JP5725591B1 - Pachinko machine - Google Patents

Abstract

A pachinko gaming machine capable of smooth display control is provided. A power supply board 251 that supplies power necessary for a game, a power failure monitoring circuit unit 506 that executes power supply control related to power supply from the power supply board 251, a main board 301 that controls the game, and a main board A sub-main board 301 that can receive a main command from the sub-main board 301 and a sub-sub board 302 that is communicably connected to the sub-main board 301 and can receive a sub-main command from the sub-main board 301. Is executed after the sub-sub initial setting process started with the start of power supply, and is executed by the main process for performing the main loop process after the interrupt is permitted and the interrupt according to the reception of the sub-main command transmitted from the sub-main board 301. The sub main command reception process can be executed. To start on the basis of the reception of the command. [Selection] Figure 20

Description

  The present invention relates to a pachinko gaming machine that uses a game ball as a game medium.

Generally, pachinko gaming machines are provided with a main control board that controls the game and a sub-control board that performs control processing based on commands from the main control board. And among these, as a sub control board, a payout control board, an effect control board, various display control boards, an electric decoration control board, an acoustic control board, etc. can be illustrated. In this type of pachinko gaming machine, a command is transmitted from the effect control board to the display control board, and the display control board controls the liquid crystal display device and the like (see paragraph 0046 of Patent Document 1). ).
JP 2008-295916 A

  By the way, in the pachinko gaming machine of the type provided with the main control board, the production control board, and the display control board as described above, in order to smoothly perform various production displays, control processing on various control boards is performed. It is necessary to reduce the burden as much as possible so that commands can be transmitted and received between the control boards and image data can be handled quickly on the display control board.

  The present invention has been made in view of these problems, and an object thereof is to provide a pachinko gaming machine capable of smooth display control.

In order to solve the above problems, the present invention is capable of communicating with power supply means (power supply board, etc.) for supplying power necessary for a game, main control means (main board, etc.) that govern the game, and the main control means. Production control means (such as a sub-board) that performs control processing in accordance with a main control command (such as a main command) from the main control means,
It is arranged in a game area formed on the game board, and has a start opening and a big prize opening through which a game medium flowing down the game area can enter,
The special winning hole is varied to permit ball entrance difficult closed and ball entrance easy Hirakijo state, the closed state as an initial state,
The main control means includes
Performing a control start process accompanying the start of the supply of power and a game progress interrupt process executed at a predetermined cycle for the progress of the game,
Predetermined conditions (such as power-off confirmation information set) relating to power-off information (such as a power failure signal) indicating that the main control means becomes inoperable when the power falls below a predetermined value are established Then power off processing is executed,
When the main control unit becomes inoperable, at least operation state information indicating an operation state related to the big prize opening is stored,
When power supply is started by the power supply means, it is determined whether or not to perform power initialization without performing information initialization (such as RWM clear) that initializes the operation state information, or to perform power initialization that performs the information initialization. Return state determination processing (S6, S8, etc.) for
When the power is to be restored without performing the information initialization, based on the operation state information, a restart preparation process (S9 to S17, etc.) for returning the special winning opening to the operation state based on the operation state information is performed. Run,
In the case where the information initialization is to be performed for power recovery, an initialization control process for information initialization (S24, S25, etc.) and a provision for the game progress interrupt process after the initialization control process An interrupt preparation process (S26, etc.) and a cyclic process (S33, etc.) waiting for an interrupt by the game progress interrupt process are executed,
Based on the fact that the game medium has entered the start opening, at least a random number for the big hit lottery and a random number for the fluctuation pattern lottery related to the display of the result of the big hit lottery are obtained, and predetermined fluctuation start conditions When is established, the jackpot lottery and the variation pattern lottery are performed, the special symbol is variably displayed based on the variation pattern based on the variation pattern lottery result, the special symbol is stopped and displayed based on the result of the jackpot lottery,
The production control means includes
A first effect control means (such as a sub-main board) that can receive the main control command from the main control means, and a first effect control means that are communicably connected to the first effect control means. Second effect control means (such as a sub-sub board) capable of receiving an effect command (such as a sub-main command),
The first effect control means includes:
A first effect control initial setting process that is started with the start of power supply, a first effect control main loop process (circulation process after S124) that is started after interrupt permission (such as S122), and the main control command When the main control command reception process, which is an interrupt process executed upon reception, and a predetermined first effect command transmission condition (such as occurrence of a sub-communication interrupt with a predetermined period) are established, the second effect control means A first effect command transmission process for transmitting the first effect command,
The second effect control means includes:
ROM (character ROM or the like) storing image data before development for image display based on the first effect command, video memory for developing the image data stored in the ROM , and ROM Image display control means (sub-sub board CPU, VDP, etc.) for transferring the stored image data to the video memory ,
Connected to display means (such as a liquid crystal unit) for displaying the image data developed in the video memory ;
The image data includes design image data which is image data of a decorative design used for effects related to the variation pattern,
The decorative design is displayed in a variable manner and stopped by the display means based on the variation pattern,
The symbol image data can be displayed with a plurality of different transparency levels when displayed on the display means,
The transparency can be set in a plurality of locations of the symbol image data,
The ROM stores, as the symbol image data, first symbol image data and second symbol image data having the same meaning as the first symbol image data and having a smaller data amount than the first symbol image data. And
The first symbol image data is displayed when the transparency changing conditions (the symbol variation speed has changed, the symbol variation time has reached a predetermined value, etc.) are satisfied during the decorative symbol variation display. In the pachinko gaming machine that displays the variation of the decorative design by switching to the second design image data from
The second effect control means includes:
The second effect control initial setting process that is started when the power supply is started, the second effect control main loop process that is started after the permission of the interruption, and the first effect command transmitted from the first effect control means A first production command reception process that is an interrupt process that is executed upon reception of
In the second effect control initial setting process, a part of the image data is transferred from the ROM to the video memory ,
The pachinko gaming machine is characterized in that the decorative symbol variation display is executed based on reception of the first effect command.

  According to the present invention, a pachinko gaming machine capable of smooth display control can be provided.

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 which shows the functional block of a pachinko gaming machine. It is explanatory drawing which shows the main board | substrate structures of a pachinko game machine. It is explanatory drawing which shows the basic composition of a main board | substrate. It is explanatory drawing which shows the functional structure of a sub main board | substrate and a sub sub board | substrate. (A) is an explanatory diagram showing a display device such as a special symbol, (b1) is an explanatory diagram showing a display example of a decorative symbol in the effect symbol display device during a change, and (b2) is a display example when the decorative symbol is stopped. It is explanatory drawing shown. It is a figure which shows typically a success / failure determination table. (A) is a diagram schematically showing a symbol determination table related to the first lottery, (b) is a diagram schematically showing a symbol determination table related to the second lottery, and (c) is related to a limited variation pattern effect. The figure which shows a symbol determination table typically, (d) is a figure which shows the symbol determination table concerning a small hit typically. It is a figure which shows a fluctuation pattern table typically. It is a figure which shows the fluctuation pattern table for detachment in detail. It is a flowchart which shows the control start process in a main board | substrate. It is a flowchart which shows the control start process following FIG. It is a flowchart which shows the game progress interruption process in a main board | substrate. (A) is a chart showing an initial value random number update table, and (b) is a chart showing an 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 required time in a main board | substrate. It is a flowchart which shows the submain initial setting process in a submain board | substrate. It is a flowchart which shows the main process in a sub main board | substrate. It is a flowchart which shows the main command reception process in a sub main board | substrate. It is a flowchart which shows the timer interruption process in a sub main board | substrate. It is a timing chart which shows the reset operation | movement with respect to a sub sub board | substrate from a sub main board | substrate. (A) is explanatory drawing which shows the structure of the image of 1 frame, (b) is explanatory drawing which shows the structure of the image of a decoration symbol. (A) is explanatory drawing which shows the outline | summary of the image display control system in one Example of this invention, (b) is explanatory drawing which shows the data structure of the video memory in a general image display control system. It is explanatory drawing which shows an example of the setting aspect which concerns on the transparency of an image.

Hereinafter, a pachinko gaming machine which is a gaming machine according to an embodiment (first 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 type 1 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 executed simultaneously. In order to achieve both of these game characteristics, the pachinko gaming machine according to 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.
<Summary of front configuration and game characteristics of pachinko machines>

  FIG. 1 shows a basic structure on the front side of a pachinko gaming machine. The pachinko gaming machine 10 is mainly composed of 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 dish 15, a lower ball dish 16, and a launch handle 17. The outer frame 11 has an opening and is a frame for fixing the pachinko gaming machine 10 to a position where it should be installed. The front frame 12 is a frame body that aligns with the opening portion of the outer frame 11, and is attached to the outer frame 11 so as to be opened and closed by a hinge mechanism (not shown). The front frame 12 includes a mechanism for launching a game ball as a game medium, a mechanism for detachably storing a game board, a mechanism for guiding or collecting the game ball, and the like.

  The transparent plate 13 is made of glass or the like and is supported by the door 14. The door 14 is attached to the front frame 12 so as to be openable and closable by a hinge mechanism (not shown). The upper ball tray 15 is provided in the tray unit 200, and has mechanisms such as storage of game balls, delivery of game balls to the launch rail, and extraction of game balls to the lower ball tray 16. The lower ball tray 16 is also provided in the tray unit 200 and has mechanisms for storing and extracting game balls. The lower front plate 18 positioned below the lower ball tray 16 is provided with a plurality of speakers 19 for outputting BGM, various sound effects, and the like according to the gaming state and effect pattern.

  The game board 50 has an out port 58, an effect symbol display device 60, a first start winning port 62, and a second starting winning port 63 on a game area 52 defined by an outer rail and an inner rail hidden behind the door 14. , Center ornament 64, first grand prize opening 91, second major prize opening 92, operation opening 68, and general prize opening 72. Furthermore, in the game area 52, a number of game nails, windmills, and the like (not shown) are installed.

  In addition, a special symbol display device 53 is installed in the lower left part of the game area 52 as viewed from the front, and the special symbol display device 53 has, as shown in FIG. 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. It is done. The first start winning opening 62 includes a start winning detection device 74. The start winning detection device 74 is a sensor that detects the entrance of a game ball into the first start winning opening 62, and generates (outputs) first start winning information indicating the winning at the time of entering. The second start winning opening 63 includes a start winning detection device 75, a normal electric accessory (so-called “electric tulip”, not shown), and a normal electric accessory solenoid 76 for opening and closing the normal electric accessory. The start winning detection device 75 is a sensor that detects the entry of a game ball into the second start winning opening 63, and generates (outputs) second start winning information indicating the winning at the time of entering. When the ordinary electric combination is expanded by the driving force of the ordinary electric combination solenoid 76, a so-called electric chew support is provided, and the ease of entering the second start winning prize port 63 is enhanced.

  Note that the second start winning opening 63 is provided below the first starting winning opening 62, that is, at a position where the first start winning opening 62 prevents the game ball from entering. Therefore, while the ordinary electric accessory is not expanded, the entry to the second start winning opening 63 is hindered by the first start winning opening 62, and the second start winning opening 63 is in a state where it is difficult to enter the ball. Maintained. Therefore, in order to aim at entering the second start winning opening 63 in the game, it is necessary to expand the ordinary electric accessory. In this embodiment, as a result of the expansion of the ordinary electric accessory, the ease of entering the second start winning opening 63 is higher than the ease of entering the first start winning opening 62. However, what is necessary is just to set suitably according to the profit etc. which are obtained as a result of a 1st game and a 2nd game, and the structure which does not enter at all when a normal electric accessory is not expanded, or the 1st start winning opening 62 You may make it have the same opening width as.

  The general winning opening 72 includes a plurality of general winning detecting devices 73 (see the block diagram of FIG. 3) for detecting the entering of game balls. The general winning detection device 73 is a sensor that detects the entry of a game ball into the general winning opening 72, and generates (outputs) general winning information indicating the winning at the time of winning. The general winning detection device 73 may be individually provided for the general winning opening, or may collect and detect the game balls that have entered the plurality of general winning openings 72, or Depending on the arrangement position (up and down, left and right) of the general winning opening and the number of prize balls set (5 prize balls and 10 prize balls), they may be grouped and detected as appropriate.

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

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

  The first big 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) stops in a predetermined manner. The first grand prize winning port 91 is provided at a position above the out port 58. The second big winning opening 92 is a horizontal rectangular winning opening that is opened as a “big hit” when the second special symbol 193 stops in a predetermined manner. The second grand prize winning port 92 is provided at a position on the upper right side of the out port 58.

  In this embodiment, decorative plates 91b and 92b are respectively provided in front of the first grand prize winning port 91 and the second grand prize winning port 92, and each decorative plate is used for decorating 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 big winning opening 91, and the second big winning opening 92. However, the decorative plates 91b and 92b may be opaque. In addition, the first grand prize winning port 91 and the second grand prize winning port 92 may be used in common by arranging only one grand prize winning port (for example, the first grand prize winning port 91).

  An effect symbol display device 60 is provided substantially at the center of the game area 52, and a first special symbol display device 70 corresponding to the first game and a second special symbol display device corresponding to the second game are separated to the lower 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 variation of the first special symbol 192 corresponding to the first game, and the second special symbol display device 71 displays the variation of 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 when the game ball enters the first start winning opening 62, and its variable display is stopped in a predetermined hit state. A big hit occurs and a special game (described later) is executed. The second special symbol 193 is a symbol corresponding to the result of the second lottery performed when the game ball enters the second start winning opening 63, and its variable display is stopped in a predetermined hit mode. A big hit occurs and 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 with dots added at the lower right corner. The first special symbol display 192 and the second special symbol display 193 are Each of them is represented by 10 numbers “0” to “8”, a symbol α, and a symbol β.

  Symbols α and β indicate lighting patterns that can be displayed by a segment combination of 7-segment LEDs, and the patterns themselves are not arranged with meanings such as characters. In the present specification, such a pattern is referred to as “symbol” for the sake of convenience, and is denoted as “symbol α” or “symbol β” in order to distinguish the type. Incidentally, on the right side of the second special symbol in FIG. 7A, a round number display device (not shown in the figure) indicating the number of unit games in the special game is provided as a two-digit 7-segment LED, which will be described later. According to the occurrence of the first or second special game, the number of rounds of both special games is displayed in common.

  Here, the 1st special symbol display apparatus 70 and the 2nd special symbol display apparatus 71 are not limited to the above-mentioned thing, For example, you may comprise by a plurality (for example, 8 pieces) of LED indicator lights. In this case, the first special symbol 192 and the second special symbol 193 are all turned on by selectively lighting a plurality of LED indicator lights in a manner associated with a large number of values such as “0” to “100” in advance. It can be represented by a numerical value.

  As shown in FIGS. 7B1 and 7B2, in the display area 194 of the effect symbol display device 60, the left decorative symbol 190a linked to the first special symbol 192 and the second special symbol 193, and the decorative symbol 190b therein. The variation of the decorative pattern 190c on the right is displayed. The effect symbol display device 60 is, for example, a liquid crystal display. The decorative symbols 190a to 190c are symbols for visually producing the first lottery result display shown by the first special symbol 192 or the second lottery result display shown by the second special symbol 193. The effect symbol display device 60 displays, as the decorative symbols 190 a to 190 c, for example, a plurality of rows of symbol variation moving images simulating a game of a slot machine in the display area 194.

  The effect symbol display device 60 is configured by a liquid crystal display in this embodiment, but may be a display means using other display elements. Since the first special symbol 192 and the second special symbol 193 do not necessarily have a role of production, in the present embodiment, the first special symbol display device 70 and the second special symbol display device 70 at the lower left of the production symbol display device 60 are used. Although the special symbol display device 71 displays an inconspicuous size, the special symbol may be displayed on a liquid crystal display such as the effect symbol display device 60. In this embodiment, the decorative symbols 190a to 190c are commonly used in the first special symbol 192 and the second special symbol 193 in the effect symbol display device 60, but are individually displayed. Alternatively, the device itself may be provided separately, and when it is shared as in this embodiment, a display indicating which special symbol is displayed is displayed at the corner of the effect symbol display device 60. Also good.

  The operation port 68 is provided at a position on the right side of the game board 50 and at an upper right position of the second grand prize winning port 92. The operation port 68 includes a passage detection device 69 (see FIG. 3). The passage detection device 69 is a sensor that detects the passage of the game ball to the operation port 68, and generates (outputs) passage information indicating the passage at the time of passage. The passing of the game ball to the operation port 68 triggers a lottery for expanding the ordinary electric accessory of the second start winning prize port 63.

  When the player rotates the launch handle 17 by hand, the game balls stored in the upper ball tray 15 with the strength according to the rotation angle are guided one by one to the inner rail and the outer rail to the game area 52. Fired. When the player fixes the rotation position of the launch handle 17 by hand, the launch of the game ball is repeated at regular time intervals. The game ball launched to the upper part of the game area 52 falls in a direction according to the way of hitting while hitting a plurality of game nails and windmills. When a game ball falls into each 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 determined. The corresponding prize ball is paid out to the upper ball tray 15 or the lower ball tray 16. A game ball dropped into each winning hole such as the general winning hole 72 is processed as a safe ball, and a game ball dropped into the out hole 58 is processed as an out ball. Each winning opening includes a gate type through which a game ball passes. In this application, “incoming”, “entering”, and “winning” include “passing”.

  When the game ball enters the first start winning opening 62, the first special symbol 192 is variably displayed on the first special symbol display device 70, and the decorative symbols 190a to 190c are variably displayed on the display area 194 of the effect symbol display device 60. Is 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. 7B1). 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 variable time determined prior to display (see FIG. 7 (b2)). When the first special symbol 192 and the decorative symbols 190a to 190c at the time of the stop are in a big hit mode, the game shifts to a special game that is more advantageous to the player than the normal game, and the opening / closing operation of the first grand prize winning port 91 is performed. Is started. At this time, the decorative symbols 190a to 190c simulating a game of a slot machine take a display mode in which three symbols are matched. When the second special symbol 193 and the decorative symbols 190a to 190c at the time of the stop are in a big hit mode, the game shifts to a special game that is more advantageous to the player than the normal game, and the opening / closing operation of the second big prize opening 92 Is started.

  The special game is a game in which the unit game in which the first grand prize port 91 or the second grand prize port 92 is opened is repeated a plurality of times, and the unit game is repeated a maximum of 16 times (16R (round)). There are a game and a special game in which a unit game is repeated four times (4R (round)), which is the minimum number of times. In addition, depending on the type of jackpot, a plurality of modes are set for each of a special game for 16 unit games and a special game for four unit games. The mode of special games will be described later.

  When the first special symbol 192 and the decorative symbols 190a to 190c at the time of the stop are in a predetermined small hit state, the game shifts to a small hit game, and the opening / closing operation of the first big winning opening 91 is executed. When the second special symbol 193 and the decorative symbols 190a to 190c at the time of the stop are in the small hit mode, the game also shifts to the small hit game, and the opening / closing operation of the second big winning opening 92 is executed. In the small hit game of the pachinko gaming machine 10 according to the present embodiment, the first grand prize winning opening 91 or the second big winning prize opening 92 repeats the opening for about 0.2 seconds four times, so that some of the 4Rs are externally displayed. It becomes the operation mode similar to the big hit. As for the small hit game, a plurality of small hit types may be provided as in the special game described above, and variations may be provided in the large winning opening to be opened, the number of times of opening in one unit game, and the opening pattern. The decision can be made based on the special symbol that is a small hit, or by individual lottery, as in the method for determining the type of special game. In addition, among a plurality of modes as types, it is also possible to provide a part of an open pattern that can be easily distinguished from the appearance as being a small hit, thereby expanding game play.

  When a special game occurs and a predetermined condition such as a lottery is satisfied, after the end of the special game, as a specific game, a probability variation game (hereinafter referred to as “probability variation”) or a variable time reduction game (hereinafter “time reduction”) ") Is started. During the probability change, a lottery with a higher probability of jackpot than the normal probability state is performed, and a new special game is generated relatively early. In this embodiment, the probability variation state is continued until the first special symbol 192 or the second special symbol 193 is a big hit. In either case of 16R big hit or 4R big hit, there is a case where the probability change is not started after the end of the special game. During the time reduction, the fluctuation time of the first special symbol 192 or the second special symbol 193 is substantially shortened.

  During the time shortening of the first special symbol 192, the second special symbol 193, and the decorative symbols 190a to 190c, the easy entry state, which is one of the specific games, is performed. At this time, the easy entry state is that the normal symbol (to be described later) shortens the time, the probability variation of the open lottery, and the opening of the ordinary electric accessory is extended, thereby making it easy to enter the second start winning opening 63. Is a state that can be enhanced. The normal symbol time reduction is a state in which the variation time of the normal symbol is shortened from the normal state. The probability variation of the open lottery is a state in which the winning probability of the open lottery is higher than the normal state. The opening extension of the ordinary electric accessory is a state in which the opening time of the ordinary electric accessory is longer than the normal state. As described above, in the easy entry state, the possibility that the number of fluctuations of the normal symbol per certain time increases as compared to the normal state increases, and the ease of entering the second start winning opening 63 also increases. There is a high possibility that the number of balls entering the 2-start winning prize opening 63 will increase. Therefore, the first special symbol 192, the second special symbol 193, and the decorative symbols 190a to 190c have a short time and easy entry, so that there is an opportunity to obtain a prize ball by entering the second start winning opening 63 during that period. As a result of the increase, it becomes possible to continue to play the game with almost no decrease in possession.

  In the present embodiment, the easy entry state during the short time is that the ball enters the second start winning opening 63 using the three functions of the normal symbol time, the probability variation of the open lottery, and the open extension of the normal electric accessory. Increase ease. However, as a modified example, it is possible to use one or two of these three functions to increase the ease of entering the second start winning opening 63. Thus, even if only a part of the three functions is used, it is possible to improve the ease of entering the second start winning prize port 63. Moreover, it is good also as a structure which switches according to a gaming state at least any one of three functions by the period to implement and the period which does not implement.

  Also, in this embodiment, when a small hit occurs for the first special symbol 192, a limited variation pattern table (not shown) is referred to as the symbol variation of the first special symbol 192 after the end of the small hit game. . At this time, the limited variation pattern table of the first special symbol 192 is referred to in a different manner depending on which symbol the second special symbol 193 is stopped, and the variation pattern is selected. For example, when the second special symbol 193 is stopped and displayed as the off symbol α, the variation pattern is selected according to the limited frequency table for 10 times as the symbol variation of the first special symbol 192 after the end of the small hit game. In addition, when the second special symbol 193 is stopped and displayed with the off symbol β, the variation pattern is selected according to the limited frequency table for 20 times as the symbol variation of the first special symbol 192 after the end of the small hit game. Thereby, since the special effect can be executed in a different manner depending on which symbol the second special symbol 193 is stopped at, the range of the design of the effect can be widened. Hereinafter, depending on the situation, an effect performed using the limited variation pattern table is referred to as a limited variation pattern effect.

  When the game ball passes through the operation port 68, the symbol called the 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 special symbol display device 53. In this embodiment, the two lamps are alternately lit and extinguished to express the variation display of the normal symbol, and which lamp is the final one. The lottery result of a normal symbol is represented by whether or not it stops with the light on. When the normal symbol variation display stops in a predetermined hit state after the predetermined time has elapsed, the normal electric accessory of the second start winning opening 63 is expanded for a predetermined time. In addition, the term “lamp” in this embodiment has a meaning including LEDs and the like.

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

  The first special figure holding lamp 20 corresponding to the first game is provided above the first special symbol display device 70, and the second special figure holding lamp 21 corresponding to the second game is displayed as the second special symbol display. The universal symbol holding lamp 22 provided above the device 71 and corresponding to the normal symbol variation is provided below the normal symbol display device 59.

  Each of the first special figure hold lamp 20 and the second special figure hold lamp 21 is composed of two lamps, and the lottery value hold for each of the first game and the second game is held depending on the number of lights or the number of blinks. Display a number. The number of lottery values held in the first special figure holding lamp 20 is the number of lottery results won in the first start winning opening 62 during the fluctuation of the first special symbol 192 or during the execution of the special game. Indicates the number of winning balls that have not been executed yet. The number of lottery values held in the second special figure holding lamp 21 is the number of lottery results won in the second start winning opening 63 while any of the second special symbols 193 is changing or during the execution of the special game. Indicates the number of winning balls that have not yet been changed.

  In other words, if the previously performed symbol variation has not ended, the variation start condition is not satisfied, and when the symbol variation ends, the variation start condition is satisfied, and the lottery result stored on hold ( Based on the result of the pending lottery), a new symbol variation will be started. 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 reserved lottery result of the second special symbol 193 are all for the first special symbol 192. It is also a variable start condition that all the pending lottery results have been consumed.

  The regular figure holding lamp 22 is also composed of two lamps, and displays the number of holdings of normal symbol fluctuations depending on the number of lighting or blinking. The number of normal symbol fluctuations held is the number of game balls that have passed through the operation port 68 during the fluctuation of the normal symbol, and indicates the number of normal symbol lotteries for which the fluctuation of the normal symbol has not yet been executed. The operation button 82 is a button operated by the player to input a predetermined instruction on the gaming machine side. The operation button 82 is provided on the outer wall surface of the upper part of the upper ball tray 15 and is located near the center of the upper ball dish 15 in the left-right direction.

  The operation button 82 is operated by the player when the button effect is executed, and exhibits a function of giving the player a feeling that he / she participates in the game effect or the lottery. As the button effect, for example, during the reach effect that is performed in the process of displaying the decorative symbol, “Push”, “Let's hit repeatedly”, “Long press” along with the symbol of the operation button 82 in the display area 194 of the effect symbol display device 60. ”Or a video of an indicator indicating the remaining time is displayed, and when the player operates the operation button 82 in accordance with this, an effect such that the character gives a comment or an ally character attacks the enemy character. There is an effect to perform. In this 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 jackpot related to the reach effect at that time is high, and the operation button 82 If the movable effect members 93 and 94 do not perform a predetermined operation even if the button is operated, the effect may be executed in such a manner that the reliability of the jackpot related to the reach effect at that time is low.

  Although the operation of the operation button 82 is normally disabled, it is a button operation effective period in which the operation of the operation button 82 is enabled during the button production. The button operation effective period is a predetermined time set in advance. It should be noted that the operation button 82 is combined with a vibration motor (not shown) to vibrate the operation button 82, an effect mode in which the operation range of the operation button 82 is expanded and the operation button 82 is projected and retracted, and the operation button It is also possible to execute an effect such that 82 is protruded relatively large.

At the bottom of the display area 194 of the effect symbol display device 60, as shown in FIGS. 7 (b1) and (b2), a first hold number display unit 196 indicating the number of hold of the winning / failing lottery value in the first game, Then, a second hold number display section 197 indicating the number of hold of the success / failure lottery value in the second game is displayed. By the way, with regard to the hold display, when the number of hold of the first game and the second game increases, the display changes sequentially with reference to the left side (left side in FIG. 7A) as seen from each player. The hold display on the first start winning opening 62 side (first game) that wins many times during normal games is displayed on the reference side (left side), and the second start winning port 63 side (second game) that rarely wins during normal games. Is displayed on the right. This is because it can be expected that the player can easily grasp the normal hold state intuitively. Note that a normal decorative symbol corresponding to the display content of the normal symbol display device 59 may be provided separately from the normal symbol display device 59. In this case, for example, the effect symbol display device 60 can be used.
<< Summary of main effects in this embodiment >>

  In the present embodiment, a large number of 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 further combining a selected character or an animation of an item with the selected effect pattern. Furthermore, in the pachinko gaming machine 10, the so-called battle effects are included in the prepared effect patterns. In this battle production, for example, a plurality of characters on the production are divided into the main character side and the enemy character side, and a video showing how the main character and the enemy character fight or fight is displayed. Is.

Further, the battle production includes a “battle success production” in which the main character wins as a result of the battle and a “battle failure production” in which the main character loses. Also, a “latent effect” is provided in many types of effect patterns. Whether this “latent effect” is highly probable without notifying that the effect using the effect symbol display device 60 or the like is being probabilistic even if the winning lottery is being performed with high probability. It is the content that expresses the distinction of whether the probability is normal or not so that it is not perceived by the player. This “latent effect” is typically executed over a variable display of the first special symbol 192 (and decorative symbols 190a to 190c), for example, several tens of times in the game after the end of the special game. Is used.
<< Summary of games with jackpot >>

  When a big hit (per 1st special figure) occurs in the first game, a special game using the first big winning opening 91 is executed. Then, the first grand prize winning opening 91 is opened in a pattern corresponding to the type of jackpot related to the first lottery, and the result regarding the presence / absence of the ball and the amount of the ball to be obtained is obtained. In addition, depending on the type of jackpot that has occurred, the probability change after the end of the special game and the presence or absence of time reduction are determined.

  When the big hit in the first game is not accompanied by a change in probability, in this embodiment, no time is given, and the player continues so-called left-handed, which is a normal launching technique that continues to aim at the first start winning opening 62. To do.

  On the other hand, if the big hit in the first game is a game with probability change (probability change big hit), a game with a right hand is played after the special game, except for some jackpots. That is, after the end of the special game in the first game, an effect that prompts the player to make a right strike is executed by an image or sound on the effect symbol display device 60. Then, when the player increases the turning amount of the launch handle 17 clockwise to increase the launching power and launches the game ball toward the region on the right side of the game region 52, the game ball passing above the center ornament 64 is Then, it enters the game ball passage portion 65 of the center decoration 64 and flows down the center decoration 64. Furthermore, the game ball released from the center ornament 64 falls in a direction corresponding to the way of hitting while hitting a plurality of games and other structures.

  A part of the large number of game balls emitted from the center decoration 64 passes through the operation port 68 (see FIG. 1) and is detected by the passage detection device 69 (see FIG. 3). As described above, when the game ball passes through the operating port 68, the symbol called the normal symbol is variably displayed on the normal symbol display device 59 (see FIGS. 3 and 7A) for a predetermined time. When the symbol variation display stops in a predetermined hit state, the ordinary electric accessory of the second start winning prize opening 63 is expanded for a predetermined time.

  In the present embodiment, the game ball reaching the right side of the game area 52 can be guided to the vicinity of the second start winning opening 63 and the second big winning opening 92 by a nail or the like. When the ordinary electric accessory at the winning opening 63 is expanded once, in many cases, one game ball can enter the second starting winning opening 63 depending on the situation. Yes. Further, in this embodiment, a time reduction is added to the probability variation big hits except for a part, and during the time reduction, the normal electric accessory is opened and extended. Here, when the time is not short, the ordinary electric accessory may be opened. In this case, the opening pattern may be a relatively short time (for example, about 0.5 seconds) or a relatively long time (for example, Various open patterns such as a combination of about 2 to 3 seconds) or a combination thereof can be adopted.

