special product operation such as the special electric role, etc., for example, in aiming at a fair game as an element for playing a game properly The need for constraints is reduced. Therefore, it is conceivable that the fluctuation pattern random number is acquired and stored, for example, as a separately provided timing at the time of the fluctuation pattern lottery as the timing separately provided at the start winning combination. By doing this, it is possible to reduce the number of information to be stored at the start winning combination, and it is possible to reduce the capacity of the program and memory.
<< Control mode related to designation of design >>

In the present embodiment, as described above, the determination of whether or not to be a definite variation is determined by the special symbol. For this reason, while a symbol is determined by the symbol random number (symbol random number) per special symbol, the presence or absence of a definite variation is also determined. Furthermore, the probability (proportion) to be a definite variation is determined by the selection probability of the symbol associated with the definite variation. In addition, it is possible to determine the symbol determination table to be used based on the value of the upper byte of the code indicating the symbol random number, and then determine the symbol from the determined symbol determination table based on the value of the lower byte of the symbol random number is there. In this embodiment, since the numerical value range of the symbol random number is set to "0 to 999", binary code codes of these numerical values can be used. And, by doing this, it is possible to reduce the memory and program capacity. In addition, distribution of the game state such as the number of rounds and the number of time reductions is performed on the winning symbol (which may be a symbol group), and the number of subsequent rounds and the number of time shortening are determined according to the winning symbol. May be By doing this, it is not necessary to store and control data specific to the gaming state, and the memory and program capacity can be reduced. Further, information (playing state designation information) for transmitting the gaming state to a command (for example, each command of the design 1 effect pattern and the design 2 effect pattern in the present embodiment) per hit from the main substrate 102 to the sub main substrate 301 It is also possible to add). This command is not sent to the sub main substrate 301 immediately after being created, but is created and temporarily stored, and sent to the sub main substrate 301 after waiting for a predetermined timing.
<< Relationship between special symbol and decorative symbol variation time >>

  As described above, the special symbol (the first special symbol 192 or the second special symbol 193) and the corresponding decorative symbols 190a to 190c are controlled to start and stop moving in synchronization with each other. Although, depending on the situation, the variation time of the decorative symbols 190a to 190c may be somewhat shorter than the variation time of the special symbol (the first special symbol 192 or the second special symbol 193) depending on the situation.

  That is, when the change of the special symbol or the change pattern is determined and the change of the special symbol is started, the change start command (command at the start of change) of the decorative symbol is transmitted from the main substrate 102 to the sub main substrate 301 However, the time required for transmission and reception of a predetermined command (for example, the first command of the command at the start of fluctuation) or waiting for being set in the command buffer (in the present embodiment, the ring buffer type is used) It is conceivable that the start of the fluctuation of the decorative symbol is delayed by the start of the fluctuation of the special symbol by the influence of the time until all the commands (first-in commands) are sent. Furthermore, at the time of the fluctuation stop of the special symbol, the fluctuation stop command (the command at the time of symbol decision of the special symbol) is transmitted to the sub main board 301, but the predetermined command (for example, the first command of the command at the start of fluctuation It is also conceivable that the stop of the fluctuation of the decorative symbol is delayed depending on the time required for transmission and reception of) and the degree of congestion of the command buffer (the degree of the number of commands waiting for transmission).

Thus, the variation time of the decorative symbol can be shortened to a certain extent with respect to the variation time of the special symbol, and after the special symbol begins to change, the decorative symbol begins to change, and after the special symbol has stopped changing, the decorative symbol May stop moving. As for the degree of delay between the start of fluctuation of the decorative symbol and the time of fluctuation stop, the number of commands to be sent is usually relatively large at the start of fluctuation, and relatively small at the time of stop. The degree of delay is considered to be smaller (less) than at the beginning of the fluctuation.
<Functional effects of the invention according to the present embodiment>

  As described above, in the pachinko gaming machine 10 of the present embodiment, the CPU 501 is provided with a 16-bit random number generation function and an 8-bit random number generation function. For this reason, it is possible to perform game control such as a big hit lottery using various random numbers. Furthermore, in the present embodiment, of the 16-bit random number generation function and the 8-bit random number generation function, only the 16-bit random number generation function is used for random number lottery, and the 8-bit random number generation function is not used. However, when the power of the CPU 501 is turned on, initialization of both the random number circuit for 16-bit random numbers and the random number circuit for 8-bit random numbers is performed, and thereafter, it is possible to shift to the security mode. Therefore, the random number generation function which is not used can be initialized with certainty, and it becomes possible to prevent an unfair action or the like using the random number generation function which is not used.

In other words, the CPU in the pachinko game machine is standardized with respect to the game control function while making the unique information such as the aforementioned ID number different, and is used by a plurality of game machine manufacturers and models. For this reason, it can be considered that by being provided with many kinds of random number generation functions, it can be used for many kinds of pachinko gaming machines for many years. However, although there is such an advantage, even if there is a random number function not to be used, the random number function can not be deleted, and it will be used for a pachinko game machine while leaving the random number function not to be used. Therefore, for example, a random number remaining in a random number circuit not used at the time of power-off is used immediately after power-on etc. to intentionally generate a big hit or to make it easy to hit a probability variation pattern, etc. It is possible that fraud may be performed using the random number function of. Under these circumstances, as in this embodiment, the random circuit which is not used at the time of power on etc. is initialized together with the random number circuit to be used, whereby the exemplified fraud is performed. Can be prevented in advance, and the reliability of random numbers in the CPU can be improved. Then, appropriate processing can be performed for various random number generation functions of the CPU.

  Further, in the present embodiment, since the random number created using both the hardware random number and the software random number is used in the pass / fail lottery, even if the fraud using the unused random number circuit is performed, It is possible to perform a lottery for success or failure with high security, but as mentioned above, by ensuring that initialization of unused random number circuits is performed at power-on etc., higher security is secured. be able to.

  Here, in the present embodiment, the hardware random number is used only for the success or failure lottery, but the present invention is not limited to this, and the symbol lottery of the special symbol, the variation pattern lottery, the lottery related to the normal symbol It is possible to use it for other lotterys. In that case, it is possible to use hardware random numbers alone or in combination with software random numbers as in the case of the lottery for success or failure.

  Furthermore, in the present embodiment, in the process (S24 to S28) at the time of initialization of RWM in the control start process (see FIGS. 12 and 13), the RWM area is cleared (S24). Therefore, the various error flags described above can be cleared in S24. The error flag to be cleared here includes the radio wave error flag and the like based on the radio wave detection signal described above.

  Further, in the present embodiment, the time required to shut off the power, which is the time from the time the power supply voltage drops to reach a predetermined value until the power is turned off, is the time A required to complete the control start process, and the game progress interrupt process It is set larger than the sum of time B required to complete the process, time C required to set the power failure confirmation information, and time D required to complete the power failure process (see FIG. 17). The time required for power-off is longer than the time required for hardware initialization and security check performed within the time until control start processing is started after power-on or the like. Therefore, when the power supply voltage becomes lower than a predetermined value during the security mode, it is possible to complete the security check while the voltage value falls below the value necessary for the operation of the CPU 501.

  The present invention is not limited to the above-described embodiment, and can be variously modified. For example, as the effect symbol display device 60, one using a plurality of liquid crystal displays or the like may be adopted. In this case, as the arrangement of a plurality of displays, one adjacent to each other, one separated from each other, one having a relatively large display and the other having a relatively small display, at least one. Are usually concealed and made to appear according to the contents of the effect, and the like. Furthermore, for example, one of the display devices displays the decorative symbols 190a to 190c, and the other display device additionally displays the first holding number display unit 196, the second holding number display unit 197, the traffic light 198, etc. It is also possible to adopt one that moves display objects (characters, decorative symbols, number of holdings, etc.) among a plurality of screens.

  In addition, when it is determined that the big hit in the determination of the big hit, the big hit symbol, presence or absence of definite variation, the presence or absence of time reduction, the presence or absence of the opening extension of the normal electric role, various start demonstration start time, various end demonstration time, special electric role It is possible to determine the operation pattern and the like, and refer to the result not separately but in the various control processes requiring these pieces of information separately for each required timing.