  When the second game big hit (per second special figure) occurs based on the ball entering the second start winning opening 63, a special game using the second big winning opening 92 is executed. Then, the second grand prize winning opening 92 is opened in a pattern corresponding to the type of jackpot related to the second lottery described above, and results regarding the presence / absence of the outgoing ball and the amount of the outgoing ball are obtained. In addition, as described above, the probability change after the end of the special game and the presence or absence of time reduction are determined according to the type of jackpot that has occurred.

In addition, the relations such as jackpot, special game, right handed, short time, electric Chu support etc. are not limited to those described above, for example, right handed during the special game related to 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 related to a normal jackpot without a probability change, and those that give a short time after a special game for a part of a certain probability change big hit.
<Outline of rear and electrical configuration of pachinko machines>

  FIG. 2 shows a 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 game balls is attached to the back of the front frame 12, and a power source is connected to the entire gaming machine below the set base 39. And a payout control board 45 for controlling the gaming machine frame side are attached. Also, on the back of the game board, there is a main board (main control board) 102 that performs overall control of the entire game, and the liquid crystal unit 42 (effect symbol display device 60 based on information received from the main board 102 or information input uniquely. The sub-board 104 that controls the operation of various rendering devices such as) is attached at a position corresponding to the opening of the set base 39.

  The set base 39 is connected to a prize ball tank 44 for storing a prize ball in the upper part thereof, a prize ball passage for rectifying and guiding a game ball stored in the prize ball tank 44, and stored in the prize ball tank 44. The payout unit 43 that can discharge the discharged balls downward in units of one ball, and the game balls that have flowed down from the payout unit 43 as prize balls discharge to the ball tray (upper ball tray 15 or lower ball tray 16). As shown in FIG. 2, the passage is formed and arranged in an inverted L shape from the upper side of the game board to the right side of the rear view, and an opening having an appropriate width is provided at a position corresponding to the center of the rear side of the game board. ing.

  As shown in FIG. 2, the power supply unit 48 is provided on the lower left side of the gaming machine as viewed from the rear, and AC power supplied from the outside of the gaming machine is supplied to the entire gaming machine (a control device including the main board 102 and the sub board 104, and the liquid crystal unit 42). Etc.) are converted, generated and supplied to various voltages used in the production device. On the right side of the power supply unit 48, a power switch 40 composed of a tilt switch for shutting off the power supplied from the power supply unit 48 to each part of the gaming machine is provided so that it does not turn off even if the game ball falls directly. It is provided to turn on when tilted to the side (when the switch is pushed down from the center of the switch).

  As shown in FIG. 2, the payout control board 45 is provided in the lower right side of the gaming machine as viewed from the back. The payout control board 45 mainly controls the payout unit 43 in accordance with an instruction related to payout from the main board 102 or an external lending request. And a firing control function for controlling the launching device so as to launch a game ball to the game area with an intensity corresponding to the amount of operation of the launching handle 17, and a CPU / ROM / RWM (lead An input / output circuit or the like is provided as appropriate mainly with a write memory (hereinafter abbreviated).

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

  The sub-board 104 is integrally provided with the liquid crystal unit 42 at the upper center of the game board as viewed from the rear as shown in FIG. 2, and mainly controls the display content in the liquid crystal unit 42 (the effect symbol display device 60). Similar to the main board 102 and the payout control board 45, a CPU, a ROM, an RWM, and an appropriate input / output circuit are provided. Since the sub-board 104 has a function of controlling an image, in addition to the main CPU for the sub-board, a CPU dedicated to image control for controlling the VDP for images and VDP is also mounted.

The main board 102, the payout control board 45, and the sub board 104 constitute a game control apparatus 100. Details of the main board 102, the payout control board 45, and the sub board 104 will be described later. As for the sub-board 104, a main sub-board (sub-main board 301 in this embodiment) responsible for the main function of effect control and a sub-sub-board specialized for a specific effect function such as image creation (this implementation). In the example, it is divided into a sub-sub board 302), but the term “sub-board” is a general term for these. Details of the sub main board 301 and the sub sub board 302 will be described later. 2 is provided with an external relay terminal board 49 that relays signals from the main board 102, the payout control board 45, and the like to devices outside the pachinko gaming machine 10.
<Outline of main functional blocks and functions of pachinko machines>

  FIG. 3 shows the game control device 100 and the input / output devices for the game control device 100 in the pachinko gaming machine 10 of this embodiment by functional blocks. In the pachinko gaming machine 10, the game control device 100 includes a first start winning port 62, a second starting winning port 63, a first big winning port 91, a second big winning port 92, a general winning port 72, an operating port 68, a first. 1 special symbol display device 70, second special symbol display device 71, production symbol display device 60, normal symbol display device 59, operation button 82, speaker 19, and game effect lamp 90 are electrically connected to each other. Allows transmission and reception of control signals. The game control apparatus 100 controls not only the basic operation of the game, but also staging operations such as symbol variation display and electrical decoration. The game control device 100 includes a main substrate 102 as a main control device that controls the overall operation of the pachinko gaming machine 10 including basic operations of the game and the progress of the game, and a sub substrate as a sub-control device that controls design effects and the like. 104 is configured in such a manner that functions are shared. Note that the payout control board 45 that actually exists as part of the functions of the game control device 100 and the functions of the parts controlled by the payout control board 45 are not different from general ones. The description and explanation will be omitted, and necessary parts will be explained as appropriate.

In addition, configurations (particularly various functional means and functional parts) described as blocks in the block diagram in this embodiment include those corresponding to functions realized by the CPU, ROM, and RWM. ing.
<Details of electrical configuration of pachinko machines>

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

  Here, the power supply board 251 is provided in the power supply unit 48 described above. Although not shown, the payout control board 45 is also connected to a status display unit used for displaying the type of error, a card unit for executing monetary processing related to ball lending and ball lending processing, and the like. . Furthermore, a game ball lending device connection terminal board is connected to a ball operation board (not shown) used for ball operation. A touch switch (not shown) of a launching device, a firing stop switch (not shown), and the like are connected to the handle connection board 253. In addition to the symbol display board 256, the game board connection board 254 includes the above-described passage detection device 69, the ordinary electric accessory solenoid 76, the winning detection device 78 of the first big winning opening 91, the big winning opening solenoid 80, A winning detection device 79 for the two major winning ports 92, a large winning port solenoid 81, a general winning detection device 73, a magnetic sensor, a radio wave sensor (not shown), and the like are connected. Further, the symbol display board 256 is provided in the above-described special symbol display device 53, and the symbol display board 256 is provided with a first special symbol display device 70 and a second special symbol display device 71. ing.

  The effect interface A board described above relays the main board 102 and other devices, and the effect interface A board is connected to the sub board 104 and the effect interface B board (not shown). Further, the liquid crystal unit 42 is connected to the sub-board 104.

  The effect interface B board relays the effect interface A board or the sub board 104 and other devices. Although not shown, the effect interface B board is a plastic frame connection board and various frame illuminations. A board, 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.

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

  Next, the configuration of the power supply board 251 and the main board 102 will be described. As shown in FIG. 4, a CPU 501 as a one-chip microcomputer that is an arithmetic device is mounted on the main board 102. The CPU 501 includes a ROM 502 that stores various control programs executed by the CPU 501 and fixed value data, and a memory that temporarily stores various data when the control program stored in the ROM 502 is executed. In addition, a certain RWM 503 and various circuits (not shown) such as an interrupt circuit, a timer circuit, and a data transmission / reception circuit are incorporated. As the ROM 502, a built-in one and an external one may be used in combination.

  The RWM 503 has a configuration in which a backup voltage is supplied from the power supply board 251 even after the power supply of the pachinko gaming machine 10 is cut off and data can be retained (backed up). The RWM 503 temporarily stores various data and the like. In addition to a memory and an area (not shown), a backup area 503a is provided.

  The backup area 503a has a stack pointer, each register, I / O when the power is shut down (when power is cut off) due to a power failure (including a power failure due to an instantaneous voltage drop). This is an area for storing values such as O. When power is turned on (including power-on due to power failure cancellation, the same applies hereinafter), the pachinko gaming machine 10 is powered off based on information in the backup area 503a. The previous state is restored. Writing to the backup area 503a is executed at the time of power-off by an NMI interrupt process (power-off process), and restoration of each value written to the backup area 503a is executed in a control-start process at power-on.

  The main board 102 is provided with a power failure monitoring circuit unit 506 for monitoring power 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 board 102 and the NMI terminal 514 of the payout control board 45 when the power is cut off due to the occurrence of a power failure or the like. The power failure monitoring circuit unit 506 monitors the DC stable voltage (for example, 30 volts) which is the maximum voltage output from the power source unit 541 of the power supply board 251 and when this voltage becomes less than a predetermined voltage, the power failure (power shutdown) ) Is generated, and a power interruption signal is output to the NMI terminal 504 of the CPU 501 on the main board 102 or another board. In response to the input of the power interruption signal, the CPU 501 on the main board 102 and the CPU 511 on the payout control board 45 immediately execute an NMI interrupt process.

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

  In the present embodiment, the sub main board 301 also has a value (0 or 1) indicating whether or not the power supply voltage is reduced from the main board 102 based on the power interruption signal from the power failure monitoring circuit unit 506. Is entered. The backup function of the sub main board 301 will be described later.

  Note that the power failure monitoring circuit unit 506 can be disposed in a part other than the main board 102. For example, the power failure monitoring circuit unit 506 may be formed on the power supply substrate 251 and a power interruption signal may be input from the power failure monitoring circuit unit 506 to each substrate on the power supply substrate 251. It is also possible to omit the input of the power interruption signal from the main board 102 to the payout control board 45.

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

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

  The backup area 513a is an area for storing the stack pointer, registers, I / O, and other values when the power is cut off when the power is cut off due to 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 shut off. Writing to the backup area 513a is executed when the power is shut off by the NMI interrupt process, and restoration of each value written to the backup area 513a is executed in the main process when the power is turned on.

  The sub board 104 includes a sub main board 301 and a sub sub board 302. Among these, the sub-main board 301 includes 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, ROM 522, work RWM 523, output port 528, and the like are connected to the output side of the input port 527.

  The CPU 521 (sub-main CPU) of the sub-main board 301 matches the game situation from among a number of subdivided effect patterns based on the symbol display effect control command (command) transmitted from the main board 102. The effect control command related to the determined effect pattern is transmitted to the sub-sub-board 302. The ROM 522 (program ROM) is a memory for storing various control programs executed by the CPU 521 and fixed value data. The work RWM 523 temporarily stores work data and flags used when the CPU 521 executes various programs. It is a memory for memorizing.

  Next, the sub-sub board 302 includes a CPU 531 (sub-sub CPU), a work RWM 532, a program ROM 533, a sound ROM 534, a character ROM 525, a VDP (image controller) 526, a sound control circuit 820, an input port 530, and an output port 529. A bus line (not shown) is provided. The program ROM 533 is a memory for storing various control programs and fixed value data executed by the CPU 531, and the work RWM 532 temporarily stores work data and flags used when the CPU 531 executes various programs. It is a memory for.

  Furthermore, the character ROM 525 displays, for example, decoration symbols displayed on the effect symbol display device 60, images of persons and devices appearing during the effect, effect images related to the reach and jackpot suggestions and notices, images related to the hold display, button effects This is a memory (flash memory) for storing various character data such as an image related to. The “character” here is not limited to a person and the like, and means to include various images including characters and codes. The VDP 526 includes a video memory 524 (VRAM) that stores image data read from the character ROM 525 in a predetermined format. The image data stored in the video memory 524 is displayed on a display (not shown) of the liquid crystal unit 42. ). Here, the video memory 524 may be mounted on the sub-sub board 302 as a component different from the VDP 526.

  The CPU 531 of the sub sub board 302 performs control according to the content of the control program in the program ROM 533 based on the effect control command (sub main command (first effect command)) from the sub main board 301 input via the input port 530. Is executed, and a display control command for effect display according to the game situation is transmitted to the VDP 526. Further, the VDP 526 expands (loads) the image data stored in the character ROM 525 onto the video memory 524, and the image data on the video memory 524 is converted into a video by the liquid crystal unit 42 and displayed on the display.

  In addition, the sub-sub board 302 is provided with a sound control circuit 820 used for sound output control for effects related to sound output. The sub-sub board 302 performs control related to sound output such as amplifier control, and performs image control and It is easy to synchronize sound control. Note that the sub-main board 301 may include a sound control circuit 820. Further, the sound data of the sound ROM 534 mounted on the sub sub board 302 may be transmitted to the sub main board 301. Further, each speaker may be connected to the sub main board 301.

  The power supply board 251 includes a power supply unit 541 for supplying power to each unit 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 board 102, the payout control board 45, the sub main board 301, and the like through a power supply path (not shown). As its outline, the power supply unit 541 takes in a predetermined voltage supplied from the outside, and supplies a predetermined amount of voltage for driving various switches, motors, logic circuits, etc. to the main board 102, the sub main board 301, and the like. Supply.

The initialization switch circuit unit 543 outputs an RWM erase signal for clearing backup data to the main board 102 and the payout control board 45 when the initialization switch 544 is pressed by, for example, a game hall clerk at power-on. It has a circuit to do. When the RWM erase signal is input when the pachinko gaming machine 10 is turned on, the main board 102 and the payout control board 45 clear the data in the respective backup areas 503a and 513a.
<Functional configuration of main board and sub board>

  Next, the main board 102 and the sub board 104 will be described from a functional side. As shown in FIG. 5, the main board 102 in the present embodiment is a ball determination unit 110, a first lottery unit 126, a second lottery unit 128, a general drawing lottery unit 136, a holding control unit 116, and a main display control unit 118. , Condition holding means 176, special game control means 120, specific game execution means 122, opening / closing control means 124, small hit game control means 330, advance information notification means 157, and command transmission means 332.

  On the other hand, the sub-board 104 in this embodiment is constituted by the sub-main board 301 and the sub-sub-board 302 as described above. Of these, the sub-main board 301 is the pattern storage means 130 as shown in FIG. , Symbol mode determining means 131, effect determining means 132, and effect display control means 134. The sub main board 301 includes command receiving means 304 and effect mode transmitting means 305. Further, the sub-board 104 is provided with sound control means 312 for controlling speaker output and the like, and light control means 313 for controlling game effect lamp output and the like.

  Each functional block included in the main board 102 may be configured such that any one of the functional blocks is mounted on the sub main board 301 instead of the main board 102. Similarly, each functional block included in the sub main board 301 may be configured such that any one of the functional blocks is mounted on the main board 102 instead of the sub main board 301.

  However, since data transmission / reception between the main board 102 and the sub main board 301 is unidirectional from the main board 102 to the sub main board 301, the entire operation is realized by such data transmission / reception in one direction. Each component is arranged on the main board 102 and the sub main board 301. As described above, since the one-way transmission of data from the main board 102 to the sub main board 301 is maintained, data can be transmitted from the configuration included in the sub main board 301 to the configuration included in the main board 102. In addition, no data transmission can be requested. Therefore, the information generated on the main board 102 cannot be referred to from the sub main board 301 unless the main board 102 unilaterally transmits the information to the sub main board 301.

  Further, as shown in FIG. 6, the sub-sub board 302 has an effect mode receiving means 308 related to receiving a command (sub-main command) from the sub-main board 301, and an effect execution related to execution of an effect based on the sub-main command. Means 309 and the like are provided. Further, the sub-sub board 302 includes automatic transfer means 316 that automatically and continuously executes processing from reading to transfer to the liquid crystal unit 42 (see FIG. 4) for the image data in the character ROM 525.

  Among these, the automatic transfer means 316 reads the image data of the character ROM 525 according to the contents of the image frame displayed on the display of the liquid crystal unit 42, and decodes the image data before constituting the contents of the image frame ( The data is decoded and developed in the video memory 524, and further transferred to the liquid crystal unit 42. Hereinafter, the “image frame” may be simply referred to as “frame”. “Transfer” of image data from the video memory 524 to the liquid crystal unit 42 also includes an operation of controlling the liquid crystal panel in the liquid crystal unit 42 according to the contents of the image data.

Further, the sub-sub board 302 includes a transparency changing unit 317 that can change the transparency of a display image, an image data switching unit 318 that switches image data to be displayed, and the like. Among these, the transparency changing means 317 has a function of changing the transparency of the image displayed on the liquid crystal unit 42 according to the situation via the VDP 526. Further, the image data switching means 318 selects the image data read from the character ROM 525 according to the situation, and switches the image data used before that to the newly selected image data. The details of the automatic transfer function by the automatic transfer means 316, the transparency change function by the transparency change means 317, and the image data switching function by the image data switching means 318 will be described later.
<< Main functions of main board >>

  The entrance determination means 110 determines whether or not a game ball has entered each winning opening. When receiving the first start winning information, the winning determination means 110 determines that the game ball has won the first start winning opening 62, and when receiving the second start winning information, the game ball won the second start winning opening 63. Judge that When receiving the first grand prize opening winning information, the winning determination means 110 determines that the gaming ball has won the first big winning opening 91, and receiving the second big winning opening winning information, the gaming ball receives the second big winning prize. When it is determined that a winning is made in the mouth 92 and the general winning information is received, it is determined that the game ball has won the general winning opening 72. When receiving the passage information, the ball entering determination unit 110 determines that the game ball has passed through the operation port 68.

  The first lottery means 126 for executing the first lottery corresponding to entering the first start winning opening 62 is the first lottery value acquiring means 112, the first winning / failing determining means 113, the first pattern determining means 114, the first 1 design determination means 320 is included. The second lottery means 128 for executing the second lottery corresponding to the ball entering the second start winning opening 63 is the second lottery value acquiring means 115, the second winning / failing determining means 117, the second pattern determining means 119, the second 2 symbol determination means 322 is included. The result of the first lottery is shown in the form of variable display of the first special symbol 192 in the first special symbol display device 70, and in the display area 194 of the effect symbol display device 60 in the form of variable display of the decorative symbols 190a to 190c. Indicated by The result of the second lottery is shown in the form of variable display of the second special symbol 193 on the second special symbol display device 71, and in the display area 194 of the effect symbol display device 60, the form of variable display of the decorative symbols 190a to 190c. Indicated by

  When the first lottery means 126 and the second lottery means 128 start the symbol variation, the lottery result corresponding to the symbol variation is transmitted to the effect determining unit 132 together with the symbol variation control command.

  The first lottery value acquisition unit 112 acquires a random number value as the first winning / no-win lottery value for the first lottery when the first start winning opening 62 is entered. The second lottery value acquisition unit 115 acquires a random number value as the second winning / no-win lottery value for the second lottery when the player enters the second start winning opening 63. For example, the values acquired as the first winner / lottery value and the second winner / lottery value for the winner lottery are acquired from a value range from “0” to “65535”. In the present embodiment, the random numbers acquired as the first winning / losing lottery value and the second winning / losing lottery value are a hardware random number (built-in random number generated inside the CPU 501) sharing one generating device configured by hardware. It is generated by a two-stage random number generation means that calculates (adds) a software random number (soft random number) extracted by a software random number generation program (a counter or the like that is updated every interrupt). Incidentally, if the acquisition timings are exactly the same, the hardware random number value based on the first start winning opening and the hardware random number value based on the second starting winning opening are acquired the same value. Therefore, it is designed so that only one random number acquisition system fails and does not have an unexpected game probability. The value acquired by the first lottery value acquisition unit 112 and the second lottery value acquisition unit 115 as the first winning / losing lottery value or the second winning / losing lottery value is temporarily held by the holding control unit 116. However, the first success / failure lottery value and the second success / failure lottery value are suspended within a range not exceeding the predetermined retention upper limit number retained by the suspension control means 116.

The first winning / failing determining means 113 executes a determining whether or not to shift to the special game or the small hit game based on the first winning / losing lottery value. The second success / failure determination means 117 executes a failure determination to determine whether or not to shift to the special game or the small hit game based on the second winning / failure lottery value. The first success / failure determination unit 113 and the second success / failure determination unit 117 hold a success / failure determination table referred to in the determination of success / failure.
<< Numerical numbers related to the lottery >>

  FIG. 8 shows a correspondence between a random number per special symbol (hereinafter referred to as “success / random number”) that is a random value serving as the first winning / losing lottery value or the second winning / losing lottery value and the lottery result. The success / failure determination table in this figure associates determination results of big hits, small hits, and outliers with winning / failure lottery values. Depending on the respective range settings, The probability of success / failure is determined. The first hit determination unit 113 and the second hit determination unit 117 (see FIG. 5) refer to the determination table of FIG. In both the first lottery performed by the first winning / failing determination unit 113 and the second lottery performed by the second winning / failing determination unit 117, a big hit is made only when the winning / losing lottery value falls within the range of “63239 to 63402” in normal times. When the probability changes, the range of the big hit is expanded, and not only when the winning / losing lottery value falls within the range of “63239 to 63402” but also when the lottery falls within the range of “63403 to 64878”. Thus, the range corresponding to the big hit changes according to the gaming state.

  Further, in this embodiment, when the success / failure lottery values are “0 to 63238” and “65535”, there is a genuine deviation that does not correspond to the big hit range and the small hit range. That is, the lottery result corresponding to the upper limit value “65535” and the range from “0” to “06328” that is the lower limit value of the random number value range are different.

  Further, in the case where the winning lottery value is “64879 to 65429”, the lottery result is a small hit only in the first lottery, and the lottery result is lost in the second lottery. Further, in the case where the success / failure lottery value is “65430 to 65534”, the lottery result is a small hit in both the first lottery and the second lottery. In other words, the first lottery has a wider range corresponding to the small hit than the second lottery, and the small win is likely to occur. In the present embodiment, the case where it does not correspond to the big hit is defined as a deviation in a broad sense, but since the game nature that assigns the lottery result of the small hit to a part of the broad sense of deviation is adopted, the explanation is concise. Therefore, here, only genuine detachment is referred to as “detachment” in a narrow sense.

  In this way, a group consisting of consecutive numbers for each lottery result is formed in the numerical range of the random numbers. For example, in the first lottery, as shown in FIG. 8, the numerical value range “0-63238” is the first outlier group, “63239-63402” is the first jackpot group, and “63403-64878” is The second big hit group, “64879-65534” is the small hit group, and “65535” is the second outlier group.

  The number of random numbers corresponding to the first loss is 63239. Furthermore, the number of random numbers corresponding to jackpot 1 is 164, and the number of random numbers corresponding to jackpot 2 is 1476. The big hit probability at the normal probability in the first game is 164/65536, and the big hit probability at the high probability is 1640 (= 1476 + 164) / 65536. Further, the number of random numbers corresponding to the small hit is 656, and the small hit probability is 656/65536.

  Further, as described above, the success / failure random number can take a value in the range of “0 to 65535”. In this embodiment, the failure / randomness 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 built-in random number is a value extracted from the built-in 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 1 by hardware (counter circuit) using a clock input to the CPU 501. Each time a numerical value arbitrarily arranged in the built-in random number table becomes an acquisition target according to the arrangement order regardless of the magnitude relation of the numerical values. Then, the numerical values in the acquired internal random number table are extracted and used for calculation with the soft random numbers. It can be said that such a built-in random number is a random number generated by a random number generation device including a hardware configuration.

On the other hand, the software random number is a random number generated by a random number generation device having a software configuration in which numerical values arranged in ascending order or descending order are obtained by adding one count value for each interrupt by a programmed counter. It can be said. In this embodiment, the random number of soft random numbers per special symbol is “65521” which is a prime number, and the software random number added to the built-in random number as the addition source is more than the built-in random number. The random value range (the size of the random number) is set small. In addition, the generation of the random number is not limited to simply adding the built-in random number and the software random number, but for example, adding or adding / subtracting / adding / subtracting a predetermined number is performed. , Another calculation may be used.
<< Numerical numbers related to symbol lottery >>

  The first symbol determination means 320 and the second symbol determination means 322 shown in FIG. 5 separately obtain the above-described symbol lottery value (design random number per special symbol; hereinafter, also referred to as “symbol random number”) and the above-described determination of success / failure. Based on the result, the stop symbol is determined at the start of symbol variation. The first symbol determination means 320 and the second symbol determination means 322 hold a plurality of symbol determination tables that are referred to in order to determine the stop symbol of the special symbol. The first symbol determination unit 320 and the second symbol determination unit 322 refer to different symbol determination tables depending on the determination result.

  FIG. 9 is a diagram schematically showing a symbol determination table. FIG. 9A is a table that is referred to when the determination result of the first lottery is a big win, and FIG. 9B is the case where the determination result of the second lottery is a big hit. FIG. 9C is a table to be referred to when the determination result is out of place, and FIG. 9D is a table to be referred to when the determination result is a small hit. . The first symbol determination means 320 and the second symbol determination means 322 refer to the symbol determination table of this diagram in symbol determination. Each symbol determination table defines the correspondence between the special symbols represented by the symbols α and β other than the numbers and characters “0” to “8” and the first symbol lottery value or the second symbol lottery value. ing. Each type of special symbol is associated with the success / failure determination result of big hit, small hit, and out of place, a predetermined odd number corresponds to the big hit, an even number corresponds to the big hit, and the symbols α and β Corresponds to the detachment.

  As shown in FIG. 9A, in the first lottery, special symbols “7”, “5”, “3”, “3”, which are predetermined odd numbers among the special symbols “0” to “8”. 1 and even numbers “0” and “2” are symbol lottery values “0 to 124”, “125 to 499”, “500 to 714”, “715 to 734”, and “735”, respectively. 799 ”and“ 800 to 999 ”. Furthermore, special symbols “7”, “5”, “3”, “1”, “0”, “2” include 16R probability variation, 16R probability variation (actual 4R), 4R probability variation (successful battle), 4R, which will be described later. Various jackpots of probability change (battle failure / latency), 4R probability change (no ball exit / latency), and 4R normal (battle failure / no speed) are associated with each other. Here, the special symbol relating to the first lottery may be referred to as the first special symbol, the special symbol 1, the special symbol 1, the symbol 1, etc. in addition to the first special symbol described above.

  Also, as shown in FIG. 9B, in the second lottery, the special symbols “7”, “3”, “0”, “2” are symbol lottery values “0-499”, “500”, respectively. To 669 ”,“ 670 to 799 ”, and“ 800 to 999 ”. In addition, special symbols “7”, “3”, “0”, “2” include 16R probability variation, 4R probability variation, 4R probability variation (no ball exit), and 4R normal (no ball exit / time reduction limit). Are associated with each of the various jackpots. Here, the special symbol related to the second lottery may be referred to as the second special symbol, the special symbol 2, the special symbol 2, the symbol 2, etc. in addition to the second special symbol described above.

  Hereinafter, the types of jackpots in the first lottery and the second lottery described above will be described. First, in this embodiment, there are big hits that repeat unit games 16 times (hereinafter also referred to as “16R big hits” as appropriate), and big hits that repeat unit games four times (hereinafter also referred to as “4R big hits” as appropriate). Of these, for the 16R jackpot, in the special game, when the first grand prize opening 91 or the second big prize opening 92 is opened for about 30 seconds, or the first big prize opening 91 or the second big prize opening 92 is 9 There is a game in which a single winning game is terminated by temporarily closing a grand prize opening when a game ball exceeding a ball is dropped. Such a special game is a so-called out-of-ball game with the aim of allowing a player to acquire game balls, and also attempts to acquire more game balls by the player.

  In addition, there is a 16R big hit in which a player can obtain only the same number of balls as a special game in which a unit game is repeated only four times during a special game. Such a 16R jackpot makes it possible to acquire a smaller number of balls (for example, about a fraction) than the normal 16R jackpot that allows a player to acquire many balls. It can be said that it is substantially the same as 4R big hit from the surface of the ball. Such a 16R jackpot is called “16R (actual 4R) jackpot” with the addition of “actual 4R”. As a special game in this 16R (actual 4R) big hit, out of the 16 big prize opening, 4 times are executed in the same pattern as the 16R big hit, and the rest is a very short time (for example, about 0.2 seconds) There are things that are open.

  In addition, as the opening pattern of the big winning opening in 16R (actual 4R) big hit, four relatively long opening is continuously performed at the beginning of the special game, and a short opening is continuously performed thereafter. It is possible to employ what is performed, what is performed for a short time continuously at the beginning of the special game, and continuously performed for a long time thereafter. In addition, an opening pattern in which one or more short-time opening is interposed before and after each long-time opening, or a special game control mode in which these opening patterns are switched and executed for each round is also adopted. Is possible.

  Furthermore, with regard to 4R jackpots, in all unit games, when the first grand prize opening 91 or the second big prize opening 92 is opened for about 30 seconds, or in the first big prize opening 91 or the second big prize opening 92 There is one that closes the grand prize opening once when nine or more game balls are dropped and ends one unit game. Such a special game in 4R big hit is a so-called out-of-ball game with the aim of allowing a player to acquire a game ball, and the player has a smaller amount than a normal 16R big hit (for example, about a fraction) ) Can be obtained.

  In addition, the 4R big hit is a so-called no-pick hit that prevents the player from acquiring a turn during a special game. In the present embodiment, such a big hit without a ball is represented by adding “no ball”. The 4R big hit without a ball is also referred to as “4R (no ball)” or “4R (no ball)”. As a special game in this 4R (no ball) big hit, there can be mentioned a case where each of the four big winning openings is opened for a very short time (for example, about 0.2 seconds). In addition, as described above, the first opening time of the first big winning opening 91 (or the second big winning opening 92) in the small hit game when winning the small hit is about 0.2 seconds, Since the opening mode of the big winning opening 91 (or the second big winning opening 92) is to prevent the game balls from being entered, it can be considered that the small win is also included in the “no-out” here. .

  In the present embodiment, the specific gaming state such as the above-mentioned probability change and time reduction occurs with various big hits, but the type of big hit is also distinguished by the combination with the specific gaming state. In the present embodiment, the jackpot and the specific game state are combined as follows for each of the first lottery related to the first start winning opening 62 and the second lottery related to the second start winning opening 63. ing.

  First, in the first lottery, for both the 16R big hit and the 4R big hit, there is a big hit that becomes a probable change state after the end of the special game accompanying the big hit. Such big hits are referred to as “16R probability variation” and “4R probability variation”. In the present embodiment, the first lottery is provided with the aforementioned 16R (actual 4R), and this 16R (actual 4R) is also combined with probability variation. The 16R (actual 4R) combined with the probability variation is referred to as “16R probability variation (actual 4R)”. Further, in this embodiment, the 16R big hits provided in the first lottery are shown as big hits corresponding to the symbols “7” and “5” in FIG. There are only two types (actual 4R).