In addition, after the start of the special game, for example, when the game ball passes a specific area, there is a definite change, a short time, a normal electric opening part, an operating pattern of the special electric combination, etc. In pachinko machines of the type (also referred to as "ball specs" etc.) of which at least any one of them is determined, for example, depending on the gaming state, such as whether the time required for the big hit end demonstration is positive or negative (normal) If it is determined that the game is a big hit, it is possible to execute the big hit end demonstration at the time according to the determined gaming state at the start of the big hit end demonstration.

  In addition, in this embodiment, it is not a big hit, that the first special symbol 192 (or the second special symbol 193) is waiting for fluctuation, and the number of operation pending balls of the special symbol to be subjected to fluctuation start It is considered that the condition is that the change start is other than 0, and the second game using the second start winning opening 63 is prioritized over the first game. However, the present invention is not limited to this. For example, instead of giving priority to the first game, or giving priority to any game, the reserve memory is digested in the order in which the start winning is generated and held and stored. Configuration and the like can also be adopted. Among these, in the latter type in which symbol variations are performed in the order of winning, in addition to the above-described variation start conditions, for example, it is confirmed that they match the order of acceptance determination and the order of digestion (winning order). It is possible to make it one of the fluctuation start conditions that we could confirm that we were doing.

  Furthermore, in the type in which the symbol variations of the first game and the second game are performed in the order of winning as described above, when one game is winning, the other game is not judged to be appropriate. It is also possible. Here, as an aspect in which the other game's success or failure judgment is not made, the aspect in which the subsequent game's success or failure judgment is not performed until the end of the big hit game of the previous game played The aspect etc. which make invalid about success / failure determination etc. can be considered. That is, as in these various modes, it is possible to appropriately set the condition of the start of fluctuation of the symbol according to the circumstances such as the contents of the game when using a plurality of starting ports.

  Moreover, it is possible to set an appropriate aspect about the order of memory of a game state after the end of operation of the above-mentioned condition device. For example, it is possible to set in order of the probability change of the special symbol, the open extension function, the open pattern of the special electric character, the selection state of the change pattern (including the limited frequency pattern), and the time of the start demo and the end demo. .

  Further, in the present embodiment, as described above, the display request for the stand-by demonstration is issued by the main board 102, and the customer waiting demo command is transmitted from the main board 102 to the sub main board 301. As a mode, the timer is set and clocked at a predetermined timing such as the big hit end (end end of the demo) or at the time of the fluctuation stop of the special symbol, the timer is subtracted while waiting for the fluctuation of the special symbol, the timer value It is possible to send a command of a stand-by demo when 0 becomes 0. Furthermore, the command of the stand-by demonstration may be transmitted to the sub main board 301 only when there is no reserved storage of special symbols. As described above, with regard to command transmission of the standby demonstration, it is possible to use the end of the big hit or the fluctuation stop of the symbol as the clocking reference, or change the presence / absence of command transmission by the number of holding balls. Further, for example, the sub main substrate 301 performs timer measurement after receiving the change stop command from the main substrate 102 without transmitting and receiving the customer wait demo command, and performs control for displaying the customer waiting demo after a predetermined time has elapsed. May be

In this embodiment, a value obtained by adding a soft random number to a built-in random number (hardware random number) is used as a success or failure random number for use in big hit determination. It is also possible to set according to the situation of the game. For example, when it is determined that there is a starting opening winning and the number of balls held at that time has not reached the maximum value, a random number composed of built-in random numbers and soft random numbers is used for the judgment of good or bad If the number of balls has reached the maximum value, it is conceivable to use, for example, only soft random numbers (or only internal random numbers) as the pass / fail random numbers. In the present embodiment, the storage of the acquired various random numbers is performed for the pass / fail random number, the symbol random number, and the variation pattern random number, but the present invention is not limited thereto. According to the necessity, it is also possible to adopt a configuration in which the storage of the variation pattern random number is not performed.

  Also, taking the control process related to the start winning in the first game and the second game as an example, although there is a difference in the control content based on another game, the basic configuration of the control process is the same Can. For this reason, in the present embodiment, in the control program, the use storage area of the RWM 503 is offset and made different, and the other program contents are shared by many parts, thereby making the first game and the second game. I am controlling the game. By doing this, it is possible to reduce the storage capacity of the program. However, the present invention is not limited to this, and the control module may be separately created as an entirely separate process. In such a case, the speed of control processing can be improved.