  In addition, for the first lottery, the above-mentioned 4R (no departure) big hit is combined with probability variation, and 4R (no departure) combined with this variation is referred to as “4R probability variation (no departure)”. Called. In addition, for the first lottery, there is a jackpot that does not change after the special game associated with the jackpot, and hereinafter, the 4R jackpot that does not change the probability is referred to as “4R normal”.

  Furthermore, the type of jackpot is also divided by the relationship with the contents of the effect (reach effect) executed during the reach. In this embodiment, as described above for the first lottery, the “battle success effect” A big hit is provided by a combination of “Battle Failure Production” and “Hidden Production”.

  Specifically, first, as shown in FIG. 9A as a big hit corresponding to the symbol “3”, a big hit of 4R probability change (battle success) is provided by combining 4R probability change with “battle success production”. It has been. And when this 4R probability change (battle success) is hit, 4R probability change occurs after the battle success effect at the time of reach. In addition, as shown in FIG. 9A as a big hit corresponding to the symbol “1”, the big hit of 4R probability change (battle failure / latency) combining “Battle failure effect” and “Hidden effect” is combined with 4R probability change. Is provided. If this 4R probability change (battle failure / latency) is hit, a 4R special game is executed after the battle failure effect at the time of reach, and the game in the subsequent probability change state is executing the “latency effect” Done. For big hits with multiple characteristics such as “battle failure production” and “latent production”, “4” probability change (battle failure / latency) ”with the symbol“ / ”(slash) interposed. It represents.

  Furthermore, in this embodiment, a 4R probability change (no exit / latency) big hit is provided by combining the 4R probability change (no exit) with a “latency effect”. ), A 4R special game is executed to operate the first grand prize winning opening 91 in an open pattern with no ball, and the game in the probability change state is performed while executing the “latent effect”. . In addition, there is a big hit of 4R normal (battle failure / no time shortage) combining 4R normal (no time shortage) with "Battle failure production", and if you hit this 4R normal (battle failure / no time shortage) The 4R special game is executed after the battle failure effect at the time of reach, and the game in the normal probability state thereafter is performed without a short time.

  As described above, the types of jackpots are also divided according to the presence or absence of the short time, which is one of the specific games, and the contents. For the 16R probability variation, 4R probability variation, 4R probability variation (no ball exit) in the second lottery, the short time for which the period is set to the next big hit is combined. The 4R probability change (battle failure / latency), the 4R probability change (no ball exit / latency), and the above-mentioned 4R normal (battle failure / timelessness) related to the first game are not given time.

  Further, in this embodiment, regarding the big hit of the second game, as shown in FIG. 9 (b), there are cases in which the time is combined with 4R normal (no ball). This 4R normal (no ball) is assigned to the result of the symbol “2”, and the short-term period is the sum of the number of fluctuations of the first special symbol 192 and the number of fluctuations of the second special symbol 193. The number is limited to less than 100. Here, the limited number of time reductions is 20 in total. In this way, for the big hit with the limited number of time reductions, a description of “time reduction limitation” is added and expressed as “4R normal (time reduction limitation)”. It should be noted that the limited number of time reductions may be, for example, 80 times, 60 times, or 40 times, and at least two of these times may be allocated to different types of jackpots.

  As described above, in the present embodiment, for the first lottery, 16R probability variation, 16R probability variation (actual 4R), 4R probability variation (battle success), 4R probability variation (battle failure / latency), 4R probability variation (no ball exit / There are 6 types of big hits (latency) and 4R normal (battle failure / no time reduction). For the 2nd lottery, 16R probability variation, 4R probability variation, 4R probability variation (no exit ball), and 4R normal There are four types of big hits (no departure / short time limit).

  9C, the symbol α is associated with the symbol lottery value range “0-479”, and the symbol β is associated with the symbol lottery value range “480-999”.

  As shown in FIG. 9D, special symbols “4”, “6”, and “8” that are even numbers among the special symbols “0” to “8” are associated with the small hits. The special symbol “4” is associated with the symbol lottery value range “0-332”, the special symbol “6” is associated with the symbol lottery value range “333-665”, and the special symbol “8” is symbol lottery. Corresponding to the value range “666-999”.

  Here, the symbols corresponding to the symbols α and β are used for the following effects control. That is, when a small hit occurs for the first special symbol 192, the limited variation pattern table is referred to as the symbol variation of the first special symbol 192 after the end of the small hit game. At this time, the limited variation pattern table of the first special symbol 192 is referred to in a different manner depending on which symbol the second special symbol 193 is stopped, and the variation pattern is selected. For example, when the second special symbol 193 is stopped and displayed as the off symbol α, the variation pattern is selected according to the limited frequency table for 10 times as the symbol variation of the first special symbol 192 after the end of the small hit game. In addition, when the second special symbol 193 is stopped and displayed with the off symbol β, the variation pattern is selected according to the limited frequency table for 20 times as the symbol variation of the first special symbol 192 after the end of the small hit game. Thereby, since the special effect can be executed in a different manner depending on which symbol the second special symbol 193 is stopped at, the range of the design of the effect can be widened. Hereinafter, depending on the situation, an effect performed using the limited variation pattern table is referred to as a limited variation pattern effect.

  In the present embodiment, the symbols α and β are both associated with the limited variation pattern effect, but are not associated with the limited variation pattern effect (eg, “-” (hyphen)). May be added. By doing in this way, it becomes possible to set the occurrence probability of the limited variation pattern effect in the case of the deviation more finely. For example, by setting the ratio of the symbol lottery value of the symbol “-” to be sufficiently larger than the ratio of the symbol α and the symbol β, it is possible to realize the game control that the limited variation pattern effect is not executed in most cases of deviation. .

  Also, in this embodiment, when the result of the lottery is a big hit, the special value (non-probable variation) that does not change with certainty is not added to the upper limit value “999” in the numerical range of the above-described symbol random number. Assigned. In addition, the lottery result of the non-probable variation symbol may be assigned to the lower limit “0”, and the lottery result of the non-probable variation symbol may be assigned to both the upper limit value and the lower limit value.

  The above-described symbol lottery is performed by software random numbers, and the random number generation process is simplified as compared with the winning lottery using both software random numbers and hardware random numbers. This is because the lottery is likely to be a subject of fraud, whereas the symbol lottery is not subject to fraud compared to the lottery, so the crystal oscillator required to generate hardware random numbers This is because a configuration that does not require the use of such components is used.

In addition, as described above, a group composed of numerical values that are consecutive for each lottery result is formed in the numerical range of the design random numbers. For example, in the first lottery, in the case of a big hit, as shown in FIG. 9A, numerical ranges “0 to 124”, “125 to 499”, “500 to 714”, “715 to 734”. ”,“ 735-799 ”, and“ 800-999 ”are associated with the special symbols“ 7 ”,“ 5 ”,“ 3 ”,“ 1 ”,“ 0 ”, and“ 2 ”, respectively. Each group. Furthermore, in the second lottery, in the case of a big hit, as shown in FIG. 9B, numerical ranges “0 to 499”, “500 to 669”, “670 to 799”, and “800 to 999”. "Are groups associated with the special symbols" 7 "," 3 "," 0 ", and" 2 ", respectively. For the limited variation pattern effect, for example, as shown in FIG. 9C, the numerical range “0 to 479” is a group associated with the symbol α, and “480 to 999” is the symbol. It is a group associated with β. Further, in the case of small hits, the numerical ranges “0 to 332”, “333 to 665”, and “666 to 999” are associated with the special symbols “4”, “6”, and “8”, respectively. Each group has become.
<< Numerics related to variation pattern lottery >>

  Returning to FIG. 5, the first pattern determining means 114 separately acquires a variation pattern in which a variation process of the symbol variation to be displayed on the first special symbol display device 70 and the effect symbol display device 60 is determined. Is determined from a plurality of fluctuation patterns. The second pattern determining means 119 has a plurality of variation patterns in which a symbol variation display process to be displayed on the second special symbol display device 71 and the effect symbol display device 60 is determined based on a second pattern lottery value separately acquired. Determine from the variation pattern. The first pattern determining unit 114 and the second pattern determining unit 119 each determine a 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 each hold or share a plurality of variation pattern tables as variation pattern selection criteria to be referred to for determining the variation pattern.

  In the variation pattern, a variation time from a variation start to a stop when the special symbol is variably displayed is determined, and has various variation times depending on the type. That is, for each variation pattern, a variation display time is defined for each pattern as an end condition of the symbol variation, and the variation of the special symbol is stopped when the variation display time elapses. The plurality of variation pattern tables are determined so that the variation time selection tendency (the trend related to the variation display time of the variation pattern to be selected) is different as the correspondence relationship between the variation pattern and the lottery value.

  The plurality of variation pattern tables include a limited variation pattern table that is a selection criterion that is different from the other variation pattern tables in the tendency of the effect contents. In the limited variation pattern table, when the first special symbol 192 determined by the first symbol determining means 320 corresponds to the small hit, it is referred to in a limited period after the end of the small hit game.

  FIG. 10 is a diagram schematically showing the variation pattern table. The first pattern determining unit 114 or the second pattern determining unit 119 refers to the variation pattern for deviation shown in FIG. 10A when the result of the determination is wrong. The first pattern determination unit 114 and the second pattern determination unit 119 refer to the variation pattern table of this figure in variation pattern determination. When the determination result is 16R big hit, the fluctuation pattern table for 16R big hit shown in FIG. When the determination result is 4R big hit or small hit, the variation pattern table for 4R big hit and small hit shown in FIG. 10C is referred.

  In FIG. 10A, the pattern lottery value “0 to 2599” is associated with the super reach “super 1”, and the pattern lottery value “2600 to 4999” is associated with the super reach “super 2”. It has been. The pattern lottery value “5000 to 49999” is associated with any variation pattern of “normal 1”, “normal 2”, and “no reach”. As described above, when the determination result is out of order, any of super reach, normal reach, and no reach may be selected. In the variation pattern table for loss, particularly when a variation pattern of “no reach” is selected, a different table is referred to so that a variation pattern having a shorter variation time than the normal state is selected in the short time state. Further, the variation pattern table for loss is defined so that the column to be referred to is different for each number of reservations, and details of the normal state will be described later with reference to FIG.

  In FIG. 10B, the super lot of “Super 1” is associated with the pattern lottery value “0 to 23519”, and the super reach of “Super 2” is associated with the pattern lottery value “23520 to 47039”. It has been. The pattern lottery value “47040 to 48999” is associated with the reach of “normal 1”, and the pattern lottery value “4900 to 49999” is associated with the reach of “normal 2”. As described above, when the determination result is 16R big hit, a variation pattern with reach is selected.

  In FIG. 10C, the pattern lottery value “0-23999” is associated with the super reach “super 3”, and the pattern lottery value “2400-49999” is associated with the normal reach “normal 3”. ing. As described above, when the determination result is 4R big hit or small 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 as in the case of the symbol lottery, and the random number generation process is simplified as compared with the acceptance lottery using both software random numbers and hardware random numbers. This is similar to the symbol lottery, where the winning lottery is likely to be subject to fraud, whereas the pattern lottery is less likely to be subject to fraud than the winning lottery, so a hardware random number is generated for the pattern lottery. This is because it is possible to eliminate the use of parts such as a crystal oscillator necessary for the above.

  In addition, as described above, a group of numerical values that are continuous for each lottery result is formed in the numerical range of the variable pattern lottery values (hereinafter also referred to as “variable pattern random numbers”). In the case of a loss, as shown in FIG. 10A, the pattern lottery values “0 to 2599”, “2600 to 4999”, and “5000 to 49999” are the “super 1” group, “ The group of “Super 2”, “Normal 1”, “Normal 2”, and “No reach” are associated with each other. Also, in the case of 16R big hit, as shown in FIG. 10B, the pattern lottery values “0-23519”, “23520-47039”, “47040-48999”, and “49000-49999” Each of “Super 1”, “Super 2”, “Normal 1”, and “Normal 2” reach is associated with each other. Further, in the case of 4R big hit or small hit, as shown in FIG. 10C, the pattern lottery values “0-23999” and “240000-49999” are the reach values of “Super 3” and “Normal 3”, respectively. Are associated groups. It should be noted 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 variation patterns with different variation times.

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

  In the first column 212a, a pattern lottery value range and a variation pattern in the case where the number of results held by the first lottery 144 and the number of results held by the second lottery 146 are 1 are shown. Correspondence is shown. Similarly, in the second column 214aa, the third column 216a, and the fourth column 218aa, the number of results held by the first lottery by the first holding unit 144 or the number of results held by the second lottery by the second holding unit 146 are respectively stored. The correspondence relationship between the pattern lottery value range and the variation pattern in the cases of 2, 3, 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 the variation pattern table for each number of holds. In this figure, an example will be described in which a plurality of variation patterns that can be selected at the time of deviation are classified into five types according to variation time, but actually, a plurality of variation effect patterns are prepared for each of those classifications, This is equivalent to the fact that dozens of types of variation effect patterns are associated with the lottery value ranges for the respective categories.

  The first range 222 includes 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 a pattern lottery value from 0 to 2599. A super reach variation pattern of “super 1” is associated. The second range 224 includes 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 a pattern lottery value from 2600 to 4999. A super reach variation pattern of “super 2” is associated. Thus, in the case of a pattern lottery value with a lottery value from 0 to 2599 and a pattern lottery value with a lottery value from 2600 to 4999, a variation pattern with the same variation time is selected regardless of the number of holdings.

  The third range 226 includes normal reach in 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 a pattern lottery value from 5000 to 49999. The three types of variation patterns “normal 1”, “normal 2”, and “no reach” are associated with each other. However, the range of pattern lottery values associated with each variation pattern varies depending on the number of holds. In the first column 212a, the sizes of the lottery value ranges to which “normal 1”, “normal 2”, and “no reach” are associated are approximately equal to each other, and ranges in which 5000 to 49999 are divided into approximately three equal portions are associated. Yes. 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 addition, 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, it corresponds to each of “normal 1” and “normal 2”. 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 when “No reach”, the fluctuation time may be shortened like a short time state. Depending on the setting contents of the third range 226, the average variation time will differ. As the number of holds increases from 1 to 2, 3, and 4, the pattern lottery value range of “Normal 1” and “Normal 2” decreases, and conversely, the pattern lottery value range of “out of reach” increases. Therefore, the average fluctuation time becomes shorter as the number of holds increases, and conversely, the average change time becomes longer as the number of holds decreases. In this way, by using a variation pattern table in which the correspondence between the pattern lottery value range and the variation pattern is different for each number of holdings, control that makes it easy to select a variation pattern with a long variation time when the number of holdings decreases is realized. be able to. In addition, as a variation pattern of the decorative symbols 190a to 190c, a variation pattern that is applied across a plurality of consecutive variations of each of the first special symbol 192 and the second special symbol 193 may be set.

Furthermore, regarding the selection tendency of the variation pattern, the selection tendency is set in relation to whether or not the probability is changing, the result of the success / failure lottery, the number of holdings related to the first lottery, and the number of holdings related to the second lottery. You may make it do. By doing in this way, for example, when there is a probability change and the result of the lottery decision is out of place, with respect to the first special symbol 192, the number of reservations related to the first lottery and the number of reservations related to the second lottery Regardless, regardless of the number of holds related to the first lottery, the probability that the variation pattern defined as having a relatively long variation time is selected is set to be relatively high. It is possible to set a relatively low probability that a variation pattern defined as having a relatively long variation time will be selected in accordance with the number of holds relating to the second lottery. In addition, when the probability lottery result is a big hit (or a small hit), the fluctuation time is relatively large regardless of the number of holds related to the first lottery and the number of holds related to the second lottery. It is also possible to set a relatively low probability that the variation pattern defined as short is selected.
<< Other main functions of main board >>

  Returning to FIG. 5, the general drawing lottery means 136 executes a lottery by acquiring a lottery value when a game ball passes through the operation port 68. The result of the lottery by the normal symbol lottery means 136 is variably displayed in the form of a normal symbol on the normal symbol display device 59. The general symbol lottery means 136 holds a symbol determination table to be referred to in order to determine the stop symbol of the normal symbol to be displayed on the normal symbol display device 59. The symbol determination table defines the correspondence between the lottery value and the normal symbol, and the normal symbol lottery means 136 determines the stop symbol of the normal symbol with reference to the symbol determination table. When the determined stop symbol becomes a predetermined symbol, it is determined that the normal symbol is a hit, and after the stop display of the normal symbol is stopped at the stop symbol, the opening / closing control means 124 sets the second start winning opening. 63 normal electric accessories are expanded for a predetermined time. The lottery value of the normal symbol is temporarily held by the hold control means 116. However, the lottery value is held only when the predetermined hold upper limit number held by the hold control means 116 is not exceeded.

  The holding control unit 116 includes a first holding unit 144, a second holding unit 146, and a general drawing holding unit 147. When the symbol variation corresponding to the previous lottery is displayed when the first lottery is newly executed, the first holding means 144 displays the new first lottery result corresponding to the lottery. Hold until fluctuating display starts. In the present embodiment, the result of the first lottery holds the lottery value with an upper limit of four. When the symbol change corresponding to the previous lottery is displayed when the second lottery is newly executed, the second holding means 146 displays the result of the new second lottery corresponding to the lottery. Hold until fluctuating display starts. In the present embodiment, the result of the second lottery holds the lottery value with an upper limit of four. The general map holding means 147 holds the general map lottery value acquired by the general map lottery means 136 as a holding ball. These holding numbers are represented by the number of lighting or blinking of the first special figure holding lamp 20, the second special figure holding lamp 21, and the general figure holding lamp 22, respectively. The number of holds by the first holding means 144 and the second holding means 146 is also displayed in the display area 194.

  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 the symbol variation is displayed. Therefore, even if the big hit lottery value is held in the first holding means 144, the symbol variation corresponding to the big hit lottery value of the first holding means 144 is not displayed as long as the second holding means 146 holds. Therefore, even if there is a big hit hold in the first holding means 144, there is a possibility that multiple consecutive big hits can be obtained by continuing to hit the second hold means 146 until a big hit hold is entered.

  The main display control means 118 includes first special figure control means 148, second special figure control means 150, and universal figure control means 153. The first special symbol control means 148 causes the first special symbol display device 70 to display the fluctuation of the first special symbol 192 according to the fluctuation pattern determined as a result of the first lottery by the first lottery means 126. The second special symbol control means 150 causes the second special symbol display device 71 to display the fluctuation of the second special symbol 193 according to the fluctuation pattern determined as a result of the second lottery by the second lottery means 128.

  When the second lottery 146 holds the result of the second lottery, the first special figure control unit 148 reserves the start of the symbol variation display corresponding to the first lottery. On the other hand, the second special figure control means 150 starts the symbol variation display corresponding to the second lottery regardless of whether or not the result of the first lottery is held by the first holding 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 preferentially read and the symbol variation is displayed. The In such a case, the lottery value held in the first holding means 144 is not read until the number of holdings in the second holding means 146 becomes zero, and the symbol variation thereof does not start.

  The first special figure control means 148 and the second special figure control means 150 issue a change start command and a change stop command at the timing of starting and stopping the change display of the first special symbol 192 and the second special symbol 193, respectively. It transmits to the above-mentioned effect display control means 134. When transmitting the variation start command, the determined result determination result, the stop symbol, the value indicating each variation pattern, and the value indicating either the first lottery or the second lottery are produced together with the variation start command. It transmits to the display control means 134. When transmitting the variation stop command, a value indicating the stop symbol is transmitted to the effect display control means 134 together with the variation stop command. Thereby, the fluctuation display by the main display control means 118 and the effect display control means 134 is synchronized, and the interlock is maintained. The normal symbol control means 153 causes the normal symbol display device 59 to display the lottery result by the normal symbol lottery means 136 as a normal symbol variation display.

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

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

  When the first lottery by the first lottery means 126 results in the transition to the small hit game, the small hit game control means 330 is stopped when the first special symbol 192 is stopped in a predetermined small hit mode. It is determined that the small hit game operating condition is satisfied, and the first big winning opening 91 is opened to execute the small hit game. Similarly, when the second lottery by the second lottery means 128 results in the transition to the small hit game, the small hit game control means 330 stops the second special symbol 193 in a predetermined small hit mode. It is determined that the small hit game operating condition is satisfied, and the second big prize opening 92 is opened to execute the small hit game.

  Furthermore, the small hit game control means 330 has a function of notifying the sub main board 301 of the number of consecutive small hits to the sub-main board 301. Count and output. It is not limited to notifying the sub main board 301 of the number of consecutive small hits, but whether or not the number of consecutive small hits has reached a predetermined number, or the number of consecutive small hits within a predetermined period Whether or not it has been reached is determined, and when the number of consecutive small hits reaches a predetermined number, the sub-main board 301 may be notified to that effect.

  The specific game execution means 122 controls the normal game in the state of probability change and short time. The specific game executing means 122 shifts to the time-saving state after the end of the special game according to the type of jackpot. On the other hand, the transition to the probability 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 jackpot symbol accompanying the transition to probability variation. The time-short state is continued until the total number of variable display times of the first special symbol 192 and the second special symbol 193 reaches a predetermined number of end conditions, for example, 100 times from the end of the special game. The first pattern determining unit 114 and the second pattern determining 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 probability variation state is continued until a special game with the next jackpot is executed according to the type of jackpot. During the probability variation state, the probability that the success / failure determination result by the first success / failure determination unit 113 or the second success / failure determination unit 117 is a big hit is maintained at a high value.

  Prior information notifying means 157, when there is a ball entering the first start winning opening 62, the first lottery means 126 for the ball regardless of whether the symbol variation display corresponding to the ball is started. Information indicating the lottery result is transmitted to the sub-main board 301. In addition, when the second start winning opening 63 is entered, the lottery result by the second lottery means 128 is shown for the entered regardless of whether or not the symbol variation display corresponding to the entered is started. Information is transmitted to the sub main board 301. Hereinafter, information indicating the lottery results will be referred to as “hold lottery results”. The holding lottery result includes information indicating whether the first start winning opening 62 or the second starting winning opening 63 is entered, and a hit / miss range / design range / pattern range as a pre-determination result.

The opening / closing control means 124 controls the opening / closing of the ordinary electric accessory of the second start winning opening 63, the first big winning opening 91, and the second big 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 ordinary electric accessory solenoid 76 to open the ordinary electric accessory at the second start winning prize opening 63. In the special game, the opening / closing control means 124 sends an opening instruction to the big prize opening solenoid 80 or the big prize opening solenoid 81 to open the first big prize opening 91 or the second big prize opening 92. In addition, the opening / closing control means 124 performs an opening extension that causes the expansion mechanism of the second start winning opening 63 to be expanded for a longer time than in the normal state in the probability changing state and the short time state after the normal special game.
<< Main functions of sub-main board >>

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

  The pattern storage means 130 provided on the sub-main substrate 301 holds a plurality of effect patterns in which effect image contents to be displayed on the effect symbol display device 60 and its display process are determined in the variation of the decorative symbols 190a to 190c. . The effect pattern is displayed separately from a plurality of variation effect patterns in which the variation process from the variation start to the stop and the variation process in the variation display of the decoration symbols 190a to 190c are defined, and the variation display of the decoration symbol. A plurality of notice effect patterns that imply a high degree of expectation in advance before stopping the variable display are included.

  The effect determining means 132 is displayed on the effect symbol display device 60 by the effect display control means 134 according to 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 contents of the production to be performed are determined. The effect determining unit 132 selects any one of a plurality of variation effect pattern data corresponding to the variation pattern of the special symbol determined by the first pattern determining unit 114 or the second pattern determining unit 119 and selects the pattern storage unit 130. Read from. The effect determination means 132 determines the combination of the stop symbols of the decorative symbols 190a to 190c based on the stop symbol or 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 are specified when, for example, the determination result of the first lottery means 126 or the second lottery means 128 indicates a transition to a special game of 16R big hit. For example, a combination of three symbols such as “777” and “555” is selected. In this case, it is possible to select a decorative symbol related to the same number as the first special symbol 192 and the second special symbol 193 as the numbers 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 190 a to 190 c are “777”. Or you may make it show the big hit also by the combination of the design in which the specific symbol which shows that it is a hit is at least one of three symbols.

  A specific combination is also selected when the determination result is a 4R big hit or a small hit, but for example, a so-called combination of “middle eyes” such as “333” or “757” is displayed. There is a case where the display of reach deviation is performed or a combination of all different symbols such as “357” is displayed. When the determination result is neither big hit nor small hit, a combination that is out of reach or a combination that does not have three symbols such as “312” and “946” is displayed. In the case of neither big hit nor small hit, a combination that does not correspond to a specific combination selected at the time of 4R big hit or small hit may be selected. Then, the effect determining unit 132 sends the stop symbol combinations of the decorative symbols 190a to 190c and the decorative symbol variation effect pattern data to the effect display control unit 134.

  In the decorative pattern variation effect pattern data, a decorative symbol variation display mode, that is, a variation process from a variation start to a variation stop and a variation process are defined. The variation effect pattern includes a reach pattern that displays a stop symbol combination that is a hit state or a disagreement mode after a reach state that becomes a big hit if one more symbols are aligned, and a stop pattern that is a slip state without passing a reach state An unreachable pattern that displays the combination is included. In particular, the patterns that go through the reach state include patterns with various short and long fluctuation times. As described above, a reach pattern with a relatively short fluctuation time is called “normal reach” and a reach with a long fluctuation time is used. The pattern is called “super reach”. Each variation effect pattern has a variation time for each pattern as an end condition of the symbol variation, and the symbol variation is stopped when the variation time elapses. The effect determining means 132 selects a variation effect pattern of a decorative symbol having the same variation time as that of the special symbol, according to the variation pattern of the special symbol.

  The above-described normal reach and super reach on the sub main board 301 correspond to fluctuation patterns such as “normal 1”, “normal 2”, “super 1”, and “super 2” on the main board 102 described above. The above-described non-reach pattern on the sub-main substrate 301 corresponds to the “no reach” variation pattern on the main substrate 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 on the main substrate 102 is the sub-pattern. When notified to the main board 301 as a command, the sub-main board 301 selects one of the plurality of fluctuation patterns that can be selected for the designated fluctuation pattern. When the variation pattern on the main substrate 102 is further subdivided, a larger number of variation patterns on the sub-main substrate 301 are provided corresponding to the subdivision on the main substrate 102. In addition, the various variation patterns on the sub main board 301 may be used in combination with the above-described various notice 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 related 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 use the first lottery result by the first lottery means 126 or the second lottery result by the second lottery means 128 as the selected variation effect pattern data. Therefore, the decorative symbols 190 a to 190 c are displayed in a variable manner in the display area 194 of the effect symbol display device 60.

  When the second lottery 146 holds the result of the second lottery, the first effect control unit 168 reserves the start of the symbol variation display corresponding to the first lottery. The second effect control means 170 starts the symbol fluctuation display corresponding to the second lottery regardless of whether or not the first lottery result is held by the first holding means 144. As a result, 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 out, and the decorative design fluctuates. Is displayed. In such a case, the lottery value held by the first holding unit 144 is not read until the number of holdings of the second holding unit 146 becomes zero, and the variation of the decorative design does not start. Thus, the effect display control means 134 causes the effect symbol display device 60 to display the symbol variation effect including the variation display of the decorative symbols 190a to 190c.

  The effect determination unit 132 stores the pending lottery result notified by the prior information notification unit 157 in a predetermined buffer area. Further, the effect determination means 132 includes a lottery result regarding the change (change display 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 board 102, The notice effect is displayed in accordance with the reserved lottery result notified in advance by the information notification means 157 and stored in the buffer area. Specifically, a notice effect that is a precursor to suggest the presence or absence of a big hit in the result of the pending lottery in which symbol variation is performed at a future time is displayed. The effect determining means 132 executes a predetermined notice lottery for determining whether or not to display the notice effect, and on condition that the notice lottery is won (for example, with a predetermined probability). A notice effect is displayed. Thus, the notice effect set according to the preliminary determination result in the pending lottery result is called “prefetch effect”.

In addition, the effect determining unit 132 is configured to set the number of holds in the first holding unit 144 (hereinafter also referred to as “first holding number”) and the number of holdings in the second holding unit 146 (hereinafter referred to as “first” in the winning information). 2), and the first hold number and the second hold number at the current time point are specified in accordance with the execution state of the symbol variation (that is, the holding state). The effect display control unit 134 displays the first hold number and the second hold number specified by the effect determining unit 132 on the first hold number display unit 196 and the second hold number display unit 197 of the effect symbol display device 60. Display. Further, when the number of holdings is newly specified by the effect determining means 132, the display of the first holding number display unit 196 and the second holding number display unit 197 is sequentially updated.
<< Various patterns for prefetching production >>

  When the above-mentioned pre-reading effect is executed, an effect pattern (including visual and auditory ones) different from the normal effect pattern that appears before that is executed. The specific mode and execution start timing of the production pattern related to the pre-reading production are not uniform and are varied.

  For example, as an example of the pre-reading effect, a display using a hold display on the first hold number display unit 196 or the second hold number display unit 197 shown in FIGS. 7B1 and 7B2 can be used. Furthermore, as a different production pattern (hereinafter referred to as “holding change”) performed in the hold display, a change in the color, shape, or pattern of the hold ball display, or a hold display so that the flash is repeated. What blinks or a combination thereof can be cited. Among these, examples of changing the form of the reserved sphere display include those that change the color of the reserved sphere display to, for example, normally green, but to red or gold at a predetermined timing. In addition, the shape of the holding ball display can be changed from the normal perfect circle shape to various items and person forms related to the production story (all of which include moving images), or the form before the change of hold For example, it is possible to magnify the image while keeping the similar shape. Moreover, as what changes the pattern of a holding ball display, what changes from the display of a normal monochrome pattern without a pattern to a body surface pattern etc. can be illustrated. Further, examples of blinking the hold display include those that vary the blinking cycle.

  Furthermore, the timing of such a holding change is also various, for example, based on the start winning (the detection of a game ball, which may be referred to as “target winning” in the following) that is the target of the holding change. Or, other starting prizes (also referred to as “other prizes” in the following) may be used as a reference. Furthermore, at the timing of the pending change based on other winnings, a change display (hereinafter referred to as “advance fluctuation”) related to a start winning that occurred prior to the target winning (hereinafter may be referred to as “preceding winning”). And the like based on the start prize (hereinafter sometimes referred to as “follow-up prize”) generated after the target prize.