In addition, in the present embodiment, since the priority of symbol variation of the first game and the second game is determined, the special symbol (the first special symbol 192 or the second symbol in the monitoring of the operation state of the special symbol) It is confirmed whether the special symbol 193) is waiting for fluctuation. However, the present invention is not limited to this, and, for example, in the case of a pachinko gaming machine of a type in which the variation of the special symbols of the first game and the second game can be simultaneously performed in parallel, the first It is not necessary to confirm whether or not the variation standby for the variation of the symbol of the game and the second game is performed. In this case, it is desirable to create separate control processing modules so that the special symbols of the first game and the second game can be varied independently of each other.
<Second Embodiment of Invention Relating to Control Processing of Main Substrate at Power Off>

  Next, a second embodiment relating to control processing of the main board at the time of power-off will be described. The same parts as those in the above-described embodiment are denoted by the same reference numerals, and the description thereof will be omitted. In the first embodiment described above, the power-off confirmation information is set when the power supply supply voltage is lowered and the power-off signal is input to the NMI terminal 504 (see FIG. 4) of the CPU 501, but the second embodiment In the above, even if the power-off signal is input, the setting of the power-off confirmation information is not performed unless the input mode of the power-off signal satisfies the predetermined condition. As the predetermined condition, it is possible to exemplify the number of times of input of the power interruption signal, the input period, and the like.

  For example, the power failure signal is divided into a first power failure signal and a second power failure signal, and the first power failure signal is similar to the power failure signal of the second embodiment. Then, the first power failure signal is input to the NMI terminal 504 of the CPU 501. On the other hand, the second interruption signal is outputted toward the CPU 501 in response to the output of the first interruption signal, and when the first interruption signal is inputted to the CPU 501, the second interruption signal is the CPU 501. Input to the other input terminal of When the first power-off signal is input to the NMI terminal 504, the CPU 501 completes the command being executed at that time in the same manner as in the second embodiment, and then the predetermined address defined on the control program (here, The control process is jumped to the address H). Furthermore, the CPU 501 monitors the number of times of input of the second power failure signal, and if the number of times of input reaches, for example, five times, the setting of the power failure confirmation information according to the contents after the above-mentioned predetermined address (0066H) Run.

  Even when the second power failure signal is not input five times or more, the CPU 501 shifts the control processing to the above-described predetermined address (0066H) as the first power failure signal is input to the NMI terminal 504. Let However, although the transition to the predetermined address is performed, no other control process for preparing for the power failure is performed, and the setting of the power failure confirmation information is not executed. After the transition to the above-described predetermined address (0066H), the process returns to, for example, the control process during the game progress interrupt process before the transition. That is, even if the input mode of the second power failure signal does not satisfy the predetermined condition, the control processing temporarily shifts to the predetermined address (0066H), but the control processing for setting of the power failure confirmation information and the like thereafter is not performed It returns to the control processing before migration without performing.

The number of times of input of the second power failure signal is added each time the game progress interrupt processing is repeated. That is, in the present embodiment, it is determined that the predetermined condition is satisfied when the input of the second power failure signal is repeated over the five game progress interrupt processes.

  According to the second embodiment, even if the NMI terminal 504 receives a signal input due to the influence of noise or the like when the power supply voltage is not lowered, the power failure confirmation information is generated only due to the signal input. Can be prevented from being set. Therefore, it is possible to prevent the power-off process from being performed erroneously in a situation where it is not necessary to shut down the power supply and not to shut it off. Furthermore, as in the present embodiment, after the control process is shifted to a predetermined address, the process is immediately terminated without setting the power-off confirmation information, whereby the first power-off signal is accompanied by the input. It is possible to set more reliable power-off confirmation information while using the non-maskable interrupt function.

  That is, CPUs used for various control boards of gaming machines generally have the function of NMI, which is a hardware interrupt, and the CPU has an input terminal for the NMI function and an electronic circuit portion (logic Circuit is included). However, when performing control processing that ignores the signal input to NMI terminal 504, a design change for deleting the function of NMI is required in program and circuit design. . Also, when taking measures such as not using the NMI terminal or the electronic circuit portion for the NMI without using them, for example, grounding it, the unused terminals (or unused terminals or functions) It may be possible that it will remain and be used for fraud. On the other hand, as in the present embodiment, by adopting a configuration in which the control process is shifted to a predetermined address (0066H) when the first interruption signal is input to NMI terminal 504, the NMI function can be realized. It is possible to take measures against noise and the like while minimizing the design change of the main substrate 102 while using the configuration without deleting the configuration.