  Among these, as the pending change based on the target winning, the effect determining means (not shown) which is a functional means provided in the sub-board 104 determines the target winning based on the preliminary determination result related to the target winning. There is a mode in which the hold change is executed from the beginning of the corresponding hold display. In addition, it is conceivable that the hold display corresponding to the target winning is initially started with a normal hold display pattern, and the hold is changed after a predetermined time has elapsed.

  Moreover, the following can be mentioned as a pending change on the basis of the state of a preceding winning prize or a preceding fluctuation. For example, the hold display related to the target winning is started with a normal display pattern, and thereafter, the variable display that was executed when the target winning is generated is ended. Then, the variable display related to the one that has been stored on hold earlier (the one that was stored on the first hold) among the start winning information related to the preceding winning that has been held until then is started. Then, when the hold display related to the target winning is shifted to a hold display that is one lower level (for example, shifted from the 4th to the 3rd hold display), a special display from the normal hold display pattern is displayed. It changes to a pattern.

  Further, as the pending change based on the state of the preceding winnings or the preceding fluctuations, there can be cited those which are executed continuously using the preceding fluctuations and straddling a plurality of fluctuation displays (a plurality of starting winning information). . And the following can be illustrated as an effect pattern of this continuous reservation change. For example, when the hold display related to the target winning is performed at the fourth position (fourth position (leftmost position)) in the first hold number display section 196 in FIGS. 7B1 and 7B2 The display is performed in a color (for example, red) different from the color (for example, green) of the normal hold display at another position (for example, the first to third positions). Then, the reservation of the hold proceeds, and the position of the hold display related to the target winning is the right side to the third position, the second position, and the first position (left side in the case of the second hold number display section 197). Each time the shift to, the color of the hold display changes in order of orange, gold, and rainbow.

  Moreover, the following things can be illustrated as a pending | holding change on the basis of the above-mentioned subsequent winning prize. For example, every time a start prize is detected, the above-described effect determination means performs a lottery (holding change execution lottery) as to whether or not to perform a holding change related to the target winning, and the lottery result changes to hold. If it is, regardless of the position where the hold display related to the target winning is displayed, the hold display of the target winning performed at that time is changed to hold. Further, not limited to this, when the hold change execution lottery result indicates that the hold change is performed, the hold display related to the target winning is shifted to a predetermined position (for example, the second position). In addition, it may be possible to change the mode to a different mode. It should be noted that the hold change execution lottery is not limited to each start winning prize, but for example when a predetermined condition is satisfied (for example, during a specific effect mode or while a predetermined effect is being executed). You may make it carry out only.

  In the present embodiment, the hold display is taken as an example of the effect pattern related to the prefetch 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. And as a mode of control for stopping an effect pattern, for example, an effect (hereinafter referred to as “continuous notice”, including a pseudo one) that is continuous over a plurality of variable displays is executed. In such a case, a lottery for determining whether or not to end the continuous notice is determined based on the lottery result of the pre-read gaming state.

  Regarding the pre-reading effects as exemplified above, it is possible to adopt a configuration for transmitting the type of symbol group of special symbols. That is, as the first special symbol 192 (or the second special symbol 193), for example, a large number of 256 types or the like are set, and the first special symbol display device 70 (or the second special symbol display device 71) is set. A large number of symbols can be distinguished by the difference in the lighting pattern of the constituent LEDs. Then, these many symbols are classified into, for example, 16 types in a manner associated with the result of the lottery determination, and a plurality of groups each including a plurality of symbol groups are formed. Furthermore, a code that can be identified by the sub-main board 301 is assigned to each symbol group, and an effect pattern is designated from the main board 102 to the sub-main board 301 as the code of the symbol group to which the numerical value obtained by random number lottery belongs. Included in the command to be sent. Then, the sub-main board 301 determines which symbol group the command relates to based on the command from the main board 102, and executes the pre-reading effect in association with the result of the lottery determination based on the determination result.

  Here, as the symbol group, for example, a small hit pattern (decorative combination pattern of decorative symbols 190a to 190c, an opening pattern of a big prize opening, etc.), presence / absence of a short time, short time pattern (50 after big hit) , 100 times, until next big hit, etc.) can be considered.

  Note that the command related to the pre-reading effect can be configured to include four pieces of information, that is, whether or not, winning symbol, variation pattern, and number of reserved balls as one set. Furthermore, since the random number, the design 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. It should be noted that even if the term “grouping” is replaced with a term such as “blocking” or “grouping”, the technical significance can be the same.

  Further, it is possible to adopt a configuration in which the transmission condition of the prefetch command is changed and set according to the situation, and the command transmission according to the transmission condition is performed in the situation where the transmission condition is set. For example, during a big hit (during a special game), only the second special symbol 193 related to the second game is valid, and only the command related to the second special symbol 193 may be transmitted. Also, whether it is a lottery related to the first game or the second game, whether it is a normal game state, or whether it is a specific game state with certainty (or time reduction or electronic Chu support), etc. Depending on the point, etc., it is also possible to switch the tables to be used (for example, a determination table, a symbol determination table, a variation pattern table, etc.).

Note that the hold display is not limited to the gaming state in which the pre-reading effect as described above is performed, but can be performed in a manner according to various other gaming states. For example, when the probability of jackpot lottery is a normal probability and when the probability is a high probability, the display mode of each other is different, when the extension of normal electric equipment is being extended (when the open extension function is in operation) When the opening extension is not performed (when the opening extension function is not activated), it is possible to change the display mode of each other. As a specific mode of the hold display, the shape of the first hold number display unit 196 (or the second hold number display unit 197) is changed from a perfect circle to a shape of a specific character or item. it can. It should be noted that it is possible to delay or speed up the start and end timing of the effect in the hold display mode that varies depending on the gaming state with respect to the timing at which the corresponding gaming state occurs.
<Various commands transmitted from the main board to the sub main board>

  Next, various commands transmitted from the main board 102 to the sub main board 301 will be described. First, as command transmission timing, during initial screen display, during customer waiting demo (standby demo), at the time of special symbol change start, at the time of special symbol determination, at the time of special symbol determination, at the time of jackpot start demonstration, There are a big hit start demonstration, a big hit middle and big prize opening opening, a big hit middle and big prize winning opening closed, a hit end demonstration, and a big hit end demonstration end. Among these, the initial screen display is a period from when the pachinko gaming machine 10 is powered on until the customer waiting demonstration starts and enters a steady state. In addition, command transmission is performed in any case at the time of start winning, at the time of power failure recovery, and at the time of error detection. Furthermore, command transmission is executed even when the RWM is cleared.

  Among these, commands for RWM clear include commands for effect display initialization, effect LED initialization, 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 turn on a part of the game effect lamp 90 when communication is normal. The various error commands are used for effect display according to the error state.

  As a customer waiting demo command, there is a customer waiting demo command. This 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 deleting the sound.

  As a command at the time of starting the symbol change of the special symbol, the number of symbols 1 stored, the number of symbols 2 stored, the communication inspection 1, the communication inspection 2, the number of times of production A to Z, the production selection state 0 to 2, the variation additional information, the design 1 production There are commands for pattern, symbol 2 effect pattern, symbol 1 character effect, 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 or not normal communication is being performed. The various commands of the production times A to Z indicate the number of productions according to the above-described limited frequency table, and the various commands of the production selection states 0 to 2 indicate the types of production according to the limited frequency table. Is. 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 is for transmitting a command corresponding to the variation pattern of the second special symbol 193. 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. Is.

  As a command for determining a special symbol, there are a symbol 1 effect pattern stop command and a symbol 2 effect pattern stop command. The symbol 1 effect pattern stop command and the symbol 2 effect pattern stop command are used to stop the decorative symbols 190a to 190c based on the first special symbol 192 and the second special symbol 193, respectively.

  The commands for determining a special symbol include: 0 fluctuation time reduction (low probability), fluctuation time reduction times A to Z (low probability), 0 fluctuation time reduction (high probability), and probability fluctuation ( There is a command of short time to next big hit. These are for transmitting a command relating to the gaming state at that time, and are used for the production mode display, the short-time display, and the like.

  As the command for the big hit start demonstration, there are a symbol one big hit start demonstration, a symbol two big hit start demonstration, and a command for specifying a launch position. The symbol 1 jackpot start demo command and the symbol 2 jackpot start demo command are for displaying a start demo based on the jackpot symbol of the first special symbol 192 or the second special symbol 193. The launch position designation command is used to notify the launch position when the player places a game ball between the first grand prize winning port 91 and the second big prize winning port 92 by so-called left-handed or right-handed. belongs to.

  As commands at the time of the small hit start demonstration, in addition to the above-described commands for finalizing the special symbols, there are a symbol small hit start demonstration, a symbol two small hit start demonstration, and a launch position designation command. Since the small hit is not accompanied by a probability change and the gaming state does not change, the special symbol determining command relates to the gaming state at the low probability. The symbol 1 small hit start demo command and the symbol 2 small hit start demo command are for displaying a start demonstration effect based on the small hit symbol of the first special symbol 192 or the second special symbol 193. The firing position designation command causes the player to place a game ball between the first big winning opening 91 and the second big winning opening 92 by so-called left hitting or right hitting as in the big hit start demonstration. In this case, the launch position is notified.

  The commands for opening the jackpot medium / large prize winning opening include the commands of symbol 1 big hit middle demo 1-16 and symbol 2 big hit middle demo 1-16. These are for displaying effects based on the jackpot symbols of the first special symbol 192 and the second special symbol 193 and the number of rounds.

  As a command at the time of closing the jackpot, the winning prize closing command is available. This is for displaying the special prize closing effect.

  As a command at the time of winning / ending demo, there are a command of ending demo per symbol 1 and a command of finishing demo per symbol 2. These are for displaying a winning end demonstration effect based on the winning symbols of the first special symbol 192 and the second special symbol 193.

  There is a launch position designation command as a command at the end of the big hit end demo. This is a case where it is necessary to distinguish the launch positions for reasons such as the positional relationship of the first start winning opening 62, the second starting winning opening 63, the first big winning opening 91, and the second big winning opening 92. In order to notify the launch position.

  As a command at the time of starting winning a prize, there are commands of winning notice, symbol notice, fluctuation notice, symbol 1 memory number, symbol 2 memory number. Each command of winning notice, symbol notice, and change notice is a pre-read command by the advance information notification means 157. The hit advance notice command is for transmitting a random number range of pass / fail random numbers, and the symbol advance notice command is for transmitting a random number range of design random numbers. Further, the change notice command is for transmitting a random number range of the change pattern. The command of the number of stored symbols 1 and the number of stored symbols 2 is for transmitting the number of reserved memories of the first special symbol 192 and the second special symbol 193.

  As the command at the time of power interruption return, communication inspection 1, communication inspection 2, game state A to E for power interruption recovery, production times A to Z, production selection states 0 to 2, design 1 character production, design 2 character production, There are commands for the power failure return state, special symbol 1 state upon power interruption return, special symbol 2 state upon power interruption return, launch position designation, errors a to d, symbol 1 memory count, symbol 2 memory count.

  The commands of the communication inspection 1 and the communication inspection 2 are for confirming whether or not normal communication is being performed. The commands for the game states A to E for power interruption return are for transmitting different commands depending on the game state at the time of power interruption. The commands for the number of performances A to Z indicate the number of times related to the performance according to the above-described limited frequency table, and the commands for the effect selection states 0 to 2 indicate the types of effects 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 interruption return status command is for transmitting different commands depending on whether or not the big hit and the small hit are being hit. The special symbol 1 state at the time of power interruption return and the special symbol 2 state at the time of power interruption return are the commands according to the status of the first special symbol 192 and the second special symbol 193 such as waiting, changing and hitting. It is for sending. The launch position designation command is for designating an appropriate launch position according to the situation as described above. Errors a to d are for transmitting the presence and type of error. The command of the number of stored symbols 1 and the number of stored symbols 2 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 board 102 of the pachinko gaming machine 10 configured as described above will be described with reference to FIGS. Prior to the description, the terms “special electric accessory”, “condition device”, and “substantial action continuous operation device” used below 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 accessory” operates the first grand prize port 91 and the second major prize port 92. It will be. In addition, the “condition device” is activated when a game ball that has entered the first grand prize winning port 91 or the second grand prize winning port 92 is detected. An object can be operated several times in succession.

The main control processes of the pachinko gaming machine 10 described here are the control start process and power-off process shown in FIGS. 12 and 13, the game progress interrupt process shown in FIG. 14, and the power-off confirmation information setting process. These are executed on the main board 102.
<< Control start processing >>

The control start process shown in FIG. 12 and FIG. 13 is a control process that is started after a security check using the manufacturing code of the CPU 501 is performed by turning on the pachinko gaming machine 10, and this control start process will be described later. After executing the necessary settings (S1 to S4) when the power is turned on, the operation state of the initialization switch 544 (S5), the power-off information flag (power-off confirmation information) in the power interruption status confirmation processing (S6 to S8) Corresponding to the value and the addition result (checksum data) of the RWM area, processing at the time of power-off recovery (S9 to S17), processing at initialization of the RWM (S24 to S26), time setting for game progress interruption The process (S27), the circulation process (S33 (S28 to S32)), the process at the time of setting the power-off confirmation information (S301 to S307), and the like are executed. Etc.
<<< Required settings at power-on >>>

  As necessary settings at power-on, stack pointer setting (S1), interrupt mode setting (S2), and access permission to RWM 503 are set (S3), and then the internal registers are initialized ( S4).

Among these, in the process of setting the stack pointer (S1), in order to secure the stack area, the stack pointer is set as the initial value of the stack pointer, and the stack pointer is set at a specific address. Next, in the interrupt mode setting (S2), a mode of a predetermined number is set, and in the access permission setting (S3) of the RWM, access permission data is set in a predetermined register to permit access to the RWM. To do. As a result, the maskable interrupt is set to a specific interrupt mode and the CPU built-in RWM is permitted to access. Further, in the setting of the internal register (S4), various corresponding setting values such as a game progress interrupt use setting value and a clock source selection value are set using the internal register initial setting table. The interrupt in the main board 102 will be described later.
<<< Confirmation of RWM Clear Switch Operation Status >>>

  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 via the input port is confirmed. It is determined whether or not the RWM clear switch has been pressed (turned on). If it has not been pressed (S5: NO), the value of the power-off information flag during the power interruption status determination process (S6 to S8) to be described later The process proceeds to the determination process (S6). On the other hand, if the initialization switch 544 has been pressed (S5: YES), the RWM initialization process (S24 to S26) is performed.

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

Further, in the state confirmation process (S5) of the initialization switch 544, the RWM head address (address) is set as the reference value of the relative address, the number of input confirmation times (here, 5 times) is set, and the corresponding input port Control processing such as input of a value, inspection of an RWM clear switch bit in the value of the input port, confirmation of an inspection result, input confirmation repeated for the set number of input confirmations, and the like are executed.
<<< Situation confirmation process at power interruption >>>

  In the power interruption status confirmation processing (S6 to S8) when the initialization switch 544 is not operated, the value of the power interruption information flag is read, and whether the read value matches predetermined power interruption normal data. It is determined whether or not (S6). The power-off normal data is stored when the power-off process is normally performed when a power-off (power-off) that turns off the power occurs. If 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 RWM initialization processing (after S24).

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

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

  In the process at the time of power-off recovery, the value of the stack pointer buffer is set in the stack pointer, and the stack pointer is restored to the value stored at the time of power-off (S9). Furthermore, in order to inspect the communication line between the main board 102 and the sub board 104, a request to send an effect control command to the sub board 104 is made (S10, S11), and a decoration lamp (game effect lamp) and sound effect (sound) In order to return the effect of (effect) to the state before the occurrence of the power interruption, a request to transmit the effect control command to the sub-board 104 is made (S10, S11). Further, in order to make a request for a command corresponding to the number of suspended balls in the special symbol display device (70, 71), symbol memory number command request processing is executed (S12).

  Further, the solenoid is returned to the output state before the occurrence of power interruption (S13). Specifically, in order to return the open / closed state of the second start winning opening 63, the first big winning opening 91, and the second big winning opening 92 to the state before the power is turned off, the normal electric accessory solenoid 76, the big winning prize The solenoid actuation bits for the mouth solenoids 80, 81 are inspected in turn. When the solenoid operation bit of the normal electric accessory solenoid control is on, it is determined that the second start winning port 63 is open before the power is turned off, and the second start winning port 63 is opened. Store in the accessory solenoid control. Subsequently, when the solenoid operation bit of the first grand prize solenoid control is on, it is determined that the first big prize port 91 is open before the power is turned off, and the first big prize port 91 is opened. Is stored in the normal electric accessory solenoid control. When the solenoid operation bit of the second grand prize solenoid control is on, it is determined that the second big prize opening 92 is open before the power is turned off, and the solenoid action setting value is set to open the first big prize opening 91. Store in the normal electric accessory solenoid control.

Thereafter, the process proceeds to the subsequent special symbol setting process (S14), and information on 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 power recovery setting (S15) and the data storage process (S16) are executed, and further, the communication line abnormality detection setting with the payout control board is executed (S17). Here, the error flag address is set. Is set, and the communication line abnormality bit of the content of the error 1 flag is set. Then, the control process proceeds to a time setting process (S27) for a game progress interrupt described later.
<<< Processing at initialization of RWM >>>

  In the RWM initialization process (S24 to S28), after clearing the RWM area (S24), initial setting of the RWM (S25), initialization of the effect indicator (effect symbol display device 60) (S26), And the time setting for game progress interruption is performed (S27). Among these, in the process of clearing the RWM area (S24) to initial setting of the RWM (S25), clear data (00H) is set in all areas of the RWM, and the clear data is stored as the reference value of the relative address. Is incremented by one. Further, bit 7 of the reference value is inspected, and the inspection result is determined. In the inspection result determination process, if the inspection result is 0, the process returns to the process of storing the clear data in the reference value. If the inspection result is 0, the address of the initialization data setting table is set. . Thereby, the initial value of RWM is set. Note that the clearing of the RWM area is not limited to that performed for all areas. For example, only a part of the area where specific information is stored or only an area excluding an unused area is cleared. Also good.

In initialization of the effect display (S26), command request data is used with the address of the effect initial command setting table as an argument to initialize the effect symbol display device 60, and to send a command transmission request for error status and illegal prize ball monitoring information. Execute the setting process.
<<< Processing of timing setting for game progress interruption >>>

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

  After the time setting for game progress interruption (S27), preparation for recursion (restart) of a predetermined timer which is an interrupt processing time monitoring means and update of random number related values used for generating initial values of various random numbers are performed. Circulation processing (S33 (S28 to S32)) is executed. In this circulation process (S33), in order to manage gaming machines, interrupts are first prohibited (S28). Further, in preparation for recurring the interrupt processing time monitoring means, a predetermined value as the first recursion information is set in the interrupt processing time monitoring means clear register (S29). The 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). If it is set (S30: Yes), the process proceeds to power-off processing (S301 to S307) described later.

  When it is determined that the power-off confirmation information is set (S30), if it is determined that it is not set (S30: No), the initial value random number update process is executed (S31). The initial value random number per symbol, the initial symbol random number per special symbol, and the soft initial value random number per special symbol are updated. Thereafter, after permitting the interrupt (S32), the process returns to the interrupt prohibition (S28) process again, and the subsequent processes (S28 to S32) are sequentially repeated to circulate the control process.

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

  If it is determined in the determination (S30) whether the power-off confirmation information is set (S30: Yes), the CPU 501 functions as a forced recursion unit and sets the 22nd recursion information. (S301), the monitoring time of the interrupt processing time monitoring means is forcibly initialized, and the time is recurred. When the power supply is resumed by setting the second recursive information forcibly (S301), the control process is started with the monitoring time recursed. In other words, by forcibly recurring the monitoring timing when the power is cut off, the control processing can be prevented from proceeding without recurring monitoring timing in the control processing immediately after the power supply is resumed. It has become.

  Subsequently, the address of the power-on information flag (power-off information flag) 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 stored normally (S302). 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 RWM checksum at the time of power-off is set. Calculated (S305), checksum data is created. Then, the access prohibition is set (S306), and the power-off loop processing (S307) waits for the supply voltage to become a predetermined value or less and the power-off.

In the determination of whether or not the information at the time of power-on is normally stored (S302), if the determination result is not normally stored (S302: No), the power failure error data is set. After (S303), the process proceeds to the aforementioned access prohibition process (S306).
<<< Processing for setting power-off confirmation information >>>

  Next, the control process when setting the power-off confirmation information determined in S30 described above will be described. First, after the power is turned on, a control start process (see FIG. 12 and FIG. 13) is started through a predetermined process, and further a time setting process for game progress interruption (FIG. 13) executed during the control start process. The loop process is started through the process (shown in S27). 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 a power supply voltage drop occurs during the game progress interrupt process, the control process jumps to a predetermined address (address 0066H in this case) and shifts along with the non-maskable interrupt process (NMI process). Then, in accordance with the contents specified after the predetermined address (0066H) by the control program, power-off confirmation information indicating that NMI processing has occurred is set, and power-off confirmation for setting this power-off confirmation information The information setting process returns to the return, and the process returns to the process when the power interruption occurs during the game progress interrupt process. Then, all the remaining processes to be executed in the game progress interruption process in the cycle are completed, the process returns to the return, and the process returns to the control start process (here, the loop process corresponding to S33 in FIG. 13).

  If a power supply voltage drop occurs during the loop process, the control process shifts to a predetermined address (0066H) in the same way as described above with the NMI process. Then, the power-off confirmation information is set, the process returns to the return, and the process returns to the control start process (here, the loop process (S33)).

  Then, it is determined whether or not the power-off confirmation information is set as described above (S30 in FIG. 13). Here, if the power-off confirmation information is not set, the process proceeds to the loop process start process 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 S301 to S307 described above) is executed, and the power is turned off after the power-off process is completed.

  In this embodiment, when a non-maskable interrupt occurs, the instruction being executed is completed in units of instructions. For example, when a non-maskable interrupt occurs during the execution of the control process indicated by reference numeral 552 in FIG. 16 (here, the LD (load) instruction), the control process 552 is continued during the execution of the instruction, and the execution of the LD instruction is executed. After the above is completed, the power-off confirmation information is set. That is, the setting time of the power-off confirmation information is determined by the control processing in units of instructions, and the power-off confirmation information is set after completing such an instruction.

  Here, the control process including the above-described command includes a control process for each program module (in this embodiment, for example, a control start process (see FIGS. 12 and 13), a game progress interrupt process (see FIG. 14), an initial value, and the like. It 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 execution of a specific instruction constituting the control process of the second recursive information set (S43), execution of this specific instruction Power off confirmation information is set after ending. Then, the process for setting the power-off confirmation information for setting the power-off confirmation information is returned to the return, and the process returns to the process when the power interruption occurs during the game progress interruption process. Then, all the remaining processes to be executed in the game progress interruption process in the cycle are completed, the process returns to the return, the process returns to the control start process (loop process corresponding to S33 in FIG. 13), and the power-off process (described above) (Corresponding to S301 to S307) is executed.

  For example, when a non-maskable interrupt occurs during execution of a specific instruction in various random number update processes (S46), the power-off confirmation information is set after the execution of the specific instruction is completed. Then, the process for setting power-off confirmation information is returned to the return, the process returns to the process at the occurrence of power interruption during the game progress interrupt process, and all the remaining processes to be executed in the game progress interrupt process in the cycle are completed and controlled. Returning to the start process, the power-off process is executed in the same manner as described above.

  Such a control mode is the same when a non-maskable interrupt occurs in various situations during the game. For example, when a non-maskable interrupt occurs during the execution of a specific instruction from the start of a prize monitoring process (S51) described later to the end of the prize ball control process (S52), the execution of the specific instruction is finished. After that, the power-off confirmation information is set. Then, the process returns to the winning monitor process (S51) or the prize ball control process (S52), and all the remaining processes to be executed in the game progress interrupt process in the cycle are completed and the process returns to the return, and the control start process (FIG. 13). Returning to the loop processing corresponding to S33 in the middle), the power-off processing (corresponding to S301 to S307 described above) is executed.

  Further, other control processes in the game progress interruption process will be described. Special symbol control start process (S57) defining a control process related to special symbol fluctuation, special symbol fluctuation start monitoring including a process of performing a big hit lottery determination Even when a non-maskable interrupt occurs during execution of a specific command in the control processing (S60), the abnormality detection processing (S61) defining the control processing related to error detection and error notification, or other control processing, the command at that time After the execution of is completed, the power-off confirmation information is set, and the power-off process is executed after all the remaining processes to be executed in the game progress interruption process of the cycle are completed.

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

Further, the power-off required time is set to end before the timing at which the sub-board 104 that receives various control commands depending on the main board 102 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 as the sub-control means executes the power-off process in preparation for power-off according to the contents of the control process. However, the start timing of the power-off process executed in the sub-board 104 is after the power-off required time has elapsed in the main board 102 and the power-off process is completed. In addition, not only the sub-board 104 but also the payout control board 54, for example, the power-off process may be started after the power-off required time has elapsed in the main board 102. In addition, the relationship between the power-off required time of the main board 102 and the start time of the power-off process of the sub-control unit may be applied only to the payout control board 54. Further, in the case where a sub control means having a control function is provided in addition to the sub board 104 and the payout control board 54, it is also possible to apply to the sub control means.
<<< Initial value random number update processing >>>

  In the initial value random number update process (S31), since the initial value random number per normal symbol, the symbol initial value random number per special symbol, and the soft initial value random number per special symbol are updated, the random number is updated from the initial value random number update table. The number of times is acquired, and the initial random number is updated for the number of times of update. In the acquisition of the random number update count, the content (number of random numbers) indicated by the data address (0D10H) in the first column of the first column of the initial random number update table (see FIG. 15A) is used as the random number update count. . Here, the number of random numbers is three: an initial value random number per normal symbol, a symbol initial value random number per special symbol, and a soft initial value random number per special symbol. Furthermore, in the process of updating the initial value random number for the number of times of update, a 2-byte soft random number for the number of times of update, using as an argument the data address (0D13H) of the initial value random number address (lower order) per normal symbol of the initial value random number update table. Update processing (described later) is executed. When the number of updates is two or more, the reference value of the relative address acquired by the previously executed 2-byte soft random number update process is used as an argument. Then, using the random number value obtained by the 2-byte soft random number update process, a random number related value in the initial value random number update process (S31) is generated.

  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, after the reference value is incremented by 1 and the number of random numbers is saved, a 2-byte soft random number update process is executed. Further, the number of random numbers is restored, and if the result of decrementing the number of random numbers by -1 is not 0, the process returns to the process for saving the number of random numbers, and if it is 0, the initial value random number update process (S31) is exited.

In addition, in the initial value random number update process (S31), if there is an abnormality in the random number related value, the random number related value is corrected. In this random number related value correction process, 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 this random number related value. If the result of subtraction is 0, it is determined that the random number related value is normal and stores the random number related value, but if it is less than 0, it is determined that the random number related value is normal and the maximum value of the random number related value +1 is set as a correction value, the 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 abnormal random number related value is corrected. That is, the random number related value is corrected by performing a predetermined calculation on the random number related value and correcting the random number related value when the calculation 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 random number value and random number storage address are acquired from the input relative address reference value, and the random number is updated. In the acquisition of the maximum value of the random number, the content indicated by the reference value +0 is the lower value of the random number maximum value, and the content indicated by the reference value +1 is the higher value of the random number maximum value. In the acquisition of the random number storage address, the content indicated by the reference value +2 is the lower random number storage address, and the RWM head upper address is the higher random number storage address. In updating the random number, the random number is incremented by +1, and when the random number exceeds the maximum value, the random number is incremented by 0. Therefore, a 2-byte random number is acquired from the content indicated by the acquired random number storage address, and the acquired random number is incremented by one. As a result of addition, if the obtained random number maximum value is exceeded, 0 is set. The updated random number is stored in the obtained random number storage address and then set in the output random number data. Further, the reference value +3 is set to the reference value to be output.
<< Game progress interrupt processing >>

  Next, the game progress interrupt process repeated at a cycle of 4 ms based on the period information set in the process of time setting for game progress interrupt (S27) will be described. As shown in FIG. 14, in the game progress interrupt processing, setting of interrupt operation conditions (S41, S42), recursion of interrupt processing time monitoring means (S43), management of gaming machines (S45 to S70), interrupt permission ( S71) is performed in order to return to the process before the game progress interruption occurs.

  Specifically, in the interrupt operation condition setting process (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 further set in the interrupt processing time monitoring means register (S44). As will be described later, the second recursion information is a condition for recurring and restarting the monitoring time of the interrupt processing time monitoring means together with the first recursion information set previously.

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

  Subsequently, various random number update processing (S46) is executed to update the normal symbol variation pattern random number and the variation pattern random number. Further, an initial value update type random number update process (S47) is executed to update the random numbers per ordinary symbol, the symbol random numbers per special symbol, and the soft random numbers per special symbol. Next, an initial value random number update process (S48) is executed to update the initial value random number per normal symbol, the symbol initial value random number per special symbol, and the soft initial value random number per special symbol. Further, in order to update the 2-byte timer, a timer subtraction process (S49) is executed, and in order to set an effective period of the second start winning opening 63, an effective period setting process (S50) of the second start opening is executed. .

  Further, a winning monitoring process (S 51) is executed to store the number of times a prize ball is paid out, create an output request for board external information, and send a command to be sent to the sub-board 104. Subsequently, in order to control the payout control board 45, a prize ball control process (S52) is executed.

  Next, when the game ball passes through the normal symbol operating gate (operating port 68), a normal symbol operating gate monitoring process (S53) is executed to store a random number related to the normal symbol, and the normal symbol display device or the normal symbol is displayed. A normal symbol control process (S54) is executed in order to perform a process related to the electric accessory. Further, the normal symbol variation start monitoring process (S55) is executed in order to monitor the normal symbol variation start. In addition, in order to monitor the winnings of the first starting winning port 62 and the second starting winning port 63 of the game ball, the starting port monitoring control process (S56) is executed, and the first special symbol display device 70 or the second special symbol is executed. In order to perform a process related to the display device 71, a special symbol control process (S57) is executed. Subsequently, in order to perform the process related to the special electric accessory, the special electrical accessory control process (S58) is executed, and the process related to the validity period of the first grand prize port 91 or the second grand prize port 92 is performed. The special winning opening valid period setting process (S59) is executed, and the special symbol fluctuation start monitoring control process (S60) is executed in order to monitor the fluctuation start of the first special symbol 192 and the second special symbol 193.