In the present embodiment, although five inputs are defined as the predetermined conditions to be satisfied by the input mode of the second power interruption signal, the present invention is not limited to this, and the number of times other than five is determined. May be set. Further, the number of times is not limited to the predetermined number, and for example, an input over a predetermined period may be set as a condition. Furthermore, in order to generate the second interruption signal, the signal path of the first interruption signal is branched and directly input to the CPU 501, or the branch signal of the first interruption signal is input to the switching circuit. And so on. Further, it is desirable that the first power interruption signal and the second power interruption signal be input to the CPU 501 in synchronization, but the second power interruption signal is delayed within the range in which the effects of this embodiment can be achieved. A configuration may be adopted. Furthermore, although the number of times of input of the second power-off signal is assumed to be added each time the game progress interrupt process is repeated, the present invention is not limited to this, and for example, multiple times during one game progress interrupt process The number of times of the predetermined condition may be counted based on the matter that can be counted.
<Application to enclosed game machine>

  In addition, the present invention is a pachinko gaming machine in which the gaming ball as the gaming medium acquired by the player is directly paid out to the player as described above so that the player can touch the winning ball. For example, the present invention can be applied to, for example, an enclosed circulation-type pachinko gaming machine. The following can be illustrated as an enclosed circulation type pachinko machine. The same parts as those of the pachinko gaming machine 10 of the above-described embodiment will be described with the same reference numerals.

That is, the enclosed circulation-type pachinko game machine encloses a game ball as a game medium inside, and the player operates the launch handle 17 to drive the launch motor of the launch device to set the enclosed sphere 1 The game is configured such that a game can be made by hitting the game area 52 on the front of the game board 50 one by one. As the configuration of the game area 52, a configuration similar to that of a pachinko gaming machine of a type that delivers gaming balls to a player like the pachinko gaming machine 10 described above can be adopted. Furthermore, since it is not necessary to hand over the gaming balls to the player, the upper bowl plate 15 and the lower bowl plate 1 for temporarily storing the gaming balls
The configuration such as 6 may not be necessary.

  The game balls that have won in the game area 52 and the game balls that have not won are guided to a ball collection bag formed on the set base 39 and are transported by a transportation device (not shown). The lift device incorporates a lift screw that is rotated by a lift motor, and when the lift screw rotates, a pachinko ball (game ball) is lifted. A polishing member for polishing the pachinko balls by contacting the pachinko balls in the process of pumping is provided on the back of the pumping device, and while the pachinko balls are pumped, the surface is polished.

  Detection switches for gaming balls are provided on the ball inlet side (lower side) and the ball outlet side (upper side) of the lift device, and these detection switches detect the pachinko balls to be lifted. A ball launcher is provided in the vicinity of the ball discharge port of the lift device, and the game ball detected by the (upper side) detection switch after the lift is supplied to the ball launch device by the ball feed device. . The ball feeding device has a function of feeding the next game ball to the hit ball shooting position every time the player operates the shooting handle 17 to hit the game ball one shot. Further, a game ball excess / minimity detection switch is provided in the middle of the circulation path of the game balls, and it is detected whether or not the number of pachinko balls in the circulation path is a predetermined number (for example, 50).

  A card unit (CU) as an example of a gaming apparatus is installed corresponding to the pachinko gaming machine at a side position on a predetermined side of the pachinko gaming machine. This point is the same as the pachinko gaming machine 10 described above. The card unit is issued to a visitor card provided with a prepaid function, which is a game recording medium issued to a general player who is not registered as a member, and a member player who has registered as a member in the game arcade A pachinko game machine that accepts a membership card, which is a game recording medium, and uses the gaming value (for example, the card balance, the number of balls held, the number of stored balls, etc.) owned by the player specified by the recorded information on those cards It has a function to make the enclosed ball in a bullet shot and to be able to play a game. The visitor card and the membership card are constituted by an IC card.