  Next, anomaly detection processing (S61) is performed to monitor magnetism, disconnection / short circuit / power supply monitoring, radio wave monitoring, glass frame set / game board frame open / closed status monitoring, and paired glass monitoring Then, in order to detect an abnormality in the incoming ball passage time, an incoming ball passage time abnormality detection process (S62) is executed. In addition, in order to make a display request for the number of times that the special electric accessory is continuously operated, the error state, the number of balls on which the normal symbol display device is suspended, and the number of balls on which the special symbol display device is suspended, a game state display process (S63). ) And a handle state signal inspection process (S64) is performed to monitor the touch state (including the operation amount state) of the firing handle 17. In addition, special symbol display, normal symbol display, special symbol display device (70, 71) display of the number of active reserve balls, normal symbol display device display of the number of active reserve balls, game state display, special electric accessory LED output processing (S65) is executed in order to display the number of times of continuous operation and error display.

  Subsequently, a firing control signal output process (S66) is executed in order to output a signal for prohibiting / permitting the launch of the game ball, and a test signal output process (S67) in order to create and output a signal to be output to the test apparatus. Execute. Further, in order to output the output data of the normal electric accessory solenoid, the first big prize opening opening solenoid, and the second big prize opening opening solenoid, the solenoid output processing (S68) is executed, and an effect control command is transmitted. The effect control command transmission process (S69) is executed, and the external information output process (S70) is executed to output signals to the external terminals (various external output terminals of the external relay terminal board 49 (see FIG. 2)).

Thereafter, the interrupt permission (S71) is executed, and the control process returns to the return (RET). Then, using the remaining time until the next game interrupt is executed, the above-described circulation process (S28 to S32) of the control start process is executed.
<<< Input processing >>>

  The input process (S45) is a control module related to switch input. In this input process (S45), each switch attached to the game board surface, a disconnection short circuit power supply abnormality detection signal, an open signal, a radio wave detection signal, 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 the switch input is performed for the number of inspections.

  In obtaining the number of inspections, the input port address, the level mask data, the level address, and the rising mask data, the contents indicated by the address of the input information table (input information table +0) are used as the number of inspections, and the input port address from the input information table +1 Level mask data, level address, and rising mask data are acquired for the number of inspections.

  In switch input, after the level data of the acquired input port is created, if the acquired rising mask data is other than 0, the rising data is created. In creating the level data, the state of the bit indicated by the acquired level mask data is read continuously for a predetermined number of times (for example, 5 times) at intervals of a predetermined period (for example, 5 μs) from the acquired input port, and 5 times. Are stored in the acquired level address as the current level data. The upper address (level upper address) of the level data is the RWM head upper address (0F0H). Further, the previous level data is stored as a bit that has not been matched even once in five readings.

In creating rising data, in order to create rising data of the bit indicated by the acquired rising mask data, the exclusive OR of the current and previous level data is calculated, and the result of the exclusive OR and the current level data Calculate logical product. Further, the logical product of the generated rising data and the acquired rising mask data is calculated, and the result of this logical product is stored in the area of the address added to the acquired address of the level address.
<<<< Random number update process >>>>

In the various random number update processing (S46), the normal symbol 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 incremented by 1 and set to 0 when exceeding the maximum value (232 in this case), 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 variation pattern random number, a predetermined value (3511 in this case) is subtracted from the value of the variation pattern random number in order to update the variation pattern random number. If 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. 15B) is used to update the random numbers per normal symbol, the symbol random numbers per special symbol, and the soft random numbers per special symbol. Obtain the number of random numbers to be updated, the maximum random number value, the address of the initial value update type random number, the address of the initial value work, and update the initial value update type random number.

  In the acquisition of the number of random numbers to be updated, the maximum random number value, the initial value update type random number address, and the initial value work address, the data address (0D30H) in the first column of the left column of the initial value update type random number update table ) (Number of random numbers) is the number of random numbers to be updated, and the maximum random number, initial value update random number address, and initial value work from the second column on the left column of the initial value update random number update table Are sequentially acquired for the number of random numbers to be updated.

In the initial value update type random number update, the initial value update type random number is incremented by +1 and set to 0 when the maximum value is exceeded, so the maximum value of the initial value update type random number in the initial value update type random number update table is described. The 2-byte soft random number update process is executed using the current address as an argument. As a result of execution, if the updated initial value update type random number value matches the contents of the acquired initial value work random number, the initial value of the initial value update type random number is updated two lines below the acquired initial value work address. 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 processing >>>

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 update period of the random number related value is the period of the game progress interruption (here 4 ms). This is different from the case where it is executed during the control start process.
<<< Timer Subtraction Processing >>>

In the timer subtraction process (S49), in order to update the 2-byte timer, the contents of the 2-byte timer update table address (2-byte timer update table address + 0) are set as the number of timers, and the next address (2-byte timer update) The lower address of the 2-byte timer is acquired for the number of timers from the table address + 1). Also, the obtained 2-byte timer is inspected. If the 2-byte timer value is other than 0 as a result of the inspection, the 2-byte timer is updated (contents of 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 Port 2 Valid Period Setting Process >>>

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

In the winning monitoring process (S51), storage of the number of times a prize ball is paid out, creation of a security output request to be output to an external terminal (various external output terminals of the aforementioned external relay terminal board 49 (see FIG. 2)), and In order to make a transmission request for a command to be transmitted to the effect control board (here, the sub-main board 301), the contents indicated by the winning monitoring table address (winning monitoring table +0) are set as the number of inspections, and the game ball switches for the number of inspections. Perform pass inspection. As a result of the switch passage inspection, when it is determined that the game ball has passed the switch, the number of prize balls is stored, a security output request to be output to an external terminal is created, and a command transmission request is made. Here, the configuration of the winning monitoring table includes the number of inspections and inspection data of various game ball detection devices (game ball switches). The configuration of the inspection data includes switch bit data, EVENT data, MODE data, and winning ball determination. Data and invalid period presence / absence judgment data.
<<< Prize Ball Control Processing >>>

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

In the normal symbol operation gate monitoring process (S53), the normal symbol operation gate (here, the operation port 68) of the game ball is monitored, and if it is determined that the game symbol has passed the normal symbol operation gate, the normal symbol operation is performed. Update the number of reserved balls (the number of normal symbols held). As a result of the update, when it is confirmed that the game ball has passed when the value of the number of normal symbol operation reserved balls is less than the maximum number of 4, the random number related to the normal symbol is stored.
<<< Normal symbol control processing >>>

In the normal symbol control process (S54), since the normal symbol display device 59 or the process related to the ordinary electric accessory is performed, the state of the normal symbol is monitored, and when it is determined that the normal symbol control is being performed, the normal symbol display device 59 is displayed. Or the process which concerns on a normal electric accessory is performed. In monitoring the state of the normal symbol, if the 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 normal symbol status 1 to 4. The normal symbol status 1 is during normal symbol fluctuation, the normal symbol status 2 is during normal symbol stop symbol display, the normal symbol status 3 is during normal electric character operation, and the normal symbol status 4 is during normal electric character operation end demonstration. It corresponds.
<<< Normal symbol variation start monitoring process >>>

  In the normal symbol fluctuation start monitoring process (S55), when the normal symbol operating state is monitored and it is determined that the normal symbol fluctuation is started, the normal symbol operation holding ball number update, hit determination, stop symbol determination, Set normal symbol variation. When monitoring the normal symbol operating state, if the normal symbol status value is 0, indicating normal symbol variation waiting, and if the normal symbol operation holding ball number is other than 0, normal symbol variation starts. Judge that you want to. In updating the number of normal symbol operation reservation balls, the content of the number of normal symbol operation reservation balls is decremented by one. In the determination of the hit determination and the stop symbol, the normal symbol hit determination process is executed. In the normal symbol fluctuation setting, after setting the normal symbol fluctuation pattern number and the normal symbol fluctuation time, the RWM used for normal symbol state setting and hit determination and fluctuation pattern determination is cleared.

In setting the normal symbol variation pattern number, the probability variation function inspection processing is executed, and as a result of the execution, byte data acquisition processing is executed using the acquired normal probability variation operation data and the address of the normal symbol variation control table as arguments. As a result of the execution, a 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 setting the variation time of the normal symbol, the 1-byte selection number acquisition process is executed using the value obtained with reference to the normal symbol variation time table address (-2) and the normal symbol variation pattern number as arguments. As a result of execution, the acquired 2-byte data is stored in the normal symbol timer. In clearing the RWM used for normal symbol state setting, hit determination, and variation pattern determination, the data storage process is performed using the normal symbol variation state setting table address as an argument to set the normal symbol state to normal symbol variation. Run. Further, the normal symbol per-determination determination region used for the hit determination and the normal symbol variation pattern determination region used for determination of the variation pattern are cleared to zero.
<<< Starting Port Monitoring and Control Processing >>>

In the starting port monitoring control process (S56), the game ball starting port 1 (first starting winning port 62) winning and starting port 2 (second starting winning port 63) winning are monitored. For both the start port 1 and the start port 2, the start port monitoring process is executed using the corresponding monitoring table (start port 1 monitoring table or start port 2 monitoring table). The value of the 2 effective period flag is inspected, and when the value of the start port 2 effective period flag is predetermined start port 2 effective period data as a result of the inspection, the start port monitoring process is executed.
<<< Special Symbol Control Processing >>>

In the special symbol control process (S57), the waiting state is inspected, and when it is determined that the winning state is the special symbol display device 1 (first special symbol display device 70) or special symbol display device 2 (first 2 The processing related to the special symbol display device 71) is executed. In the winning waiting state test, if the value of the special electric game status (described later) is 0, it is determined that the winning waiting state. In the process related to the special symbol display device 1 or the special symbol display device 2, the value of the special symbol 2 game status is inspected in order to perform any of the processes related to the special symbol display device 1 or the special symbol display device 2. If the result of the inspection is 0, it is determined that the process related to the special symbol display device 1 is performed. If the result is other than 0, it is determined that the process related to the special symbol display device 2 is performed. In each of the processing related to the special symbol display device 1 and the processing related to the special symbol display device 2, the address and the special symbol control table of the corresponding special game status (special game 1 game status or special game 2 game status). The special symbol control general-purpose process is executed with the address of the special figure 1 control table or special figure 2 control table as an argument.
<<< Special Electrical Equipment Control >>>

In the special electrical accessory control process (S58), in order to perform processing related to the special electric accessory, the operating state of the condition device and the special electric accessory is inspected, and the condition device is operating or the special electric accessory is operating. If it is determined, the process related to the special electric accessory is executed. In the inspection of the operating state of the condition device and the special electric accessory, if the value of the special electric game status is other than 0, it is determined that the condition device is operating or the special electric accessory is operating. While the condition device is operating or the special electric accessory is operating, the value of the special electric game status takes 1 to 8, and the corresponding control module is executed in each special electric game status 1 to 8. The special electric game status 1 is preparing to open the big prize opening, the special electric game status 2 is operating the special electric accessory, the special electric game status 3 is closing the big prize opening, the special electric game status 4 is ending the jackpot demonstration, the special electric game status 5 corresponds to a small hit start demonstration, special electric game status 6 corresponds to a small hit special electric operation, special electric game status 7 corresponds to a small hit big prize closing, and special electric game status 8 corresponds to a small hit end demonstration.
<<< Big prize opening period setting process >>>

In the big prize opening validity period setting process (S59), a value corresponding to the value of the big prize opening validity period buffer is stored in the big prize opening validity period flag. For example, if the value of the prize winning unit valid period buffer is 0, the prize winning unit invalid period data is stored in the prize winning unit valid period flag, and if the value of the prize winning unit valid period buffer is other than 0, the prize winning unit valid The period data is stored in the big prize opening validity period flag. In the present embodiment, the first prize winning port 91 and the second prize winning opening 92 are provided as the prize winning openings, but the same control process can be applied to both.
<<< Special Symbol Variation Start Monitoring Control Process >>>

In the special symbol variation start monitoring control process (S60), 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 monitored. In any of the symbols 2, the address of the special figure game status (special figure 1 game status or special figure 2 game status) and the special figure fluctuation start monitoring table (special figure 1 fluctuation start monitoring table or special figure 2 fluctuation start monitoring table) The special symbol variation start monitoring process is executed with the address of.
<<< Anomaly detection processing >>>

  In the abnormality detection process (S61), magnetic monitoring, disconnection / short circuit / power supply monitoring, radio wave monitoring, glass frame set / game board frame / back set (here, set base 39) open / closed state monitoring, etc. To do so, create an error judgment value. After that, the error state inspection, 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 in the error state inspection that there is no change in the error state, the storage of the error state and the display of the error state effect of the gaming machine on the effect control board are not performed.

In creating the error judgment value, in order to create the error judgment value, the magnetic detection signal inspection, the disconnection short circuit power supply abnormality detection signal inspection, the radio wave detection signal inspection, and the open signal inspection are sequentially performed. However, the inspection data used for these inspections is a value obtained by logically ANDing the result of exclusive OR of the value of the received signal level and the value of the error flag with the communication abnormality mask data. In the error state inspection, the error flag comparison value is compared with the error flag value to check the error state, 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 reflecting bit 0 of the communication line abnormality determination value in bit 0 of the error determination value created in creating the error determination value. In storing the error state, the error flag comparison value created in the error state inspection is stored in the error flag. In the display request of the error state effect of the gaming machine to the effect control board, the command request setting process is executed using the MODE (error A) data and the error flag comparison value created in the error state inspection as arguments.
<<< Entry Entry Time Abnormality Detection Processing >>>

  In the incoming ball passage time abnormality detection process (S62), in order to detect the incoming ball passage time abnormality, the continuous on time of each switch (each winning detection device) level is monitored. If it is determined that there has been, the setting of an abnormal entry time, a command transmission request, and a security output request to be output to an external terminal are created in order. However, when it is determined that the continuous on time is not abnormal in the monitoring of the continuous on time at each switch level, a security output request to be output to the external terminal is not created.

In monitoring the continuous on-time at each switch level, in order to monitor the continuous on-time at each switch level, the content indicated by the address in the continuous switch table is set as the number of inspections, and switch bit data is sequentially acquired for the number of inspections. Obtain the timer address corresponding to each acquired switch bit data, measure the switch level on time, and if the continuous on time is determined to be abnormal, obtain the EVENT data stored at the 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. In addition, when the value of the acquired EVENT data and the ball passing time abnormality flag (described later) is different, it is determined that there has been a change from the previous time. In setting the ball passing time abnormality, the EVENT data is stored in the ball passing time abnormality flag. In the command transmission request, the command request setting process is executed with MODE (error B) data (9EH) and EVENT data as arguments. In creating the security output request to be output to the external terminal, the signal output request process is executed with the address +1 of the abnormality sensor detection timer as an argument.
<<< Game state display processing >>>

  In the game state display process (S63), the display request for the number of times that the special electric accessory is continuously operated, the error state, the number of the operation reserved balls of the normal symbol display device, and the number of the operation reserved balls of the special symbol display device is issued. In order to perform the display data creation of the number of times that the special electric accessory is operated continuously, the display data creation of the error state, the creation of the display data of the number of suspension balls of the normal symbol display device, and the operation suspension ball of the special symbol display device Create number display data.

  In creating display data of the number of times that the special electric accessory operates continuously, in order to create display data of the number of times that the special electric accessory operates continuously, the number of inspections is acquired from the address of the maximum operation number comparison table. . For the number of inspections acquired, the final round data in the maximum operation number comparison table and the value of the maximum winning opening maximum opening number are sequentially compared. If they match, the special electric accessory operates continuously for the number of inspections when they match. It is stored in the area of the special electric operation number display number as display data of the number of times. If all do not match, 0 is stored as display data in the area of the special electric operation number display number.

In creating the display data of the error state, in order to create the display data of the error state, the display data of the status indicator lamp 1 and the status indicator lamp 2 and the display data of the main control error indicator lamp are created. In the creation of display data for the number of reserved balls for operation of the normal symbol display device and the display data for the number of reserved balls for operation of the special symbol display device, the contents indicated by the address of the number of operation reserved balls update table are used as the number of updates. Minutes, the lower address of the number of pending operation balls and the lower address of the blinking timer are sequentially obtained, 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 firing handle 17, the handle state is inspected. , Handle state update, handle state monitoring timer setting, and handle state effect command transmission request. As a result of the inspection, if it is determined that there is no change in the handle state, a handle state monitoring timer is set. In the subtraction of the handle state monitoring timer, when it is determined that the handle timer is being subtracted, the subsequent processing relating to the handle 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 value of the received signal level 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 the handle state is changed. To do. Further, when the bit indicating the value of the received signal level is 1 and the value of the handle state flag is 00H, it is determined that there is a change in the handle state, and when the value of the handle state flag is 01H, it is determined that there is no change in the handle state. To do.

  In the subtraction of the handle state monitoring timer, the value of the handle state monitoring timer is decremented by 1 to subtract the handle state monitoring timer. If the result of subtraction is other than 0, it is determined that the timer is being subtracted. In updating the handle state, in order to update the handle state, a value corresponding to the value of the handle state flag is stored in the handle state flag. 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, in order to set the handle state monitoring timer, the handle state monitoring time is stored in the handle state monitoring timer. In the command transmission request of the handle state effect, in order to make a command transmission request of the handle state effect, the result of ANDing MODE (handle state information) data and 7FH which is a predetermined value, and the lower address of the handle state flag The command request setting process is executed using as an argument.
<<< LED output processing >>>

  In the LED output process (S65), special symbol display, normal symbol display, special symbol display device operation hold ball number display, normal symbol display device operation hold ball number display, gaming state display, special electric drive In order to display the number of times an accessory is operated continuously, to display the operating state of the special electric accessory storage when the accessory continuous operation device is not operating, to display a right-handed or left-handed display, and to display an error Display initialization and display data output are sequentially performed.

  In the display initialization, clear data is output to the segment output port in order to initialize the display. In the display data output, in order to output the display data, the digit corresponding to the data to be displayed (in this case, each segment of the 7-segment LED or any dot added thereto) is output and then displayed. Output data. Among these, when outputting the digit corresponding to the data to be displayed, in order to output the digit corresponding to the data to be displayed, the digit data output is acquired after the digit counter is updated, and the acquired output data is output.

In outputting the data to be displayed, the base address is acquired in order to output the data to be displayed. Use the acquired base address to create output data, and then output the created output data to the segment output port. In obtaining the base address, the value of address + 1 calculated by adding the double value of the digit counter and the address of the digit data table is used as a table address, and the contents indicated by the table address are used as the table address calculated value. Next, an address obtained by adding the table address and the calculated table address is set as a base address. In creating output data, the contents indicated by the base address are used as the number of inspections, and a predetermined calculation process using the base address is repeated for the number of inspections to create output data.
<<< Launch control signal output processing >>>

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

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

  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 is connected to each terminal associated with a signal indicating that each special symbol is changing, a small hit, a big hit, an accessory continuous operating device is operating, or a conditional device is operating. Output. The test signal output port 2 is connected to each terminal to which signals of the normal electric accessory open extended state, the normal symbol variation time shortened state, the normal symbol high probability state, the special symbol variation time shortened state, and the special symbol high probability state are associated. Output. The test signal output port 3 outputs a normal electric accessory operating signal, an ordinary symbol changing signal, an ordinary symbol per signal, and a special electric accessory operating signal from the associated terminals. In order to create signals to be output to the test signal output ports 1 to 3, output data creation processing is performed using 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 gaming machine error status, launch position designation, and symbol data signals from the associated terminals. In creating a signal to be output to the test signal output port 5, the lower 2 bits of the normal symbol combination number are used as bits 0 and 1 of symbol data. Further, the error inspection process is executed with the test terminal error output mask data as an argument. If an error is detected as a result of the execution, it is determined that a gaming machine error is occurring, and a gaming machine error state signal is turned on. Otherwise, create an off of gaming machine error status signal. When the value of the hit state flag is 0, the launch position designation signals 1 to 3 are created off. In other cases, the launch position designation signal 1 is turned on, and the launch position designation signal 2 and the launch position designation signal 3 are turned off. The test signal output port 6 and the test signal output port 7 output a symbol data signal from each associated terminal.
<<< Solenoid output processing >>>

In the solenoid output process (S68), the output data of the ordinary electric accessory solenoid and the large winning opening opening solenoid are output, so that the output data of the ordinary electric accessory solenoid and the output data of the large winning opening releasing solenoid are acquired. And output data. When acquiring the output data of the normal electric accessory solenoid and the output data of the large opening opening solenoid, the solenoid operation flag and solenoid operation timer are acquired, the output data is acquired, and the solenoid operation timer is updated in order. Do. In the output data output, the logical output result of the obtained output data of the ordinary electric accessory solenoid and the output data of the special prize opening opening solenoid is output to the solenoid output port.
<<< Direction 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 inspected, and when it is determined that there is a transmission request, the requested command data is acquired and the used command buffer is cleared. Then, MODE data corresponding to the acquired command data is acquired, MODE data is output, MODE data is held, EVENT data corresponding to the acquired command data is acquired, and EVENT data is output sequentially. 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. To obtain the requested command data, add the calculated value of the address stored in the command request reading position and the logical product of the position correction bit data and the address of the command buffer. Is command data. After obtaining the calculated address value stored at the command request reading position, the command request reading position is incremented by 1 in order to update the contents of the command data reading position. In 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 acquiring MODE data corresponding to the acquired command data, the upper order of the acquired command data is set as MODE data. In outputting the MODE data, after the acquired MODE data is output to the effect command output port, a strobe output process is executed to output the effect data strobe. In holding the MODE data, a wait is performed for a predetermined time (here, 46 μs or more) in order to hold the MODE data. In the acquisition of EVENT data corresponding to the acquired command data, the acquired command data lower order is defined as EVENT data. In outputting EVENT data, after the acquired EVENT data is output to the same effect command output port as described above, strobe output processing is executed in order to output the effect data strobe.
<<< External information output processing >>>

  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 the remaining one bit is unused. In creating external information 1, external information 3 to external information 6, output data creation processing is executed using the address of the external information data table as an argument. If the value of the hit flag is special figure 1 small hit data, and if the probability variation function inspection process is executed and the probability variation function of the normal symbol display device is not activated as a result of the execution, the external information 3 bit is turned on. create.

In creating the external information 2, in order to create the external information 2, a predetermined bit of the start port information timer is inspected. As a result of the inspection, the external information is matched with ON / OFF of the predetermined bit of the start port information timer. Create 2 on / off. In creating security, error check processing is executed using external information error output mask data as an argument. If an error is detected as a result of execution, the security bit of output data is turned on. Otherwise, the output data security bit is turned off. In outputting the created signal, the created external information 1 to external information 6 and security are output to the external information output port.
<< Interrupt on main board >>

  Next, an interruption in the main board 102 will be described. On the main board 102, maskable interrupts and non-maskable interrupts are performed. Of these, maskable interrupts are caused by PT0I. The maskable interrupt by PT0I divides the system clock to realize an interrupt period of 4 ms, and the aforementioned game progress interrupt process (PTC0 interrupt process) is executed in this interrupt period.

  On the other hand, the non-maskable interrupt is generated when the main board 102 detects a power-off and outputs a power-off signal, and this 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 this 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 is not possible, a user reset occurs due to timeout. Then, the core of the CPU 501 is reset and the control start process is executed. The restart of the interrupt processing time monitoring means is executed when recursive information is set and the internal timer is initialized during the cyclic 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 the accessory and another random number used for games. Random numbers related to the action of the actors include random numbers per ordinary symbol, initial random numbers per ordinary symbol, random numbers per special symbol, soft random numbers per special symbol, soft initial value random numbers per special symbol, random symbols per special symbol, and per special symbol There are seven types of symbol initial value random numbers.

  The random number per ordinary symbol is a random number used for the lottery of the ordinary symbol display device. The value of the random number is “0 to 282”, and the size of the random number is 283. The update method is to first add 1 to the previous random number, and return to 0 if the addition result exceeds the maximum value. The value is a random number per hit. The update time is for each game progress interrupt, and is updated once for each game progress interrupt. The acquisition time is when the passage of the game ball is detected by the passage detection device 69 of the operation port 68. The number of random values to be won differs depending on whether the probability is low or high, and is 11 at low probability and 282 at high probability.

  The initial value random number per ordinary symbol is a random number for determining the initial value of the random number per ordinary symbol and the end value of the random number per ordinary symbol. The value of the random number is “0 to 282”, and the size of the random number is 283. In the updating method, 1 is first added to the previous random number, and when the addition result exceeds the maximum value, it is returned to 0. The update time is for each game progress interrupt, and the update is performed even while the game progress interrupt is not executed.

  The random number per special symbol is a random number (hardware random number) generated by the software (ch) (channel) A of the random number circuit of the CPU 501 and acquired by software and used for lottery of the special symbol display device (70, 71). is there. The value of the random number is “0-065535”, and the size of the random number is 65536. The update method is to update once with two clocks of the crystal oscillator input to the RCK (random number clock) terminal of the CPU 501. The start value of the random number is a value based on the ID number of the CPU 501 and is changed every time the system is reset when the power is turned on (or off). The random number sequence changing method automatically updates the random number sequence every time the random number sequence completes a cycle. The update time is a timing set by a divide-by-two clock of the clock input to the RCK terminal.

  The acquisition timing differs depending on the start winning detection device 74 of the first start winning port 62 or the start winning detection device 75 of the second start winning port 63. In the case of the start winning detection device 74 of the first start winning opening 62, when the input signal is turned from OFF to ON, a low level is input to the P0 terminal of the CPU 501, and a random value (hardware) fetched from chA of the random number circuit. Random number) is stored in a random value register (RA0D). The internal random number (hardware random number) stored in the random number register (RA0D) is acquired when it is determined by software that the input signal of the start winning detection device 74 of the first start winning opening 62 is changed from OFF to ON. The random number per special symbol is a value obtained by adding a soft random number per special symbol to the acquired internal 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 is changed from OFF to ON, a low level is input to the P1 terminal of the CPU 501, and the disturbance taken in from the channel A of the random number circuit. The numerical value is stored in the random value register (RA1D), which is different from the case of the start winning detection device 74 of the first start winning opening 62.

  For random numbers per special symbol, the number of random values that will be won is indicated when displaying a combination of symbols that will cause the conditional device to operate, i.e., when it is a big hit, the conditional device does not operate, and It is different when displaying a combination of symbols that the special electric accessory will operate, that is, when it is a small hit. The number of random number values to be won is a difference between a low probability and a high probability, and is 164 at a low probability and 1640 at a high probability.

  On the other hand, the number of random numbers that will be hit by a small hit differs between the first special symbol display device 70 and the second special symbol display device 71, and the first special symbol display device 70 has 656, the second The number of special symbol display devices 71 is 105.

  Regarding the random number per special symbol, the random number period is about 0.013 s (seconds) because a random number having a size of 65536 is updated at a predetermined speed.

  The soft random number per special symbol is a random number used for the lottery of the special symbol display device (70, 71), and is added to the acquired internal random number when acquiring the internal random number generated by the chA of the random number circuit as described above. . The value of the random number is “0 to 65520”, and the size of the random number is 65521. The update method first adds 1 to the previous random number, and if the addition result exceeds the maximum value, it returns to 0, and if the random number makes one round, the value of the soft initial value random number per special symbol at that time is special The value is a soft random number per symbol. The update time is for each game progress interrupt, and is updated once for each game progress interrupt. The acquisition time is when a winning of a game ball is detected by the starting winning detection device 74 of the first starting winning opening 62 or the starting winning detection device 75 of the second starting winning opening 63.

  The soft initial value random number per special symbol is a random number for determining the initial value of the soft random number per special symbol and the end value of the soft random number per special symbol. The height is 65521. In the updating method, 1 is first added to the previous random number, and when the addition result exceeds the maximum value, it is returned to 0. The update time is for each game progress interrupt, and the update is performed even while the game progress interrupt is not executed.

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

  The symbol initial value random number per special 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 height is 1000. In the updating method, 1 is first added to the previous random number, and when the addition result exceeds the maximum value, it is returned to 0. The update time is for each game progress interrupt, and the update is performed even while the game progress interrupt is not executed.

  There are two types of random numbers that are used for games: normal symbol variation pattern random numbers and variation pattern random numbers. Among these, the normal symbol variation pattern random number is a random number used for variation pattern selection of the ordinary symbol display device, the random number value is “0-232”, and the random number size is 233. In the updating method, 1 is first added to the previous random number, and when the addition result exceeds the maximum value, it is returned to 0. The update time is for each game progress interrupt, and is updated once for each game progress interrupt. The acquisition time is when the passage of the game ball is detected by the passage detection device 69 of the operation port 68.

The variation pattern random number is a random number used for variation pattern selection of the special symbol display device (70, 71), the value of the random number is “0-49999”, and the size of the random number is 50,000. In the update method, first, 3511 is subtracted from the previous random number, and if the subtraction result is less than 0, 50000 is added to the subtraction result. The update time is for each game progress interrupt, and is updated once for each game progress interrupt. The acquisition time is when a winning of a game ball is detected by the starting winning detection device 74 of the first starting winning opening 62 or the starting winning detection device 75 of the second starting winning opening 63.
<Other individual control processing modes>
<< Control Mode Related to Command Transmission Timing >>

In the present embodiment, the effect control command output from the main board 102 to the sub main board 301 is temporarily stored in the command buffer in response to a command request before transmission. The command buffer is obtained by causing a plurality of buffers to function as a ring buffer. In the control processing for command transmission (in this case, the production control command transmission processing (S69)), the command buffer is executed once in the order stored in the command buffer. In the game progress interruption process, one command is taken out from the command buffer and transmitted. It is also possible to adopt a method in which a command set with a high priority is transmitted first. In various control processes, when a command that needs to be transmitted is generated, it is possible to transmit the command as needed. When such a method is adopted, during one game progress interruption process, for example, an effect command is transmitted collectively in one control processing module such as an effect control command transmission process (S69). Instead, each time a command needs to be transmitted, command transmission is performed sequentially within each control processing module. For this reason, it is difficult for a situation in which command transmission is carried over to the next game progress interrupt process. For example, there is no delay in the command at the time of starting winning and the command transmission at the time of starting the variation of the special symbol, and quick command processing is possible.
<< Control mode related to update of 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 games. The update is performed sequentially for each second game or each first game. Accordingly, if only the information stored on hold is updated for each second game or first game, the update of 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, or a configuration in which the reserved memory is digested in the order in which the start winnings are generated and stored in a reserved manner, instead of giving priority to any game. Adoption is possible. Among these, in the case of adopting the configuration in which the reserved memory is digested in the order in which the start winnings are generated, the reserved memory information is updated according to the digestion, the total number of pending games is updated, and the winning order is stored. As a result, the information stored on hold can be updated as a whole.