  In this pachinko gaming machine, management of the current holding number is carried out by calculating fluctuations in the number of gaming balls on the pachinko gaming machine side on the card unit side. The pachinko gaming machine also calculates and stores the current number of gaming balls. However, when the number of playing balls reaches 0 on the pachinko gaming machine, the pachinko gaming machine can hit the ball quickly and quickly. It is a secondary thing that is used only to perform the control to stop. By doing this, the main management function regarding the number of gaming balls on the pachinko gaming machine side is given to the card unit side to reduce the cost on the pachinko gaming machine side, and the running cost of the game arcade introducing the enclosed game machine Can be reduced.

  When the pachinko game machine and the CU are installed in the game arcade and power is turned on for the first time in the electrically connected state, the payout control board on the pachinko game machine side sends the main chip ID from the main board. The main chip ID is sent to the CU side, and the payout chip ID stored in the payout control board itself is sent to the card unit side. On the card unit side, the main chip ID and the payout chip ID transmitted are stored. Next, data of the connection time, that is, the time when the card unit side and the pachinko gaming machine side are connected and communication is started is transmitted from the card unit side to the pachinko gaming machine side, and transmitted on the pachinko gaming machine side Remember the connection time.

  Thereafter, when the power is turned on, the pachinko gaming machine side transmits the three pieces of information, that is, the main chip ID, the payout chip ID, and the previous connection time data, to the card unit side.

  The card unit side collates the transmitted data with the already stored data, and determines whether or not the same pachinko game machine as the previous one is connected. As for connection time data, every time the power is turned on, new connection time data at which communication between the card unit and the pachinko gaming machine is started is transmitted from the card unit to the pachinko gaming machine and the new connection time data is updated. Connection time data will be stored on the pachinko gaming machine side.

  From the card unit to the pachinko gaming machine, transmission of a main chip ID or the like is requested to the pachinko gaming machine, and from the pachinko gaming machine, the main chip ID or the like is transmitted to the card unit. Further, the card unit requests authentication for the pachinko gaming machine, and the pachinko gaming machine notifies the card unit of acceptance of the authentication request from the card unit. Further, transmission of recovery information is requested from the card unit to the pachinko gaming machine, and the recovery information held by the pachinko gaming machine is transmitted from the pachinko gaming machine to the card unit. Subsequently, the card unit notifies the pachinko gaming machine of the connected state to the pachinko gaming machine, and the pachinko gaming machine notifies the card unit of the connected state. The card unit also requests the Pachinko game machine to clear recovery information and backup connection ID (communication start time), and the pachinko game machine clears the recovery information to the card unit, connection ID (communication The end of backup of the start time) is notified.

  In addition, various (game operations) are instructed from the card unit to the pachinko gaming machine, and transmission of gaming machine information (addition / subtraction data etc.) is requested. The card unit uses this command to periodically check the state of the game console. From the pachinko gaming machine to the card unit, the execution result of the game operation instruction and the game table information (addition / subtraction data etc.) are notified. From the card unit to the pachinko gaming machine, a command for requesting connection of the communication connection is transmitted.

  In addition, when it is detected that the game ball has run out while playing a game with the pachinko game machine, the payout control board automatically stops the driving of the hit ball firing motor to hit the ball in the game area It controls to the game prohibition state which can not be done. It should be noted that the variable display is continued if the variable display device is already displaying the variable display only at the stage where the batting launch is stopped. Further, if there is a memory of the number of holding balls of the first start winning opening 62 and the second starting winning opening 63 at the stage of performing the firing stop control, the variable display control of the variable display device based on the storage is continued. .

  Although the main control of the number of game balls is performed in the card unit, the pachinko game machine side is performed only when performing game prohibition control (fire stop control) accompanying the game ball number becoming 0 in the pachinko game machine. It is determined that the number of game balls has become 0, and game prohibition control (fire stop control) is performed. Thereafter, as an operation response, final ball related information is transmitted to the card unit, and the final number of game balls "0" is determined on the card unit side. The reason for this control is that the pachinko gaming machine side needs to perform a control to stop hitting the ball at the moment when the number of game balls becomes zero.