Further, in this embodiment, in order to notify the sub-main board 301 that the reserved memory has been updated, the symbol memory number command (symbol 1 memory number command or symbol 2 memory number command) is requested as described above. By including both the symbol 1 memory number command and the symbol 2 memory number command in one command, the necessary program and memory capacity can be reduced.
<< Control mode related to variation pattern lottery >>

  Next, various aspects related to the variation pattern lottery will be described. Any one of the variation pattern determination modes described here may be selected and applied in one pachinko gaming machine 10 or may be used in combination as appropriate. And when using a some aspect together, it is possible to use an aspect properly, for example based on elements, such as a success / failure result.

  In the present embodiment, as described above, the determination of the variation pattern includes the result of success / failure, the number of reserved balls, a special symbol (which may be a symbol group), and a variation pattern selection state (special symbol status information). Although used as an element, a variation pattern corresponding to a combination of these determining elements is selected. Then, with the determination of the variation pattern, the variation time associated with the variation pattern is determined. Further, in the present embodiment, regarding the determination of the variation pattern, the determination elements are different depending on whether the result of the success / failure lottery is a big hit or not. In other words, in the case of a big hit, a variation pattern is selected from among the performance patterns (such as special symbol status information), the special symbol group, and the random number of success / failure, which are linked to them. On the other hand, in the case of a loss, a variation pattern is selected from among those linked to these based on the production state, the number of reserved balls, and the random number of success / failure. Of these, in the case of a big win, for the variation pattern that gives the re-lottery time in the production, the re-lottery time is given based on the production state (whether there is a specific production, etc.) and the special symbol group. The presence / absence is determined, and the determined result is transmitted from the main board 102 to the sub main board 301.

  Further, when determining the variation pattern and the variation time, it is possible to determine the subsequent variation time according to the determined effect pattern number (in other words, the contents of the effect pattern). For example, when the selected variation pattern corresponds to the limited variation pattern effect, it is conceivable that the extension of the variation time corresponding to the selected variation pattern is determined afterwards.

  In addition, as described above, by setting a variable additional information command as a command at the start of special symbol variation, it is added later to the previously determined variation time in relation to factors such as gaming state and winning symbol. An effect of adding time can be performed. When determining the total variation time in this manner, it is possible to create various variation patterns while reducing the number of variation patterns provided in advance as follows. That is, considering the case of performing pseudo continuous notice (so-called “pseudo train”), if the pseudo train variation pattern is simply set individually, the same number of variation patterns as the number of types of effects are provided in advance. It is necessary to keep. When all the production patterns are prepared individually as described above, the total number of variation patterns becomes large, for example, reaching a number exceeding 256. For this reason, in order to provide an identifiable code for a large number of variation patterns, it is necessary to increase the number of bits and bytes for representing the code as compared with the conventional case.

  However, by using fluctuation additional information (fluctuation addition pattern), it is possible to connect the fluctuation additional information drawn by random numbers, for example, to a relatively small number of basic fluctuation patterns and form a fluctuation pattern afterwards. It is. As a result, a new variation pattern can be formed by combining the variation patterns, so that a variety of variation patterns can be created without excessively increasing the number of variation patterns provided in advance. Note that the random value related to the variation additional information can also be transmitted as a pre-reading effect command from the main board 102 to the sub-main board 301 when the start winning is generated. 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 variation pattern effect is executed. In addition, to further give an example of using variable additional information, when “777” which is a probable variable symbol is displayed from the beginning as a combination of the decorative symbols 190a to 190c, the variable additional information is not set and the decorative symbols 190a to 190a are set. As a combination of 190c, once “666”, which is a non-probable variation, is displayed, an effect until the result of whether or not to promote to “777” is displayed (for example, an effect of shaking fluctuation, There is a case where an effect representing the development of an aspect is performed by setting variable additional information.

  In the present embodiment, the variation pattern is determined using the number of reserved balls as an element, and the variation pattern table to be referenced differs depending on the number of reserved balls. The variation pattern table is provided corresponding to the number of reserved balls 0-4. The reason why the variation pattern table corresponding to the hold 4 is provided in addition to the four holds 0 to 3 is as follows. For example, consider a case where a new variation display is started from a situation where the number of held balls is four and the number of held balls is three. A state in which the number of reserved balls is 3 at the stage where the control process during the game progress interrupt process being executed at that time does not yet lead to the determination of the variation pattern which is the process during the subsequent game progress interrupt process When a new start win occurs, the number of reserved balls is added to 4 when the variation pattern is determined. Therefore, a variation pattern table is provided corresponding to the number of reserved balls 0 to 4 so that such a situation can be used as an element for determining the variation pattern.

  However, the present invention is not limited to this, and the variation pattern table may be provided corresponding to the number of reserved balls 0-3. In this case, in the control processing, it is possible to adopt a configuration in which the start winnings during the period from the number of reserved balls 3 to the determination of the variation pattern are not added. Note that any aspect can be applied to a pachinko gaming machine of a type in which a maximum number of reserves (for example, 8) other than four is set.

Further, the variation pattern random number acquisition timing can be the variation pattern lottery time. In other words, the fluctuation pattern random number is not a random number related to the operation of an accessory such as a special electric accessory. Therefore, as an element for performing an appropriate game, for example, when aiming for a fair game compared to a random number or the like The need to provide constraints is reduced. Therefore, it is conceivable that the fluctuation pattern random number is not acquired at the time of starting winning a prize, and for example, the fluctuation pattern random number is acquired and stored at the time of fluctuation pattern lottery as a separately provided timing. By doing so, the number of information to be stored at the time of starting winning a prize can be reduced, and the capacity of the program and memory can be reduced.
<< Control mode related to design designation >>

In the present embodiment, as described above, whether or not to change the probability is determined by a special symbol. For this reason, a symbol is determined by a symbol random number (symbol random number) per special symbol, and whether or not there is a probability change is also determined. Further, the probability (ratio) of probability change is determined by the selection probability of the symbol associated with the probability change. It is also 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 range of the design random number is set to “0 to 999”, the binary code code of these numerical values can be used. By doing so, the capacity of the memory and program can be reduced. In addition, the game state such as the number of rounds and the number of times reduced is assigned to the winning symbol (which may be a symbol group), and the number of subsequent rounds and the number of reduced times are determined according to the winning symbol. May be. By doing so, it is not necessary to store and control data unique to the gaming state, and the capacity of the memory and program can be reduced. Furthermore, information (game state designation information) that conveys the game state to a command that conveys a symbol or the like from the main board 102 to the sub-main board 301 (for example, each command of the symbol 1 effect pattern and the symbol 2 effect pattern in this embodiment). ) Can also be added. This command is not sent to the sub-main board 301 immediately after being created, but is created and temporarily stored, and is sent to the sub-main board 301 after waiting for a predetermined timing. In this embodiment, a plurality of types of small hit symbols are set (see each even number symbol in FIG. 9D). For example, only one type of small hit symbol is set and a random number is not used. The small hit symbol may be directly designated (specified).
<< 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 decorative symbols 190a to 190c corresponding to the special symbol are controlled to start and stop changing in synchronization with each other. However, depending on the situation, the variation time of the decorative symbols 190a to 190c can be shortened to some extent with respect to the variation time of the special symbol (the first special symbol 192 or the second special symbol 193).

  That is, when the variation of the special symbol or the variation pattern is determined and the variation of the special symbol is started, the main substrate 102 sends a decoration symbol variation start command (command at the start of variation) to the sub-main substrate 301. However, the time required for transmission and reception of a predetermined command (for example, the first command at the start of fluctuation) and the command buffer (in this embodiment, the ring buffer type is used) are set and waited. Depending on the time until all the commands (first-in command) are sent out, it is conceivable that the variation start of the decorative symbol will be delayed from that of the special symbol. Further, at the time of stoppage of variation of the special symbol, a variation stop command (command for determining the symbol of the special symbol) is transmitted to the sub-main board 301, but a predetermined command (for example, the first command of the command at the start of variation when determining the symbol) ) May be delayed due to the time required for transmission and reception and the degree of command buffer congestion (the number of commands waiting for transmission).

In this way, the variation time of the decorative symbol can be shortened to some extent with respect to the variation time of the special symbol, the decorative symbol starts to vary after the special symbol starts to vary, and the decorative symbol after the special symbol stops varying. Can happen to stop fluctuating. Note that the degree of delay between the start of change and the stop of change in the decorative symbol is usually that the number of commands to be transmitted is relatively large at the start of change and relatively small at the stop. The degree of delay is considered to be small (less) compared to the time of starting the fluctuation.
<Main control processing of sub-board>

Next, main control processing of the sub-board 104 will be described. Here, as various main control processes, various interrupt processes in the sub-main board 301, processes related thereto, and processes related to image display in the sub-main board 301 and the sub-sub board 302 will be described.
<< Interrupt factor and priority level >>

  First, in this embodiment, in the sub main board 301 constituting the sub board 104, a predetermined signal (reset signal) to a reset terminal provided in the CPU 521 is given as an interrupt factor (factor generation source) with the highest priority by the CPU 521. There are inputs and various abnormalities. Of these, the reset signal is input when the power is turned on, when an external reset is performed, or when the watchdog timer has timed out, etc. (See FIG. 18) is executed.

  On the other hand, an interrupt when various abnormalities occur is executed depending on whether or not the watchdog timer function (watchdog function) is set to be valid. In other words, if the watchdog function is enabled, the CPU 521 shifts to, for example, a predetermined infinite loop so that the processing time exceeds the set time of the watchdog timer when a target abnormality occurs. To do. When a runaway is detected due to a timeout in the watchdog function, a sub-main initial setting process (see FIG. 18) described later is executed. When the above-described various abnormalities and reset signal input occur simultaneously, priority is given to reset by reset signal input (sub-main initial setting processing).

  As another interrupt generation factor in the sub main board 301, there is reception of a command (main command (main control command)) from the main board 102. Whether a command is being received from the main board 102 is determined by detecting the rise of the strobe signal (effect data strobe signal) from the main board 102. When this main command reception interrupt occurs, a main command reception process (see FIG. 20) described later is executed. In the main command reception process, in the case of normal reception in which the command can be received without any problem, the contents of the received command are stored in the command buffer (command ring buffer), and the command analysis process is performed in the main process (FIG. 19) described later. In the main loop processing (circulation processing in S124 to S132). The priority level of the main command reception interrupt is set to the next highest level 7, which is the highest priority mentioned above.

  Further, when the watchdog function described above is set to be effective, an interrupt is detected when the CPU 521 detects a runaway without intentionally processing time-out as in the case of various abnormalities described above. (Runaway detection interrupt) occurs, and a sub-main initial setting process (see FIG. 18) described later is executed. The priority level of such a normal watchdog timer interrupt is level 3 which is four steps lower than level 7 described above. In this embodiment, interrupts at levels 4 to 6 between level 3 and level 7 are not executed.

  As another interrupt generation factor, there is transmission / reception with the sub-sub board 302. The interrupt related to transmission / reception with the sub-sub board 302 (sub-sub-command reception interrupt) is generated when a reception command (sub-sub command (second effect command)) is input from the sub-sub board 302. Reception command from the sub-sub board 302 When the sub sub board 302 receives a command (sub main command) from the sub main board 301, the sub sub board 302 notifies the sub main board 301 that the command has been received normally. When an interrupt occurs, command transmission / reception management processing is executed, and the command toggle transmission from the sub-sub board 302 is normally sent to the sub-sub board 302 as will be described later. This sub-sub-board 30 Interrupt priorities related to the transmission and reception of a has a level 2.

  Another interrupt generation factor is communication with the sub-sub board 302. An interrupt related to communication with the sub-sub board 302 (sub-communication interrupt) occurs every predetermined period (500 μs in this embodiment) as will be described later. Then, when an interrupt related to communication with the sub-sub board 302 occurs, communication processing with the sub-sub board 302 is executed. The priority order of the interrupt related to communication with the sub sub board 302 is the same level 2 as that of the interrupt related to transmission / reception with the sub sub board 302 described above.

Furthermore, other interrupt generation factors include communication with the RTC clock (real-time clock), generation of timer interrupts (sub-main timer interrupts), interrupt requests for various lamps, etc., and these have the lowest priority. 1 is set. Among these, at the time of interruption related to communication with the RTC clock, communication processing with the RTC clock is executed. The timer interrupt described above is for use in general game effects such as solenoid output processing, motor output processing, game timer management processing, and the like. The timer interrupt is started immediately by the setting at initialization (initial setting), and the timer interrupt is repeated every predetermined period (about 1 ms in this embodiment). When a timer interrupt occurs, a timer interrupt process (see FIG. 21) described later is executed. Note that this timer interrupt is used in general game effects as described above. For this reason, by setting the period on the sub-sub board 302 side to be completely or substantially an integral multiple of the timer interrupt period in the sub-main board 301, for example, game effect lamp control on the sub-main board 301 This makes it easy to synchronize the creation of lamp data for use with the image display on the sub-sub board 302. In this embodiment, since the timer interruption period of the sub-main board 301 is 1 ms, the period setting on the sub-sub board 302 side is set to an integral multiple of the timer interruption period on the sub-main board 301 side. It is easy.
<< Sub-main initial setting process >>

  When the power of the sub-main board 301 is turned on as in the case where the pachinko gaming machine 10 is turned on, the sub-main initial setting process shown in FIG. 18 is executed. In this sub-main initial setting process, first, a predetermined address is set as a stack pointer (S101), and then all interrupts are prohibited until various initial settings are completed (S102). Further, in the hardware initial setting process (S103), basic hardware settings (register setting, port initialization, etc.) are performed, and in the RWM initialization process (S104), RWM initialization is performed according to predetermined conditions. Is done. In this RWM initialization, initial values are prepared for variables with initial values, and zeros are cleared for variables without initial values. In the RWM initialization process (S104), ROM data (control program or the like) is expanded to the RWM.

  Further, in S105, interrupts other than reception of the main command are prohibited, and then a power failure recovery error detection process (S106) for setting various error information is executed. In this power failure recovery error detection process (S106), a process according to circumstances such as game characteristics is performed. That is, the sub main board 301 has a function for dealing with various errors including vibration errors and radio wave errors. However, functions for dealing with these various errors are selected in advance, and the error detection function is exhibited only for errors that are validated. For example, a predetermined hit occurs when a game ball passes through a specific area, such as a type 1 type 2 type that combines so-called type 1 and type 2 game characteristics, or a ball spec specification (described later). For models that determine whether or not to do so, the vibration error detection function is effective. However, as in the pachinko gaming machine according to the present embodiment, in the type in which the winning lottery is performed only by random lottery, even if it has a vibration error detection function, the function is selectively disabled in advance. Therefore, no special measures are taken for vibration errors.

  Subsequently, in the all lamp turn-off process (S107), a turn-off request is made to turn off all the lamps, and in the watch dog timer operation start process (S108), based on the setting to use the watch dog timer as a watch dog timer, The watchdog timer is started. In FIG. 18, the process from S101 to S108 is described as being linked with the main process (S109), but the process from S101 to S108 is the sub-main initial setting process, and the main process (S109). Is performed after the sub-main initial setting process (S101 to S108). Furthermore, in the main process (S109), management of the main process of the game is performed, and details of the main process (S109) will be described later.

After the main process (S109), a sleep process (S110) is arranged. Normally, since the main process (S109) does not return to the reset operation for performing the sub-main initial setting process, the sleep process (S110) is not executed. However, as shown by the broken arrow in the figure, When this sleep process (S110) is to be executed for some reason, a transition to the low power consumption mode is performed.
<< Main processing >>

  In the aforementioned main process (S109), as shown in FIG. 19, an RWM allocation address acquisition process (S121) is executed. In this RWM allocation address acquisition process (S121), the program area expanded in the RWM is checked. The leading address of the expanded program area is acquired so that it can be performed.

  Next, all interrupts are permitted to enable interrupts in the subsequent processing (S122). Further, in the device initialization process (S123), various devices such as motors, solenoids, and lamps are initialized. In the subsequent watchdog clear process (S124), if the setting to use the watchdog timer has been made, the watchdog timer is cleared. Further, in the symbol update process (S125), the off symbol associated with the decorative symbols 190a to 190c is determined by the counter.

  As the counter used here, a three-digit counter from “111” to “999” can be exemplified. For example, when the acquired counter value is “757”, the decorative symbols 190 a to 190 a that are stopped are displayed. It is possible to make 190c become “757”. When the acquired counter value is a combination of squares such as “111”, a numerical value of a predetermined digit can be offset, for example, “121”, to obtain a combination of deviations.

  This symbol update process (S125) may not be executed depending on the employed symbol determination method. For example, when a lost symbol is determined by lottery, it is not executed. As a specific example, there is data of a lottery sheet (lottery table) that incorporates all symbol combinations, and the lottery sheet is used to generate The control mode to be determined can be exemplified.

  In the subsequent error presentation management process (S126), the error state is monitored, and various error notifications are executed according to the monitoring result. Further, the push button monitoring control process (S127) is for control related to the operation button 82, which is an effect sub-button (push button), and corresponds to the input state (operation state) of the operation button 82. Execute the process.

  Next, in the notice lottery management process (S128), a lottery for determining the notice effect is executed. The lottery of the notice effect is determined by the efficiency of the loop process (main loop process) described later in the main process (S109). In order to increase efficiency), it is divided into several times. That is, when multiple announcement effects are executed during one change, the lottery process for multiple announcement effects is not performed all in one main loop, but multiple main loops. It is executed after multiple lotteries divided into two. Also, the lottery timing is related to the notice effect appearance timing during the change. For example, for a notice effect that appears at a relatively early timing such as immediately after the start of fluctuation, the priority of the lottery time is set high, and image control is performed as soon as possible by performing lottery at the timing according to the priority. A command can be transmitted to the sub-sub board 302 on the side.

  Next, in the device management process (S129), when there is a device operation request such as a real time clock (RTC), a lamp, a motor, a solenoid, or a lamp, a process for operating the corresponding device is executed. .

  Further, in the command analysis process (S130), it is necessary to start a process for responding to the command (main command) received from the main board 102, or when the command data exists in the command buffer, the command analysis is performed. Do. When the command is analyzed (S131: YES), the process returns to the watchdog clear process (S124), and the main loop is executed. Immediately after receiving the command from the main board 102, command data is in the command buffer. Therefore, the main loop is executed, and the process returns to the process after the watchdog clear process (S124). However, if the command buffer becomes empty before the main loop is repeated until the next timer interrupt to be described later is executed, there is no need for command analysis, and command analysis is not performed. In such a case, the process does not proceed to the main loop (S131: NO), and using the generated time, the random number update process (S132) having a lower priority than the command analysis is executed. This random number update process (S132) is a soft random number update process. In the command analysis process (S130), the variation pattern in the sub main board 301 is determined. In addition, when a lottery sheet (lottery table) data that incorporates all symbol combinations is used and a control mode is adopted in which the lottery sheet is used to determine the off symbol, the command analysis process (S130) is used for decoration. Determine the design.

  With regard to these command analysis processing (S130, S131), in other words, for a certain command, immediately after receiving the command, the main processing does not proceed to the processing arranged here (random number update processing (S132) in this case). The other processes (S124 to S131) in the loop process (S124 to S132) are repeated, and if there are no more commands in the command buffer, the process proceeds to the processes arranged thereafter. As a result, the command analysis process for a certain main command is performed. Immediately after the start of (S130), command analysis is executed. Therefore, the program module does not proceed to the program module arranged later, and if command analysis is not performed in the command analysis process (S130), the program module arranged later is moved to. It can be said that it is advancing. Note that, for example, when a process such as checksum calculation is performed after the process of determining whether or not the command has been analyzed (S131), this process is also executed immediately after receiving the command, similar to the random number update process (S132). It can be said that the process is not performed.

In the random number update process (S132), the lottery random number (software random number) related to the effect is updated, and each time this random number update process (S132) is executed, the software random number related to the sub main board 301 is updated. Is updated to the correct value. The values that are sequentially updated in the random number update process (S132) are used as random numbers for lottery of various effects in the aforementioned notice lottery management process (S128). Further, the value generated in the random number update process (S132) is calculated for the lottery through calculation with hardware random numbers for lottery of various effects as in the case of generation of the predetermined random number in the main board 102 described above. Sometimes used as a random number.
<< Main command reception processing >>

  Next, processing for receiving a main command from the main board 102 will be described with reference to FIG. First, it is determined whether or not the command input value is confirmed (S141). As for command input, there is a risk of reading failure due to noise or the like, so the input value is not fixed until the same value is read twice. Specifically, the command data is read up to five times, and the process of determining the input value is executed when the same value is read twice. If the command input value is not fixed (S141: NO), the main command reception process is exited and the process returns to the original process before the occurrence of the interrupt.

  When the command input value is confirmed (S141: YES), it is determined whether or not the received command is the first command (S142), depending on the determination result of whether it is the first command or the second command. The process branches. The main board 102 transmits a 1-byte command in one command transmission, but the command from the main board 102 has a 2-byte configuration of MODE data and EVENT data. is necessary. Therefore, from the main board 102, the upper byte command (MODE command) is transmitted the first time, and the lower byte command (EVENT command) is transmitted the second time. In the sub-main board 301 that has received the command, if the most significant bit of the command data is “1”, it is determined as the first command (MODE command), and if the most significant bit is “0”, the second command (EVENT command).

  If the received command is the first command (S142: YES), the first command is temporarily saved (S148) and stored. Here, the temporary is a storage area for temporarily saving a value.

  Further, the current value of the hardware random number 1, which is a predetermined hardware random number, is latched and held in the buffer on the software (S149), and then the process exits the main command reception process and before the interrupt occurs. Return. Here, the hard random number 1 is latched every time the command (first command) of the main board 102 is received as in S149 so that the cycle of the random number is not formed. In other words, a random number that eliminates periodicity by creating a numerical value using the reception of the first command generated at random timing, and using the numerical value at that time at a predetermined lottery timing for production, etc. Can be acquired.

  Although hardware random numbers are generated using a high-speed counter, some periodicity may occur if the acquisition timing is not random. However, since the first command from the main board 102 is received by the sub-main board 301 at irregular timing due to winning of a game ball or the like, there is little possibility that a cycle will occur. Therefore, the sub-main board 301 generates a hardware random number using command reception as described above, and eliminates the periodicity that is performed in the main board 102.

  On the other hand, when it is determined in S142 that the received command is not the first command (S142: NO), the second command is received. When the second command is received, it is confirmed whether or not the first command has been received (S143). If the first command has not been received (S143: NO), the main command reception process is exited and the process returns to the original process.

  If the first command has been received (S143: YES), a command write pointer is acquired (S144). Here, the command write pointer indicates the reading position in the command ring buffer, and the acquisition of the command write pointer acquires data from the reading position indicated by the command write pointer.

  Further, the first command and the second command normally received at this time are stored in the command ring buffer for analysis processing (S145). The stored data is analyzed in the command analysis process (S130) of the main process (see FIG. 19). Then, the command write pointer is updated (S146), and the above-described temporary first command is cleared (S147). Here, the update of the command write pointer is a process of updating one read position of the command ring buffer. The process of clearing the temporary first command is to clear the first command stored in S148.

In this embodiment, the set of two element commands (first command and second command) is set to one set (one set), and the hard random number 1 is latched in response to the reception of the first command. Latch processing can be performed in a processing system (S148, S149) different from the processing after receiving the second command (S143 to S147), and the processing after receiving the second command can be completed quickly.
<< Sub-main timer interrupt processing >>

  Next, timer interrupt processing will be described with reference to FIG. The timer interrupt process occurs every 1 ms, which is a predetermined period. Since this timer interrupt process is a level 1 interrupt process with the lowest priority, as shown in the figure, first, an interrupt with a priority level of 2 or higher is permitted (S161). Furthermore, port input processing (S162) is executed, and port data input processing and output processing are performed. In this port input processing (S162), processing for confirming ports connected to various sensors (magnetic sensor, vibration sensor, etc.) (input processing) and connection to various devices (motor, solenoid, lamp, etc.) Information is output from the port (output processing).

  In the port input process (S162), in addition to these ports, a process related to a power supply voltage monitoring port to which a signal indicating a power outage (power outage signal) is input is also performed. . When this power interruption signal is input, the processing of the CPU 521 prohibits all interrupt processing and shifts to transfer processing for backing up stored information. The backup function of the sub main board 301 will be described later.

  Subsequently, device control data output processing (S163) is executed, and device control data output for driving various motors, solenoids, lamps, and the like is performed. For example, in the device management process (S129) of the main process shown in FIG. 19, when a drive control pattern for demagnetizing for 100 ms is determined after excitation for a predetermined motor for 100 ms, this device is determined. In the control data output process (S163), a time counting process of 100 ms is performed.

  Further, the effect timer update process (S164) is executed, and the timer value update process (S165) for measuring a predetermined timing in each effect is performed. Then, the button control timer is updated, and the valid time management timer for managing the period during which the operation of the push button (operation button 82) is valid is updated.

  Next, the task control counter is updated (S166), and the control counter (multitask counter) used for a predetermined plurality of tasks is updated. This control counter updates the count value once every 1 ms, which is the timer interruption period, with 16 times as one unit. In the present embodiment, the task control counter sequentially counts values from 0 to 15 every 1 ms, and loops counting the values from 0 to 15.

  Further, as one of the predetermined tasks, a game related lamp can be exemplified. Many game effect lamps are driven in synchronism with images on the effect symbol display device 60, and the display switching of one frame (one unit image frame) of the moving image is about 16 ms or about 32 ms (about 33 ms). (In some embodiments, the period is 33 ms). For this reason, the generation cycle of the control counter related to the game effect lamp is used for control so as to form a relationship such as a control unit time (16 ms or 32 ms) and an integral multiple or a fraction of an integer in moving image display Counter design has been done. As a result, it is easy to design a lamp effect that matches the timing with the image.

  Next, the image CPU runaway monitoring process (S167) is executed, and the runaway monitoring process for the CPU 351 of the sub-sub board 302 is performed. As described above, the sub-sub-board 302 outputs a predetermined signal (monitoring toggle signal) that repeats on and off for each frame display of moving image control. If the toggle signal from the sub-sub board 302 does not change continuously for a predetermined period (for example, a period corresponding to about 50 to 100 frames), it is determined that an abnormality such as a runaway of the image CPU has occurred, A reset signal (external reset signal) is transmitted from the main board 301 to the sub-sub board 302. In the sub sub board 302, after receiving this reset signal, a reset process (sub main initial setting process) for initializing the state of the sub sub board 302 is executed. Note that the monitoring toggle signal may be output from the VDP 526.

  As described later, the monitoring of the toggle signal as described above is performed once for every eight timer interrupts (8 ms). In addition, the above-described control counter is used to determine that the monitoring cycle has come. Here, the monitoring period is set to 8 ms because monitoring is performed at a period shorter than the display period (16 ms or 32 ms) related to one frame of the image, so that monitoring is always performed once during the display period of one frame. This is to make it happen. Furthermore, another reason for setting the monitoring period to 8 ms is that the update timing of the control counter can be used by setting it to 1 / integer of the period generated by the control counter. is there.

Following this image CPU runaway monitoring process (S167), an error management timer process (S168) is executed. In this error management timer process (S168), the error management timer is subtracted, and a predetermined process is executed when a timeout occurs. Examples of the process at the time-out include a process for terminating the error notification described above. When this error management timer process ends, the process returns to the original process before the timer interruption in the sub-main main process (see FIG. 19). Here, since the target of interrupt permission is limited in S161 described above, illustration is omitted, but after all interrupts are permitted, the process returns to the sub-main main process.
<< Backup function on sub-main board >>

  Here, the backup function in the sub-main board 301 will be described in relation to the port input process (S162) in the timer interrupt process (see FIG. 21). First, in this embodiment, power is supplied from the power supply board 251 (see FIG. 4) to the sub main board 301, and power is supplied from the sub main board 301 to the sub sub board 302. In the sub main board 301, an external ROM and an external RWM (SRAM) are connected to a CPU 521 having a built-in RWM via a data bus and an address bus. Here, the external ROM corresponds to the above-described ROM 522, and the external RWM corresponds to the above-described work RWM 523. In order to realize the data backup function, among the built-in RWMs of the CPU 521, an RWM area in which data contents are to be continued after power failure recovery is declared in advance, and the data contents are designated as external RWMs that are specific areas when the power is turned off. After the evacuation, a method of returning from the external RWM at startup is employed. A predetermined battery or the like is connected to the external RWM, and power is continuously supplied from the battery or the like in the power-off state, and data of the external RWM is held.

  The determination of power interruption in the sub main board 301 is performed by monitoring the power supply voltage. A value (0 or 1) indicating whether or not the power supply voltage has decreased is always input to a predetermined power supply voltage monitoring port provided in the CPU 521 of the sub-main board 301, and the input value of this port is the sub-main circuit. It is monitored by the substrate 301. In this port monitoring process (port input process (S162)), the level of the input signal is determined, and the input data is confirmed if the level exceeds a threshold (for example, below) and a predetermined determination condition is satisfied. This finalized data is stored. In this embodiment, the predetermined determination condition is that the level of the input signal exceeds the threshold value over a plurality of (for example, five) timer interruptions. Such processing is the same as external input monitoring processing by various motors, operation buttons 82, and the like.

  When the occurrence of power interruption is determined based on the determined input data, all interruptions are prohibited, and a transfer process for transferring the data to be backed up to the external RWM is executed. The reason why all interrupts are prohibited in the transfer process is that after the data transfer of the external RWM, recovery to the sub-main program for executing the main process (see FIG. 19) is not performed. In the transfer process, each input / output port is initialized and safety is ensured so that no data remains in the port. By this port initialization processing, it is possible to prevent unexpected processing from being executed during a power interruption or restart. The port initialization process is also a preparation process for operating various devices such as a motor at the time of restart.

  Subsequently, the watchdog timer is set, and the timer set value is changed to a value larger than the normal value (for example, several tens of ms) (here, twice the normal value). In this way, the set value of the watchdog timer is changed to be longer because when the power interruption occurs, the main loop process (here, the circulation process of S124 to S132) of the main process (see FIG. 19) is not performed. If the set value of the timer remains normal, the watchdog timer will time out during the transfer process. Therefore, the watchdog timer was stopped with the timer set value set to a value sufficient to safely perform the transfer process. This is to create a control state similar to the above.