For example, on the card unit that is mainly managing the number of gaming balls, the response of the operation response including the number of added balls and the number of subtracted balls when the number of gaming balls sent from the pachinko gaming machine becomes 0 = 0. Waiting for reception, the final number of game balls is calculated on the card unit side and becomes 0, thereby transmitting a command of an operation instruction having a prohibition request for prohibiting the game to the pachinko game machine side, In the event that the pachinko gaming machine side receives a trigger for the first time and performs strike control to stop firing, the pachinko ball may be shot and fired during response / command transmission and reception, and a new subtraction ball number may be generated during that time. In the pachinko gaming machine side, even though the number of gaming balls is already "0", a new number of subtracted balls is generated and eventually the number of gaming balls becomes negative. Inconvenience say occurs. In order to prevent such a disadvantage, control is performed based on the number of game balls on the pachinko gaming machine side only when the number of game balls has reached 0, that is, the control for stopping the ball firing and stopping.

  As described above, since the game control represented by the hit firing stop control is performed based on the number of gaming balls stored in the pachinko gaming machine itself, it is based on the number of gaming balls managed and stored in the card unit. Compared to the case of performing such game control, game control in accordance with the variation of the number of game balls can be performed in real time.

  Here, although an example is shown in which the payout control board performs the hitting and firing stop control, the main board may be configured to perform the hitting and firing stop control. In this case, for example, the payout control board transmits, to the main board, a signal indicating that the number of gaming balls is zero when the number of gaming balls is determined. The main board receives this signal and prohibits the drive of the firing motor.

  Such game prohibition processing by the card unit is also executed when the front frame 12 or the door 14 is opened, or when the player performs an operation of returning various cards. In the case of pachinko gaming machines, it is possible to respond to denial refusal, and in the situation where it is not possible to follow the instruction of the card unit due to some circumstances such as abnormality, for example, the front frame 12 or the door 14 can not be opened, This prohibition refusal response is sent to the card unit. The game prohibition includes not only the driving of the firing motor but also other game matters such as ball lending.

  In addition, in such a sealed circulation type pachinko gaming machine, ball lending is not performed every predetermined amount of money (for example, 500 yen or 1000 yen), but is performed collectively for the amount charged (for example, 10000 yen). It is also possible. Since it is not necessary to hand over the game ball to the player, adaptation to such a ball rental form can be easily performed.

  In the present invention, it is possible to comprehensively grasp as a pachinko gaming machine including a form in which a card unit is attached.

10 pachinko game machine, 50 game board, 52 game area, 62 first start winning opening,
63 2nd start winning opening, 91 1st big winning opening, 92 2nd big winning opening, 102 main board,
113 first success or failure judgment means, 117 second success or failure judgment means, 126 first lottery means,
128 second lottery means, 132 effect determination means, 136 common drawing lottery means,
192 first special symbol, 193 second special symbol, 301 sub main board,
501 CPU.

Claims (1)

Main control means to control the game,
And a production control unit connected communicably to the main control unit and performing control processing according to a production control command related to a production from the main control unit,
It is possible to perform a big hit lottery in the game progress interrupt process based on the fact that the game medium ejected to the game area has flowed down the game area and passed through the predetermined start area,
It is a pachinko game machine that executes a special game that is more advantageous to the player than usual when it is the big hit,
The main control means
16 bit random number generating means and 8 bit random number generating means,
Of the 16-bit random number generation means and the 8-bit random number generation means, only the 16-bit random number generation means is used,
When the power of the pachinko gaming machine is turned on, after the initial setting of both the 16-bit random number generation unit and the 8-bit random number generation unit, the security mode is set to perform a predetermined security check.
In the security mode, the user mode is entered when a predetermined security mode time, a fixed extension time for waiting for a predetermined period to elapse, a random extension time for waiting for a random period to elapse, and a predetermined predetermined time have elapsed. Migrate
Execute control start processing and game progress interrupt processing that is executed in a predetermined cycle for game progress.
When it is determined that a predetermined error has occurred, error information relating to the predetermined error is set,
The power-off confirmation information is set to indicate that the power is turned off when the voltage supplied to the pachinko gaming machine becomes lower than a predetermined value.
When the control start process is started, in the control start process,
Clear the error information,
When it is determined that the power-off confirmation information is set, the power-off processing for the power-off is executed.
If the voltage falls below a predetermined value during the security mode,
The pachinko gaming machine characterized in that the security check is completed while the voltage falls below a value necessary for the operation of the main control means.

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