Further, data area transfer processing is executed, and the backup target data of the built-in RWM is transferred to the external RWM. Subsequently, the checksum of the data area of the built-in RWM is calculated in sequence, the checksum of the system area of the built-in RWM is calculated, and the process of transferring the data in the system area to the external RWM is executed. In general, the access speed of the CPU 521 to the built-in RWM is faster than the access speed to the external RWM. However, if the built-in RWM has a data backup function, the external RWM is not used for data backup. Good.
<<< Image CPU runaway monitoring process >>>

  FIG. 22 shows the reset operation in the image CPU runaway monitoring process (S167 in FIG. 21). (A) in the figure shows a state in which power is turned on, the operation state of the sub-sub board 302 changes from the reset state to the reset release state, and then the sub-sub board 302 is once reset and restarted. Further, (b) in the figure shows a monitoring signal (monitoring toggle signal) input from the sub sub board 302 to the sub main board 301 when the power is turned on.

  The monitoring toggle signal output from the sub-sub board 302 is toggled by switching on / off every frame processing at a predetermined time interval (16 ms in this case), indicating that the sub-sub board 302 has started a steady operation. It becomes an indicator. The period of the monitoring toggle signal is 32 ms, and the edge due to the rise or fall of the signal occurs twice during this period. Furthermore, the cycle of the toggle signal (here, one cycle is 32 ms and the half cycle is 16 ms) has a relationship of being an integral multiple or a fraction of an integer with the control unit time (16 ms or 32 ms) in moving image display. The sub main board 301 side checks the operation state of the sub sub board 302 periodically (here, every 8 ms) based on the monitoring toggle signal, as indicated by a vertical broken line in the figure. In the sub-main board 301, the port state is monitored twice for each confirmation, and the input value is determined to be valid when the read values are matched twice. If they do not match, the input value is invalid, and it is assumed that the operation has not been confirmed at that time. Further, the control unit time in moving image display may be about 33 ms depending on the relationship between the clock cycle of the timer used and the frequency division.

  When the input value is confirmed, it is determined that the operation of the sub-sub board 302 is normal, and it is continuously monitored whether or not the monitoring toggle signal is changed at the predetermined interval. If the state of the monitoring toggle signal does not change for a predetermined time (here, about 1600 ms), the sub-main board 301 determines that the sub-sub board 302 is stopped, and sends a reset signal to the sub-sub board 302. Execute sub-sub start processing to output and restart. However, in this case, the sub main board 301 is not reset, and the sub main board 301 is in a continuously activated state.

The sub main board 301 waits for a predetermined waiting time (here, 50 ms) from the output of the reset signal to the sub sub board 302, waits for the waiting time (wait time) to pass unconditionally, and then Toggle signal monitoring begins. Here, waiting for the elapse of the standby time may be set to a standby time of about 50 ms even if the state of the sub-sub board 302 at the time of start-up (power-on) becomes unstable due to the influence of noise or the like. This is based on the idea that the state of the sub-sub-board 302 will be stable. If the edge between the rising and falling edges of the monitoring toggle signal can be detected four times as shown in (1) to (4) at the bottom of the figure, it is determined that the sub-sub board 302 has risen normally, and the command Moves to normal operation where transmission is possible. Here, the reset signal transmitted from the sub-main board 301 side to the sub-sub board 302 is not only when external reset is performed as described above, but also when the power is turned on (power-on reset signal), In the present embodiment, the monitoring of the toggle signal is started after the waiting time has elapsed in any case of the reset signal.
<< Communication processing with sub-sub board >>

Next, communication processing with the sub-sub board 302 will be described. Command transmission from the sub-main board 301 to the sub-sub board 302 (sub-main command transmission) generates an interrupt (sub-communication interrupt) related to communication with the sub-sub board 302 at regular intervals (in this case, 500 μs). This is performed by a sub main command transmission process for executing a communication process with the sub sub board 302 each time. In the communication processing with the sub-sub board 302, the buffer check is sequentially performed to confirm the existence of data to be transmitted, and if there is data, this data is read. Then, the read data is set in the transmission buffer, the setting related to command transmission is updated, and the communication process with the sub-sub is completed.
<< Command transmission / reception management process >>

Further, when the sub main board 301 transmits a command to the sub sub board 302, the received command (sub sub command) indicating that the command (sub main command) has been normally received from the sub sub board 302 side is the sub main board 301. It is transmitted to the substrate 301 side. In this command transmission / reception management process, a command is read, a command analysis is executed, and then the command is saved. When receiving a sub-subcommand, command reception interrupt processing is executed in the sub-sub-board 302. This command reception interrupt processing sets a flag for executing command reception interrupt processing in the above-mentioned sub-communication interrupt. It is executed by. That is, since the input of the sub-subcommand from the sub-sub board 302 is generated after the transmission of the sub-main command from the sub-main board 301, the command reception interrupt process is incidental to the process related to the sub-communication interrupt. It is supposed to be.
<< Control processing on sub-sub board >>

  In the sub-sub board 302, similarly to the sub-main board 301, a sub-sub initial setting process that is started after the power is turned on, a main process that is executed after the sub-sub initial setting process, and a sub-sub timer that is generated at a predetermined cycle with respect to the main process A timer interrupt process that is executed in response to an interrupt, a sub-main command reception process that is an interrupt process that occurs in response to the reception of the above-described sub-main command, and the like are executed.

  Among these, in the sub-sub initial setting process, a hardware initial that performs basic settings (register setting, port initialization, etc.) related to stack pointer reset, interrupt disable, and hardware that a predetermined address is set as a stack pointer Setting processing, RWM initialization processing, and the like are executed. In this sub-sub initial setting process, it is also possible to perform a process for operating the VDP 526 (see FIG. 4). The processing for operating the VDP 526 includes the development of image data from the character ROM 525 to the video memory 524 described above. Further, the development of the image data in the sub-sub initial setting process is performed for the initial screen display described above, but image data other than the initial screen display may be developed as necessary.

  Further, following the sub-sub initial setting process, the main process in the sub-sub board 302 is executed. In the main process in the sub-sub-board 302, a loop process (second effect control main loop process) that circulates including a predetermined process after permitting an interrupt for enabling an interrupt in subsequent processes is performed. After this loop processing is started, the above-described sub-main command reception processing, the above-described reception command transmission processing for transmitting a reception command (sub-subcommand) indicating that the sub-main command has been successfully received, etc. Executed.

  Moreover, the following can be illustrated as an aspect of the image control in the sub sub board | substrate 302. FIG. That is, as shown in FIGS. 7B1 and 7B2, in the display area 194 of the effect symbol display device 60, the decorative symbols 190a to 190c, the first reserved number display unit 196, the second reserved number display unit 197, and the like. Is displayed, background images according to the game mode and the contents of the presentation at the time, presentation images for making the players expect to reach and win, and various images for effective presentation It is displayed according to.

  Moreover, as a display example related to the decorative symbols 190a to 190c, not only the scroll operation in the variable display but also, for example, only a part of the decorative symbols performs a predetermined operation at a predetermined timing (for example, immediately before or after stopping). Various examples can be given such as a display mode and a display mode in which another moving image is added to the decorative design at a predetermined timing. Note that the scroll operation of the decorative symbols 190a to 190c is not limited to movement in the vertical direction or horizontal direction, and it is also possible to adopt a display mode such as rotation or turning. In addition, various moving images are displayed on the images other than the decorative symbols 190a to 190c according to the determined effect pattern.

  As described above, the display on the effect symbol display device 60 (display) is such that the image data stored in the character ROM 525 (see FIG. 4) is read into the video memory 524 of the VDP 526 and further read into the video memory 524. This is done by transferring the image data to the liquid crystal unit 42. Further, in the liquid crystal unit 42, moving images and still images are displayed by updating the display at a predetermined frame update rate (here, 30 frames per second).

  FIG. 23A shows a simplified structure of a one-frame image (frame image) for the video illustrated in FIG. 7B2. In the example of FIG. 23A, images of decorative symbols 182a to 182c are arranged in the left-right direction at the center of the background layer 181 on which the background image is drawn. Among these, the background image drawn in the background layer 181 in the example in the drawing depicts a state in which the road of one lane on one side extends linearly from the horizon to the front. This background image is then displayed as a moving image of the road moving from the back to the front so that a visual effect can be obtained as if the player is moving on the road from the front to the back. Is called. Here, the background image is composed of only one layer (background layer 181) so that the drawing is not complicated, but the background image may be drawn by overlapping a plurality of layers.

  The above-mentioned decorative symbols 182a to 182c have the meaning of the numeral "7" among the various decorative symbols constituting the left, middle, and right decorative symbols 190a to 190c. Further, as shown in FIG. 23 (b), one of the decorative symbols 182a is a code layer in which the numeral “7” is drawn on a frame layer 183 in which a frame-like rectangular frame is drawn. 184 and an additional image layer 185 on which a car is drawn are sequentially superimposed. In other words, the decorative design 182a includes a frame, the number “7”, and an automobile image as components, and the layers are different for each component. Here, the rectangular external dimensions of the layers 183 to 185 are not common, and are set in accordance with the size of the image to be drawn. In addition, for example, when the frame portion and the number portion of the decorative design 182a are set as still images and only the vehicle portion is set as a moving image, the same frame layer 183 and code layer 184 are continuously used. Only the additional image layer 185 on which the car is drawn is sequentially switched to the content that has changed continuously.

  Further, as shown in FIG. 23A, on the background layer 181, a first hold display layer 186 for images of the first hold number display unit 196 and the second hold number display unit 197, 2 on-hold display layer 187 is superimposed. Here, four hold displays indicated by perfect circles are drawn together in one layer (the first hold display layer 186 or the second hold display layer 187). For example, for each hold display (one One or more layers may be used (for each perfect circle). In the present embodiment, the outer dimensions (layer sizes) of the layers are made different according to the size of the image. However, the margin is allowed to be large. For example, the background layer 181 is also used for images other than the background image. Layers having a common size may be used, and these layers may be overlapped so that the vertices match to synthesize an image.

  As described above, an image of one frame is configured by using a large number of layers. Examples of the format of image data drawn on each layer include a sprite image and a polygon image. Here, in the case of a sprite image, it is possible to control the position of the image by giving width and height information to one vertex of the rectangle (for example, the upper left vertex). In the case of a polygon image, for example, an image can be configured by combining a large number of triangles, and position control, shape control by free deformation, and the like can be performed. In shape control of a polygon image, for example, deformation from a square (or a rectangle) to a parallelogram is possible.

  Next, a control mode for displaying the image data stored in the character ROM 525 on the display will be described with reference to FIG. FIG. 24A schematically shows that the image data of each layer constituting the image frame is read from the character ROM 525, developed in the video memory 524, and further displayed on the display in order from left to right. Show.

  As shown on the left side of FIG. 24A, the image data 188 is configured by arranging a large number of dots (each indicated by a rectangular ridge) vertically and horizontally. Examples of the number of dots in the image data 188 include 512 × 512. The image data 188 is transferred from the character ROM 525 to the liquid crystal unit 42 during the game of the pachinko gaming machine 10 by the automatic transfer means 316 (see FIG. 6). Later).

  That is, the automatic transfer unit 316 reads predetermined image data (here, image data 188) from the character ROM 525 based on the contents of the image frame to be displayed on the display of the liquid crystal unit 42, and stores the predetermined format on the video memory 524. To develop image data 189 of one frame. Here, in order to simplify the explanation and illustration, only one image data 188 is illustrated as the image data constituting one frame. However, as described above, the background and other configurations are used for the image frame configuration. Image data related to the element is necessary (see FIGS. 23A and 23B).

  The reading of the image data by the automatic transfer unit 316 is repeated a plurality of times during a predetermined time (here, 33 ms which is a display period of one frame), and the image data 189 for one frame is synthesized in the video memory 524. Then, the image data 189 for one frame is transferred to a display having a predetermined resolution (for example, 1024 × 768) in units of pixel data, and the video of the image data 189 is displayed.

  The format of the image data developed in the video memory 524 has color and transparency information in a predetermined data amount (here, a total of 32 bits) for each pixel displayed on the display. Among these, the information related to the color is color information related to the three primary colors of RGB (red, green, and blue), and the gradation is set for each color of RGB by a value from 0 to 255 (8 bits). Also, the transparency can be set by a value from 0 to 255 (8 bits), and the transparency (transmissivity) of the image data increases as the transparency decreases from 255 to 0. Regarding the transparency, the value for each pixel on the video memory 524 is a predetermined fixed value. Here, the transparency may be set in increments of 0.01 within a numerical value range of 0 to 1, for example.

  Further, in the video memory 524, the image data 189 for one frame is sequentially updated (rewritten) every 33 ms, which is a display period of one frame in the present embodiment (hereinafter sometimes referred to as “frame period”). Is done. As a more specific control mode of automatic transfer, the VDP 526 includes data in a transfer order determined in advance based on the contents of the displayed image frame, and an instruction from the CPU 531 is issued based on the data in the transfer order. It is possible to list those that perform automatic transfer without receiving them one by one.

  According to such an image control mode of this embodiment, it is not necessary to create a large number of image frame data before display in the video memory 524, and the capacity of the video memory 524 can be small.

  That is, in a general method different from the method of the present embodiment, as many image frames 189 as possible are created as shown in FIG. 24 (b), and are developed in the video memory 524 in advance. Of many image data 189, image data to be displayed at any given time is selected and transferred to a display. Then, image data 189 relating to a large number of image frames is prepared, the image data in the video memory 524 is switched, and the image data 189 is transferred, so that the frame period is a limited time. In addition, a variety of effects can be displayed without causing interruption of the video or lack of part of the image data (so-called image drop or process drop).

  However, in such a general method, it is necessary to secure a large capacity of the video memory 524 in order to create and develop a large number of image data 189. Further, it takes a lot of time to develop the image data of the character ROM in the video memory 524 and prepare a large number of image frames. For this reason, when the power of the pachinko gaming machine 10 is turned on, a preparatory work for developing (loading) a large number of image frames is performed. The time (start-up time) for achieving a long state is prolonged (for example, 30 seconds to 2 minutes or more).

  Further, in order to construct a large number of image frames, the arrangement and drawing order of the image data of the character ROM in the video memory 524 are determined by the programmer in consideration of the waste of the memory area of the video memory 524 at the development stage. Therefore, it takes a lot of time to work on the arrangement of the image data.

  On the other hand, in the system of this embodiment, as described above, the image data in the character ROM 525 is automatically transferred to the video memory 524, so that the programmer often arranges the image data in the video memory 524 in advance. It is possible to reduce the burden on the programmer development stage. Furthermore, it is not necessary to prepare a large number of image frames in advance as compared with the general method described above, and the capacity of the storage means used as the video memory 524 can be reduced.

  In this automatic transfer method, as the image data reading speed from the character ROM 525 to the VDP 526 increases, more image data can be expanded in the video memory 524 within a limited time. . Therefore, in this embodiment, a sufficient transmission capacity is secured in the bus line between the character ROM 525 and the VDP 526 and further the video memory 524 so that the automatic transfer function can be utilized. The bus transmission capacity can be ensured by setting a sufficiently large number of buses, for example. Also, it is desirable to secure a sufficient transmission capacity for a bus related to communication from the video memory 524 to the display so that high-speed data transfer can be performed.

  Further, the video memory 524 in the system of this embodiment shown in FIG. 24A shows image data 189 for one frame, but also in the system of this embodiment, the capacity of the video memory 524 is divided into a plurality of frames. It is good also as a grade which can develop the image data 189 of the minute. Also in the method of the present embodiment, as described above, a part of image data can be developed (loaded) from the character ROM 525 to the video memory 524 while the sub-sub board 302 is activated. In this case, as the image data to be loaded during activation, the above-described image data for displaying the initial screen can be exemplified. In addition, when image data other than the initial screen display is developed in advance, examples of high-frequency use during presentation display can be cited. The image data which comprises characters, such as a character to be displayed, a decoration design, etc. can be illustrated.

  In the present embodiment, the image data 189 (see FIG. 24A) in the video memory 524 is rewritten every frame period, but when the image data 189 is rewritten, the previous time. The image data 189 used in the frame period may be erased first, and then new image data may be written into the video memory 524. Further, for example, the VDP 526 (or the CPU 531) determines whether or not to use the same image frame in the next frame period, or determines whether or not the image data in the image frame is used in common in the next frame period. If the same image frame or the same image data is used, the image data already transferred to the video memory 524 is continuously used without transferring the image data from the character ROM 525 to the video memory 524. It is also possible to make it. Here, when the CPU 531 performs the above-described determination, a display control command corresponding to the determination result can be transmitted to the VDP 526.

  Next, image display performed on the display of the liquid crystal unit 42 will be described. In this embodiment, when image data is displayed on the display of the liquid crystal unit 42, each dot of the image data is displayed by each pixel of the display. Each pixel of the display has color information related to the three primary colors RGB (red, green, and blue) and transparency information related to transparency. Further, for each color of RGB, as with the image data in the video memory 524, gradations can be set by values (0 bits) from 0 to 255, respectively. The transparency can be set by a numerical value from 0 to 1, and the transparency (transmittance) of the image data increases as the transparency decreases from 1 to 0. Here, similarly to the image data in the video memory 524, the transparency may be set by an 8-bit value from 0 to 255, for example.

  Further, the transparency can be set for each of the four vertices of the rectangular image data, and the image data 188 can be displayed by changing the transparency for each vertex. That is, the transparency of the vertex of the image displayed on the display is a value obtained by multiplying the numerical value related to the transparency information included in the image data on the video memory 524 and the numerical value related to the transparency information for display on the display. ing. For example, when the transparency value of the image data on the video memory 524 is 1 and the transparency value for display on the display is 0.5, 0. 5 is the transparency of the displayed image. Such transparency can be set regardless of the image type such as a sprite image or a polygon image.

  Here, it is conceivable that the transparency for display on the display is set by the VDP 526. Similarly, for the color information, the color of the displayed image is determined by multiplying the numerical value related to the color information included in the image data on the video memory 524 by the numerical value related to the color information for display on the display. It is done.

  Furthermore, for transparency, an interpolation function is provided, and if the programmer sets the transparency of some pixels, continuous transparency settings can be automatically set without specifying the transparency for all pixels in advance. To be done. For example, when displaying the rectangular image data 188 shown in FIG. 25, when the transparency of the pixel corresponding to the upper left vertex A of the image data 188 is 0 and the transparency of the pixel corresponding to the lower left vertex D is 1. The transparency at the middle position E between the two vertices is automatically set to 0.5, which is an intermediate value between 0 and 1. Further, the transparency of the intermediate position F between the above-mentioned intermediate position E and the upper left vertex A is automatically set to 0.25, and the transparency of the above intermediate position E, the lower left vertex D and the intermediate position G is automatically set. Is set to 0.75.

  Such a transparency setting mode includes the upper left vertex A and the upper right vertex B, the upper right vertex B and the lower right vertex C, the lower right vertex C and the lower left vertex D, and the upper left vertex A of the image data 188. The same applies to the lower right vertex C, the upper right vertex B, and the lower left vertex D. Furthermore, the same transparency can be set between any intermediate position and the vertex or between the intermediate positions. Here, the change rate of transparency between two points is determined by a value obtained by dividing the value of the difference in transparency by the number of pixels (here, the same as the number of dots), and the value of the difference in transparency and the pixel Depending on the relationship with the number, the intermediate value of transparency may not be 0.25, 0.5, or 0.75 as in the above example. Note that such transparency interpolation can be performed by the VDP 526. It is also possible to perform the above-described transparency interpolation on the image data 188 on the video memory 524 in advance. Further, regarding the transparency set by the interpolation function, a numerical value related to the transparency information included in the image data on the video memory 524 and a numerical value related to the transparency information for display on the display (value obtained by storage). It is possible to obtain a value obtained by multiplication.

  In the present embodiment, the transparency of the decorative symbols (190a to 190c) during the variable display is made higher than that during the stop display by the transparency changing means 317 (see FIG. 4). The change of the transparency is performed in accordance with the establishment of a predetermined change condition. In this embodiment, the transparency is executed when the variation speed of the decorative symbol changes in a predetermined manner. For example, the transparency of the decorative symbol is set to such an extent that the entire decorative symbol can be visually recognized (for example, 1) at the start of the variable display. However, the transparency of the decorative pattern is gradually increased with the lapse of time related to the variable display, for example, 0.25 during the low-speed fluctuation from the start of the variable display through the accelerated display, and during the medium-speed fluctuation through the accelerated display. Gradually becomes semitransparent, such as 0.5.

  Then, during the high-speed fluctuation in which the fluctuation speed reaches the maximum, the transparency of the decorative symbol becomes, for example, 0 which is the minimum value, and the decorative symbol cannot be visually recognized. On the other hand, when the decorative symbol state is gradually decelerated and transitioned from the high-speed fluctuation table to medium-speed fluctuation, low-speed fluctuation, or stopped display, the transparency of the decorative pattern gradually decreases, and visual recognition It becomes easier sequentially. Here, the function of the transparency changing means 317 can be given to the VDP 526. In addition, the transparency may be changed simultaneously for, for example, all three decorative symbols. In this case, the transparency of other decorative symbols is changed in accordance with the timing of changing the transparency of the decorative symbol which starts to fluctuate first. An example of performing the change can be exemplified. Furthermore, the condition for changing the transparency is not limited to the change in the change speed, but may be, for example, that the elapsed time from the start of the change has reached a predetermined value.

  In the present embodiment, image data relating to the decorative design is selectively used based on the change in the transparency of the decorative design. That is, in the present embodiment, a plurality of types of image data are provided for one type (same type) of decorative symbols, and the above-described image data switching means 318 allows the decorative symbols to be displayed according to the state of transparency of the decorative symbols. The image data related to is used properly.

  For example, for a decorative pattern 182a of the type having the meaning of the numeral “7” as shown in FIG. 25, a first image used from a stop display to a middle speed fluctuation through a low fluctuation, The second image used during medium speed fluctuation to high speed fluctuation is composed by combining the image data stored in the character ROM 525. The first image and the second image are different from each other in terms of the data size (the number of dots in this case) of the image serving as a component, and each image data constituting the second image is different from each image data constituting the first image. The number of dots is smaller than the image data. Here, it can be said that the “same type” for the decorative design means that it plays the same role in the discriminability necessary for notifying the result of the success / failure lottery. For example, for the number “7”, even if various elements such as font, color, additional image, atmosphere, etc. are different, if the function of the number “7” is performed in common, it is the “same type” decorative pattern. It can be said that. This is not limited to numbers, and the same applies when characters such as kanji, hiragana, alphabets, and other symbols are used as decorative designs.

  Here, taking the decorative design 182a shown in FIG. 23B as an example, image data drawn in each of the layers 183 to 185 corresponds to the image data constituting the first image. In each layer of the second image, what has the same meaning as the first image is drawn in terms of distinction of decorative symbols, but the data amount of the image is smaller than that of the first image. For this reason, when the image data constituting the second image is read from the character ROM 525 to the video memory 524 by the above-described automatic transfer function, the data transmission can be completed more quickly than the case of constituting the first image. it can.

  In order to create image data constituting the second image, various general image processing can be employed. For example, the image data of the first image is divided into a plurality of adjacent areas (64 × 64, etc.) for each dot, the dot image data representing each area is extracted, and the extracted image data is collected into a small size. It can be illustrated that the image data is for the second image that has been converted to 1/8 (here, 1/8). It should be noted that the second image is prepared not only corresponding to the above-mentioned “7” decorative design but also corresponding to other numerical decorative designs.

  When the second image is displayed on the display, the display magnification of the entire second image is changed and expanded so that it matches the display size of the first image (here, the vertical and horizontal directions are each eight times the image size). The enlarged second image at the time of display is formed. The definition (resolution) of the enlarged second image is lower (coarse) than the first image. The first image with a fine image quality is used during stop display or low-speed fluctuation, which makes it easy to visually recognize the entire decorative pattern, while medium-speed fluctuation or high-speed fluctuation is difficult to see details of the decorative pattern. In the middle or the like, the second image having a rough image quality is used, and the decorative symbols are displayed in a variable manner.

  Note that the method of creating and displaying the second image as exemplified here may be, in other words, using the image data that has been created by irreversibly compressing the image at the time of display. it can. In addition, the VDP 326 can be provided with a function of switching to the second image. Furthermore, the creation of the second image is not limited to the above-described method. For example, the first image after synthesis may be reduced to obtain image data for the second image. In addition to the same number of layers of the first image and the second image, for example, the second image is formed by omitting a predetermined part of the image data of each image data constituting the first image. May be.

  In addition, image data having a smaller data size may be stored in the character ROM 525, and a third image representing a decorative pattern common to the first image and the second image may be formed using the image data. In this case, it is conceivable to switch to the third image after displaying the second image.

By performing the change of the transparency of the display image as described above and the switching of the image data, the following display control can be performed. That is, first, a variable image of a predetermined image (decorative pattern or the like) with a predetermined transparency (transparency 1 or the like) and a relatively large amount of data is started, and after the fluctuation speed is accelerated, a higher transparency (transparency) than before is started. 0.75, etc.), the display of the image is continued. Then, after accelerating the fluctuation speed, switching to a predetermined image with a relatively small amount of data is performed, and the fluctuation display is continued with a higher transparency (such as transparency 0.25) than the decorative pattern before the switching. Furthermore, after accelerating the fluctuation speed, continue to display the fluctuation of the image data with higher transparency (transparency 0, etc.) than before, and in a situation where the details of the image are not conspicuous with a small amount of data (light) Display the used fluctuation display. Such decoration pattern transparency is not limited to the entire decoration pattern. For example, some images have a transparency of 0, other images have a transparency of 0.5, and other ones. It is also possible to carry out in such a manner that the image of the part is set to transparency 1. If applied to the decorative design shown in FIG. 23B, a mode in which the frame layer 183 has transparency 0, the code layer 184 has transparency 0.5, and the additional image layer 185 has transparency 1 can be exemplified. Furthermore, the change in transparency and the switching of image data as described above are not limited to decorative symbols, and for example, they can be moved and displayed at a high speed to the extent that they are difficult to view from a stop display or a state of moving and displaying at a constant speed. It can also be applied to images of characters and objects.
<Operational effects of the invention according to the present embodiment>
<< Effects of Invention Related to Control Processing of Main Board at Power-on >>

  Next, the effect of the invention in the pachinko gaming machine 10 of the present embodiment will be described. In the invention according to the present embodiment, when it is determined that the initialization switch 544 has not been operated on the main board 102 when the pachinko gaming machine 10 is turned on, the CPU 501 stores the power-off normal information. If the power-off normal information is stored, it is determined whether the checksum data is 0, that is, whether the restart preparation process execution condition is satisfied. If the checksum data is 0, the resumption preparation process (S9 to S17) is completed, and the subsequent control process is executed.

  On the other hand, if it is determined that the initialization switch 544 has been operated, initialization control processing (clearing the RWM area (S24), initial setting of the RWM (S25)) is executed, and thereafter, the game progress interruption processing Interrupt preparation processing (initialization of the effect display (S26)) is executed. In addition, after the interrupt preparation process, 4 ms is set as the period information for periodically repeating the game progress interrupt process (S27), the timer is counted based on the period information, and the game progress interrupt is started after the timing is started. The circulation process (S28 to S32) is executed while waiting for the interruption by the process. Each time the circulation process (S28 to S32) is executed, the initial value random number update process (S31) is executed, and the random number acquired during the game progress process every time the circulation process (S28 to S32) is performed. The random number relation value used to determine the value is updated by +1.

  Here, since the setting of the cycle information and the start of timing are performed immediately before entering the circulation process (S28 to S32), the time when the circulation process (S28 to S32) is first started after the power is turned on, It is possible to secure a maximum interval from the time until the first game progress interruption process after the insertion is executed. Furthermore, the processes executed between the start of the circulation process (S28 to S32) and the initial value random number update process (S31) are the interrupt prohibition process (S28), the first recursion information setting process (S29), In addition, since only the power-off confirmation information is confirmed (S30) and no other processes are involved, the time required from the start of the circulation process (S28 to S32) to the initial value random number update process (S31) is It can be kept as short as possible. Specifically, immediately after the power is turned on, the time from the setting of the cycle information (S27) to the execution of the game progress interrupt process is 4 ms, whereas the initial value random number update process from the power-on or from the start of the circulation process The time until the execution of (S31) is, for example, several tens to several hundreds μs.

  Therefore, the initial value random number update process (S31) can be repeated as many times as possible during the period from when the power is turned on until the first game progress interruption process is executed. By the progress interruption process, execution of the initial value random number update process (S31) n times (n is an integer of 2 or more) or more can be compensated. Further, the rate of change of the random number related values set by the initial value random number update process (S31) from the power-on to the first game progress interrupt process increases. And the randomness of the random number related value obtained by the initial value random number update process (S31) is improved, and the randomness of the acquired random number per special symbol and the random number per special symbol determined using this random number related value is also improved. Even after the power is turned on, it can be prevented from being easily identified or estimated from the outside of the pachinko gaming machine 10. The random number-related value is one element for determining the initial random number of the software random number that is added to the hardware random number. It makes identification and estimation more difficult.

  This is effective against the following illegal acts. That is, some recent pachinko machines change the initial value of the next timekeeping to a different value when the counter used for generating the random numbers for the big hit lottery reaches the maximum value (or the minimum value). Then, for this type of pachinko gaming machine, the power is forcibly turned off and turned on again so that it is not discovered by the people involved in the game hall, and the initialization switch 544 is operated when the power is turned on again. Initialize data.

  Even for pachinko machines of the type that change the initial value of the big hit lottery counter, the control process from power-on with data initialization is usually uniform, In some cases, the jackpot can be obtained using the value immediately after the power is turned on. However, like the pachinko gaming machine 10 of the present embodiment, the initial value random number update process (S31) is executed as many times as possible before the first game progress interruption process after the power is turned on. Thus, it becomes difficult to predict the random number related values, and hence the soft random numbers per special symbol and the acquired values of the random numbers per special symbol, and it is possible to forcibly initialize the data and prevent fraud targeting the big hit. Such technical measures also serve as a deterrent to those who attempt fraud.

  Further, according to this embodiment, even if it is determined that the initialization switch 544 is not operated when the pachinko gaming machine 10 is turned on, if the checksum data does not become 0, the initialization control process After executing (S24, S25) and subsequently executing an interrupt preparation process (S26) for preparing for the game progress interrupt process, the operation of the initialization switch 544 is performed when the power is turned on after setting the cycle information (S27). The circulation process (S28 to S32) is executed in the same way as there is. For this reason, it is possible to execute the game progress interruption process after executing the initial value random number update process more than once for more situations immediately after the power is turned on, and the randomness of the random number per special symbol used for the big hit lottery determination Can be further improved.

  Note that the present invention having such effects can be applied not only to soft random numbers per special symbol and random numbers per special symbol, but also to other various random numbers as long as random numbers using random number related values by the initial value random number update process are used. Randomness can be improved.

  In other words, in the invention according to this embodiment, the value related to the random number is updated during the cyclic processing after the interrupt timing processing is executed based on the period information. Furthermore, immediately after the power is turned on, the time from the setting of the cycle information (S27) to the execution of the game progress interrupt process, the time from the power on, or from the start of the circulation process until the initial value random number update process (S30) is started. The value related to the random number is updated over the number of times obtained from the relationship with the time. The number of updates performed between the time when the interrupt timing process is first activated and before the occurrence of the game progress interrupt process is secured at least four times. If it is determined that there is no information initialization input such as an operation of the initialization switch 544, and if it indicates that the restart preparation process execution condition is not satisfied, the initialization control process and the interrupt The preparatory process is executed, and the interrupt timing process and the cyclic process are executed. And according to the invention according to the present embodiment, a random period is set as many times as possible by deliberately using a restrictive period from the setting of the first cycle information to the game progress interrupt processing after the power is turned on. Relevant values can be updated.

The pachinko gaming machine according to such an invention is conceptually composed of, for example, power supply means (power supply board, etc.) for supplying power necessary for the game, and main control means (main board, etc.) for controlling the game. And an effect control means (such as a sub main board) that is communicably connected to the main control means and performs a control process according to an effect control command related to the effect from the main control means,
The main control means includes
A control start process executing means for executing a control start process in response to the start of power supply from the power supply means;
Game progress interrupt processing execution means for executing game progress interrupt processing for game progress in a predetermined cycle with respect to the control start processing;
Based on the fact that the game medium launched into the game area has flowed down the game area and passed through the predetermined start area,
In the game progress interruption processing, random number acquisition means for acquiring random numbers related to jackpot lottery (such as soft random numbers per special symbol, hardware random numbers, symbol random numbers per special symbol), and jackpot determination means for performing jackpot lottery determination Prepared,
In a pachinko gaming machine that executes special games that are more advantageous to the player than usual when it is a big hit,
Power supply control means (such as a power failure monitoring circuit unit) that performs power supply control related to the supply of power from the power supply means,
The power control means includes
A power drop detection means for detecting whether or not the power from the power supply means has become a predetermined value or less;
A power-off information output means for outputting power-off information indicating that the power is turned off when the power drop detecting means detects that the power is less than or equal to a predetermined value; Is
A power-off execution processing means for executing a power-off process when the power-off information is output;
Resumption index storage means (such as a stack pointer) that stores resumption index information that serves as an index to control processing that should resume the game when the power is cut off;
Power-off information setting means for setting power-off normal information indicating that the power-off processing has been normally performed after the resumption index information is stored in the resumption index storage means;
Information initialization input (for RWM clear switch) for information initialization (RWM clear, etc.) for initializing the control process indicated by the restart index information before the power interruption when the power supply is started by the power supply means Information initialization input determination means for determining whether or not there has been an operation,
When the information initialization input determination means determines that the information initialization input has not been made, at least based on the information stored in the power-off information setting means, a resumption preparation process (S9 to S23, etc.) Resumption preparation process execution condition determining means for determining whether a resumption preparation process execution condition for proceeding to is established,
When it is determined by the restart preparation process execution condition determination means that the restart preparation process execution condition is satisfied,
After the restart preparation process is completed, the control process indicated by the restart index information is restarted,
When it is determined by the information initialization input determination means that the information initialization input has been performed,
An initialization control process (S24, S25, etc.) for initializing the information and an interrupt preparation process (S26, etc.) to prepare for the game progress interrupt process after the initialization control process are executed.
An interrupt timing process (such as S27) for setting the period information for periodically repeating the game progress interrupt process after the interrupt preparation process, and measuring the time based on the period information;
A circulation process (such as S32) that circulates the control process while waiting for an interrupt by the game progress interrupt process after the start of the interrupt timing process,
After the start of power supply, at least the interrupt preparation process is executed, the period information for periodically repeating the game progress interrupt process is set, and the interrupt timing process is executed based on the period information An initial value random number update means during the control start process for updating a value related to the random number (such as a random number related value) used in the random number acquisition means during the cyclic processing of
After starting the supply of power by the power supply means, the initial value random number is updated during the control start process at least four times between the time when the interrupt timing process is first started and the time when the game progress interrupt process is generated And updating the value related to the random number used by the random number acquiring means,
When the information initialization input determination means determines that there is no information initialization input,
If the determination result of the restart preparation process execution condition determination means indicates that the restart preparation process execution condition is not satisfied,
Performing the initialization control process for the information initialization, and an interrupt preparation process for preparing for the game progress interrupt process after the initialization control process,
Set the period information for periodically repeating the game progress interrupt process after the interrupt preparation process, and an interrupt timing process for measuring time based on the period information,
After the start of the interrupt timing process, a cyclic process for circulating the control process while waiting for the interruption of the game progress interrupt process,
The initial value random number update means during the control start process,
After the start of power supply, at least the interrupt preparation process is executed, the period information for periodically repeating the game progress interrupt process is set, and the interrupt timing process is executed based on the period information Updating the value related to the random number used by the random number acquisition means during the cyclic processing of
After starting the supply of power by the power supply means, the initial value random number is updated during the control start process at least four times between the time when the interrupt timing process is first started and the time when the game progress interrupt process is generated By means, it can be expressed as a pachinko gaming machine characterized in that a value related to the random number used in the random number obtaining means is updated.

Here, the description of “the main control unit includes a power-off execution processing unit that executes a power-off process when the power-off information is output, and (omitted)” is, for example, It does not mean that the main control means outputs power interruption information to the outside. For example, power interruption information is input from a power control means provided in the main control means to a CPU provided in the main control means. This means that the power-off information is input to the main control means from the power control means provided outside the main control means.
<< Effects of the Invention Related to Control Processing at Power Off >>

  In the pachinko gaming machine of the present embodiment, when the power is cut off, the above-mentioned power-off confirmation information is set and stored, and thereafter, the control processing is continued until the game progress interruption processing of the current cycle is completed. After the progress interruption process is completed, the power-off process (S301 to S307) is executed to turn off the power. Therefore, when the power is cut off, it is possible to turn off the power after completing the game progress interrupt processing of the cycle, forcibly interrupting transmission / reception of commands set during the game progress interrupt processing, etc. Therefore, it is possible to prevent the occurrence of a problem caused by interrupting the game progress interruption process.

  More specifically, for example, if the payout control input signal from the main board 102 to the payout control board 45 is taken as an example, the winning ball control process (S52) from the start of the winning monitoring process (S51 in FIG. 14). Even if a voltage drop that causes a power interruption occurs during the control process for transmitting the main control MODE command until the end of the process, the power-off confirmation information Setting is performed (S111), and then the process returns to the game progress interruption process, and the command transmission process is continued. Then, after the control processing for both the main control EVENT command and the main control MODE command is finished, and all necessary control processing during the game progress interrupt processing in the cycle is finished, the power-off processing is executed (S301 to S301). S307). Therefore, in the game progress interrupt processing unit, it is possible to facilitate the resumption of the control processing when the power is restored, without terminating the control processing in a halfway state and turning off the power. Furthermore, since the power supply is prevented from being interrupted in the middle of the game progress interrupt process, there is no need to save the used register or save the interrupt enabled / disabled state during the game progress interrupt process. .

  Further, for example, a special symbol control process (S57 in FIG. 14) that defines a control process related to the variation of the special symbol, a special symbol fluctuation start monitoring control process (S60) including a process for performing a big hit lottery determination, error detection and Also in the abnormality detection process (S61) that defines the control process related to error notification, or other control processes, the control process of command transmission, etc. is completed after the power-off confirmation information is set. The power-off process is executed after the game progress interrupt process of the period, which is a typical control process, is completed. Therefore, in the next game progress interruption process, for example, the control process such as re-transmission of the latter half (lower part) of the command that should have been transmitted can be omitted, and the information communication can be stabilized and the burden of the control process can be reduced. Can be realized.

  Further, in this embodiment, when the power supply voltage decreases and reaches a predetermined value, there is provided a power-off required time setting means for setting a time until the power is turned off thereafter. The power-off required time X by the time setting means is a time A required to complete the control start process, a time B required to complete the game progress interrupt process, a time C required to set the power-off confirmation information, and It is set to be larger than the total time D required to complete the power-off process. Therefore, it is possible to terminate the control process when the power is cut off without being interrupted, and this also makes it possible to prevent the occurrence of a malfunction when the power is turned off.

  Further, according to the present embodiment, the start timing of the power-off processing of the sub-control means (sub-board 104, payout control board 45, etc.) The time required for the setting and the power-off process is taken into consideration. It becomes possible to complete the transmission of the control command.

Further, by contriving such a control process when the power is turned off, it is possible to restrict the control state when the power is turned on again after the power is turned off and the power is restored to a certain degree.
<< Effects of Invention According to Image Control Mode of Sub-Sub Board >>

  In the pachinko gaming machine 10 according to the present embodiment, as described above, the first image with a relatively large amount of data and the second image with a small amount of data are used for one type of decorative design. Thus, display control using the second image is executed in a situation where display of an image with a low resolution is permitted, such as during high-speed fluctuation of the decorative design. Therefore, compared to the case where image data with a large amount of data is continuously used during variable display, the processing load related to data transfer for creating a frame image on the sub-sub board 302 can be reduced, and so-called image drop and process drop occur. It is possible to smoothly perform various presentation displays without any problems.

  In this embodiment, since the VDP 526 has an automatic transfer function, the processing load on the VDP 526 can be directly reduced. However, the VDP 526 also develops image data for the CPU 531. It is possible to reduce the waiting time for processing while the CPU 531 is in use, and to reduce the processing load on the CPU 531 through efficient use of the CPU 531.

  Furthermore, in this embodiment, transparency information is added to the image data, so that one image data can be displayed with different transparency. For this reason, for example, a variety of displays such as changing the transparency according to the change of the changing speed during the change of the decorative design is possible.

  In the present embodiment, the transparency of the image data is changed based on the switching of the image data having different data amounts. When the transparency is increased, the second image having a small data amount is used. Therefore, due to the correlation between the transparency of the image data and the data amount, the use of the second image with a small amount of data is made less noticeable (while making it difficult for the player to notice), and the image display The processing burden can be reduced. Further, by reducing the number of image data (for example, the number of layers) configured as described above for the second image with a small amount of data, it is possible to further reduce the processing load related to image display.

  Furthermore, in this embodiment, the transparency can be individually set for different parts (here, each vertex) of one image data. Therefore, it is possible to set the transparency at a ratio of a plurality of types at the same time for one image data, and as a result, the image data can be made transparent in various modes. In addition, for both the first image and the second image, the display mode options can be expanded, and various image displays can be performed, and the processing burden related to the image display can be reduced.

  In addition, the transparency is automatically interpolated for the part between the parts (here, each vertex) where the transparency of the image data is set. Therefore, a continuous and smooth distribution of transparency can be easily set for the image data. Then, for both the first image and the second image, the display mode options can be expanded and the display mode can be easily set. In addition, it is possible to reduce the processing load related to image display while easily performing various image displays.

  The present invention is not limited to the above-described embodiments, and various modifications can be made. For example, as the effect symbol display device 60, a device using a plurality of liquid crystal displays may be employed. In this case, as the arrangement of the plurality of display devices, at least one display device that is adjacent to each other, spaced from each other, one of which is a relatively large display device and the other of which is a relatively small display device. Are usually hidden and made to appear according to the contents of the production. Furthermore, for example, the decorative symbols 190a to 190c are displayed on one display, and the first reserved number display unit 196, the second reserved number display unit 197, the traffic light 198, and the like are incidentally displayed on the other display unit. It is also possible to adopt an object that moves a display object (character, decoration pattern, number of holdings display, etc.) between a plurality of screens.

  Also, if the big hit is determined to be a big hit, the big hit symbol, presence / absence of change in time, presence / absence of time reduction, presence / absence of open extension of normal electric components, various start demonstration start times, various end demonstration times, special electric components It is possible to determine the operation pattern and the like, and to refer to the results, not separately, but separately at various timings as needed during various control processes that require such information.

  In addition, after the start of a special game, for example, when a game ball has passed a specific area, whether there is a certain change, whether there is a short time, whether there is an open extension of a normal electric accessory, an operation pattern of a special electric accessory, etc. For pachinko machines of the type that decides at least one of them (also called “ball accuracy specs”), for example, the time required for the big hit end demo depends on the gaming state, whether it is probabilistic or non-probable When it is determined that the jackpot is ended, it is possible to execute the jackpot end demo at a time corresponding to the determined gaming state at the start of the jackpot end demo.

  Further, in this embodiment, it is not during big hit or small hit, the first special symbol 192 (or the second special symbol 193) is waiting for change, and a special subject to start change. The fact that the number of reserved balls in the symbol is other than 0 is a condition for starting the variation, and the second game using the second start winning opening 63 is given priority over the first game. However, the present invention is not limited to this. For example, instead of prioritizing the first game or any game, the reserved memory is digested in the order in which the start winnings are generated and stored. A configuration can also be adopted. Among these, in the latter type in which the symbols are changed in order of winning, it is confirmed that, for example, the success / failure determination order matches the digestion order (winning order) in addition to the above-described change start conditions. It can be set as one of the fluctuation start conditions that it has been confirmed that it has done.

  Further, in the type in which the first game and the second game are subjected to symbol changes in the order of winning as described above, when one game is won, the other game is not judged to be successful. It is also possible. Here, as a mode in which the determination of whether or not the other game is successful is not performed, the determination of whether or not the subsequent game is successful is not performed until the game of the big hit (which may be a small hit) of the previously won game is over. For example, there may be a mode in which the start winning of the subsequent game is invalidated for the determination of whether or not the game is successful. That is, as in these various aspects, it is possible to appropriately set the condition for starting the variation of the symbols in accordance with the circumstances such as the contents of the game when a plurality of starting holes are used.

  In addition, it is possible to set an appropriate aspect for the order of storing the game state after the operation of the condition device is completed. For example, it is possible to set in order of the special symbol's probability variation, opening extension function, etc., the opening pattern of the special electric accessory, the variation pattern selection state (including the limited variation pattern), the start demonstration and the end demonstration time. .

  In this embodiment, as described above, a standby demonstration display request is made on the main board 102, and a customer waiting demonstration command is transmitted from the main board 102 to the sub-main board 301. As a mode, the timer is set at a predetermined timing such as when the big hit ends (when the end demo ends) or when the special symbol fluctuation stops, and the timer value is subtracted while waiting for the special symbol fluctuation. It is conceivable that a standby demo command is transmitted when becomes 0. Furthermore, a standby demo command may be transmitted to the sub-main board 301 only when there is no special symbol hold storage. As described above, with regard to the command transmission of the standby demonstration, it is possible to use the jackpot end or the symbol fluctuation stop as a reference for timing, or change the presence / absence of command transmission depending on the number of reserved balls.

  In this embodiment, a value obtained by adding a soft random number to a built-in random number is used as a go / no-go random number to be used for jackpot determination. It is also possible to determine. For example, when it is determined that there is a start opening prize and the number of balls held at that time has not reached the maximum value, a pass / fail random number composed of a built-in random number and a soft random number is used for the go / no-go determination and the hold at that time When the number of balls has reached the maximum value, for example, it is conceivable to use only a soft random number (or only a built-in random number) as the success / failure random number. In the present embodiment, the storage of the various random numbers obtained is performed for the random number, the design random number, and the variation pattern random number. However, the present invention is not limited to this, for example, depending on the presence or absence of the prefetch effect function. It is possible to adopt a configuration in which the fluctuation pattern random number is not stored according to necessity.

  In addition, if the control process related to the start winning prize in the first game and the second game is taken as an example, the basic configuration of the control process is the same although there is a difference in the control content based on being another game. Can do. For this reason, in this embodiment, on the control program, the used storage area of the RWM 503 is offset and made different, and other program contents are shared in many parts, so that the first game and the second game are shared. The game is controlled. By doing so, it is possible to reduce the storage capacity of the program. However, the present invention is not limited to this, and the control modules may be created separately as completely different processing. In this case, the speed of the control process can be improved.

Further, in this embodiment, since the priority order of the symbol variation of the first game and the second game is determined, the special symbol (the first special symbol 192 or the second special symbol 192) It is confirmed whether or not the special symbol 193) is waiting for fluctuation. However, the present invention is not limited to this. For example, in the case of a pachinko gaming machine of the type that can simultaneously change the special symbols of the first game and the second game as will be described later. Therefore, it is not necessary to check whether or not the change is waiting for the symbol variation of the first game and the second game. In this case, it is desirable to create the control processing modules separately so that the special symbols of the first game and the second game can be varied independently of each other.
<Second Embodiment of the Invention Related to Control Processing of Main Board at Power Off>

  Next, a second embodiment relating to the control process of the main board when the power is turned off will be described. In addition, the same number is attached | subjected about the part similar to the above-mentioned Example, The description is abbreviate | omitted. In the first embodiment described above, the power-off confirmation information is set when the supply voltage of the power source decreases and a power-off signal is input to the NMI terminal 504 (see FIG. 4) of the CPU 501, but the second embodiment In, even if a power interruption signal is input, the power interruption confirmation information is not set unless the input state of the power interruption signal satisfies a predetermined condition. Examples of the predetermined condition include the number of times the power interruption signal is input and the input period.

  For example, the power interruption signal is divided into a first power interruption signal and a second power interruption signal, and the first power interruption signal is the same as the power interruption signal of the second embodiment. Then, the first power interruption signal is input to the NMI terminal 504 of the CPU 501. On the other hand, the second power interruption signal is output to the CPU 501 along with the output of the first power interruption signal. When the first power interruption signal is input to the CPU 501, the second power interruption signal is output to the CPU 501. To other input terminals. When the first power interruption signal is input to the NMI terminal 504, the CPU 501 completes the instruction being executed at that time in the same manner as in the second embodiment, and then, a predetermined address (here, the control program) is defined. The control process is jumped to and transferred to address 0066H. Furthermore, the CPU 501 monitors the number of times of input of the second power interruption signal. If the number of times of input has reached, for example, five times, the CPU 501 sets the power interruption confirmation information according to the content after the predetermined address (0066H). Run.

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

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

  According to the second embodiment, even if there is a signal input to the NMI terminal 504 due to the influence of noise or the like when the power supply voltage is not lowered, the power-off confirmation information only due to the signal input. Can be prevented from being set. Therefore, it is possible to prevent the power interruption process from being erroneously performed in a situation where it is not necessary to turn off the power and should not be turned off. Further, as in this embodiment, after the control process is transferred to a predetermined address, the process is immediately exited without setting the power-off confirmation information, so that the first power-off signal is accompanied by the input. It is possible to set power-off confirmation information more reliably while using the non-maskable interrupt function.

  That is, a CPU used for various control boards of a gaming machine generally has an NMI function that is a hardware interrupt, and the CPU has an input terminal for an NMI function and an electronic circuit part (logic Circuit). However, when control processing that ignores the signal input to the NMI terminal 504 is performed, a design change for deleting the function of the NMI is necessary in the program and circuit design. . In addition, when an NMI terminal or an electronic circuit part for the NMI is left and these are not used and, for example, grounding is taken, an unused (or unused) terminal or function is used. May remain and be used for fraud. On the other hand, as in this embodiment, by adopting a configuration in which when the first power interruption signal is input to the NMI terminal 504, the control processing is shifted to a predetermined address (0066H), the NMI function It is possible to take measures against noise and the like while minimizing the design change of the main board 102 while using the configuration without deleting it.

In the present embodiment, five inputs are defined as the predetermined condition to be satisfied by the input mode of the second power interruption signal, but the present invention is not limited to this, and the number of times other than five is determined. May be set. Moreover, it is not restricted to predetermined number of times, For example, it is good also as conditions on the input over a predetermined period. Furthermore, in order to generate the second power interruption signal, the signal path of the first power interruption signal is branched and directly input to the CPU 501, or the branch signal of the first power interruption signal is input to the switching circuit. And so on. In addition, it is desirable that the first power interruption signal and the second power interruption signal are input in synchronization with the CPU 501, but the second power interruption signal is delayed as long as the operational effects of the present embodiment can be achieved. You may employ | adopt the structure to do. Further, the number of times the second power interruption signal is input is added every time the game progress interrupt process is repeated. However, the present invention is not limited to this, and for example, a plurality of times during one game progress interrupt process. You may count the frequency | count which becomes a predetermined condition based on the matter which can be counted.
<Application to enclosed game machines>

  The present invention also provides a pachinko gaming machine in which a game ball as a game medium acquired by a player is directly paid out to the player as described above so that the player can touch the prize ball. However, the present invention can be applied to, for example, a sealed circulation pachinko game machine. Examples of the enclosed circulation pachinko game machine include the following. In addition, the same code | symbol is attached | subjected and demonstrated about the part similar to the pachinko game machine 10 of the above-mentioned Example.

  In other words, the enclosed circulation type pachinko gaming machine has a game ball as a game medium enclosed therein, and the player operates the launch handle 17 to drive the launch motor of the launch device, and the enclosed ball 1 It is configured so that a game can be played by driving into the game area 52 on the front of the game board 50 one by one. As the configuration of the gaming area 52, a configuration similar to a pachinko gaming machine of a type in which a game ball is handed over to a player like the pachinko gaming machine 10 described above can be adopted. Furthermore, since there is no need to hand over the game balls to the player, there is no need for the upper ball tray 15 and the lower ball tray 16 for temporarily collecting the game balls.

  A game ball won in the game area 52 and a game ball that has not won a prize are guided to a ball collecting basket formed on the set base 39 and are lifted by a lifting device (not shown). The lifting device has a built-in lifting screw that is rotated by a lifting motor, and the pachinko ball (game ball) is lifted by the rotation of the lifting screw. A polishing member for polishing the pachinko ball by contacting the pachinko ball in the middle of lifting is provided on the back of the lifting device, and the surface of the pachinko ball is polished while being lifted.

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

  A card unit as an example of a gaming device is installed in a one-to-one correspondence with the pachinko gaming machine at a side position on a predetermined side of the pachinko gaming machine. This is the same as the pachinko gaming machine 10 described above. The card unit is issued to a visitor card having a prepaid function, which is a game recording medium issued to a general player who has not registered as a member, or a member player who has registered as a member in the game hall. Pachinko machines that accept membership cards, which are game recording media, and use the game value (for example, card balance, number of balls held, number of balls stored, etc.) owned by the player specified by the record information of those cards It has a function for allowing the game to be performed by bullet firing the encapsulated ball. The visitor card and membership card are composed of IC cards.

  In this pachinko gaming machine, management of the current number of balls is performed by calculating fluctuations in the number of gaming balls on the pachinko gaming machine side on the card unit side. The pachinko game machine also calculates and stores the current number of game balls, but when the number of game balls reaches 0 on the pachinko game machine side, the pachinko game machine quickly launches the ball. It is a secondary thing used only for performing the control to stop. By doing this, the running cost of the game hall where the enclosed game machine is introduced by holding down the cost of the pachinko gaming machine side by providing the card unit side with the main management function regarding the number of game balls on the pachinko gaming machine side Can be reduced.

  When the power supply is turned on for the first time after the pachinko gaming machine and the CU are electrically connected after being installed in the amusement hall, the payout control board on the pachinko gaming machine side sends the main chip ID from the main board. The main chip ID is transmitted to the CU side, and the payout chip ID stored in the payout control board itself is transmitted to the card unit side. On the card unit side, the transmitted main chip ID and payout chip ID are stored. Next, the 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 the pachinko gaming machine side transmits the data. Store the connection time.

  When the power is turned on thereafter, these three pieces of information, that is, the main chip ID, the payout chip ID, and the previous connection time data are transmitted from the pachinko gaming machine side to the card unit side.

  On the card unit side, the transmitted data and the already stored data are collated to determine whether or not the same pachinko gaming machine as the previous one is connected. The connection time data is sent from the card unit side to the pachinko gaming machine side when the communication between the card unit side and the pachinko gaming machine side is started each time the power is turned on. Connection time data is stored on the pachinko gaming machine side.

  The card unit requests the pachinko gaming machine to transmit the main chip ID and the like to the pachinko gaming machine, and the pachinko gaming machine transmits the main chip ID and the like to the card unit. Further, authentication is requested from the card unit to the pachinko gaming machine, and the pachinko gaming machine is notified of acceptance of the authentication request from the card unit. Further, the card unit requests the pachinko gaming machine to transmit recovery information, and the pachinko gaming machine transmits the recovery information held in the pachinko gaming machine to the card unit. Subsequently, the card unit notifies the pachinko gaming machine that it is connected to the pachinko gaming machine, and the pachinko gaming machine notifies the card unit that it is connected. Also, the card unit requests the pachinko gaming machine to clear the recovery information and backs up the connection ID (communication start time). The pachinko gaming machine requests the card unit to clear the recovery information and connect the ID (communication). The end of backup at (start time) is notified.

  Further, various (gaming 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 status of the game machine. The pachinko gaming machine is notified of the execution result of the gaming operation instruction and gaming machine information (addition / subtraction data, etc.) to the card unit. A command requesting connection of a communication connection is transmitted from the card unit to the pachinko gaming machine.

  Also, when it is detected that there is no game ball while playing a game with a pachinko machine, the payout control board automatically stops driving the ball launch motor and hits the ball into the game area. Control to a prohibited game state. It should be noted that if the variable display device is already in variable display at that stage, the variable display is continued only by stopping the hitting of the hit ball. If there is a storage of the number of balls held in the first start winning opening 62 or the second starting winning opening 63 at the stage where the firing stop control is performed, the variable display control of the variable display device based on the storage is continued. .

  The main management of the number of game balls is performed in the card unit, but only on the pachinko game machine side when the game prohibition control (launching stop control) when the game ball number becomes 0 in the pachinko game machine is performed. It is determined that the number of game balls has become 0, and game prohibition control (launch stop control) is performed. Thereafter, as the 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 controlling in this way is that it is necessary to perform the hitting stop control at the moment when the number of game balls becomes zero on the pachinko gaming machine side.

  For example, on the card unit side which mainly manages the number of game balls, the response of the action response including the number of added balls and the number of subtracted balls when the number of game balls sent from the pachinko game machine side becomes 0 Waiting for reception, the final number of game balls is calculated on the card unit side, and when it becomes 0, a command for operation instruction with a prohibition request for prohibiting the game is transmitted to the pachinko game machine side, If the pachinko machine is controlled to stop hitting the ball for the first time after that, the pachinko ball may be shot and fired during the response and command transmission / reception, and a new number of subtraction balls may be generated during that time. On the pachinko machine side, a new subtraction ball number is generated even though the game ball number is already “0”, and the game ball number eventually becomes negative. Inconvenience say occurs. In order to prevent such inconvenience, only the batting launch stop control when the number of game balls becomes zero is controlled based on the number of game balls on the pachinko gaming machine side.

  In this way, the game control represented by the hitting ball stoppage control is performed based on the number of game balls stored in the pachinko game machine itself, and therefore based on the number of game balls managed and stored in the card unit. Compared with the case where such game control is performed, game control can be performed in real time in accordance with the fluctuation of the number of game balls.

  Here, an example is shown in which the payout control board performs the hitting shot stop control, but the main board may be configured to perform the hitting shot stop control. In this case, for example, the payout control board transmits a signal indicating that the number of game balls is 0 to the main board when the number of game balls is determined to be 0. The main board receives this signal and inhibits the driving of the firing motor.

  Such a game prohibition process by the card unit is also executed when the front frame 12 or the door 14 is opened, or when various player return operations are performed by the player. In addition, the pachinko gaming machine can respond to the prohibition refusal, and in the situation where the front frame 12 and the door 14 cannot be opened, for example, due to some circumstances such as abnormalities, the card unit cannot be instructed. This prohibition rejection response is transmitted to the card unit. The game prohibition includes not only prohibition of driving of the launch motor but also other game items such as ball rental.

  In addition, in such an enclosed circulation type pachinko game machine, ball lending is not performed for every predetermined amount (for example, 500 yen or 1000 yen), but lending for an input amount (for example, 10,000 yen) is performed collectively. It is also possible. Since it is not necessary to deliver the game ball to the player, it is possible to easily adapt to such a ball rental form.

  In addition, in this invention, it is possible to grasp | ascertain comprehensively as a pachinko game machine also including the thing which attached the card unit.

10 Pachinko machines, 42 LCD units, 50 game boards, 52 game areas,
62 1st start prize opening, 63 2nd start prize opening, 91 1st big prize opening,
92 2nd prize opening, 102 main board, 104 sub board,
113 first win / fail judgment means, 117 second win / fail judgment means, 120 special game control means,
122 specific game execution means, 132 production determination means, 251 power supply board,
301 sub-main board, 302 sub-sub board, 506 power failure monitoring circuit section,
501 CPU of main board, 521 CPU of sub main board,
523 RWM of sub-main board, 531 CPU of sub-sub board,
532 Sub-sub board RWM, 525 character ROM, 524 video memory,
526 VDP.

Claims (1)

A power supply means for supplying power necessary for the game, a main control means for controlling the game, and an effect that is communicably connected to the main control means and performs control processing according to the main control command from the main control means Control means,
It is arranged in a game area formed on the game board, and has a start opening and a big prize opening through which a game medium flowing down the game area can enter,
The special winning hole is varied to permit ball entrance difficult closed and ball entrance easy Hirakijo state, the closed state as an initial state,
The main control means includes
Performing a control start process accompanying the start of the supply of power and a game progress interrupt process executed at a predetermined cycle for the progress of the game,
When the power is less than or equal to a predetermined value, a power-off process is performed when a predetermined condition relating to power-off information indicating that the main control unit becomes inoperable is satisfied,
When the main control unit becomes inoperable, at least operation state information indicating an operation state related to the big prize opening is stored,
Return state determination for determining whether to perform power supply return without performing information initialization for initializing the operation state information or to perform power supply return with the information initialization when power supply is started by the power supply means Execute the process,
When the power is to be restored without performing the information initialization, on the basis of the operation state information, a resumption preparation process for returning the prize winning port to the operation state based on the operation state information is performed,
In the case of power recovery to perform the information initialization, an initialization control process for the information initialization, an interrupt preparation process for preparing for the game progress interrupt process after the initialization control process, Execute a cyclic process waiting for an interrupt by the game progress interrupt process,
Based on the fact that the game medium has entered the start opening, at least a random number for the big hit lottery and a random number for the fluctuation pattern lottery related to the display of the result of the big hit lottery are obtained, and predetermined fluctuation start conditions When is established, the jackpot lottery and the variation pattern lottery are performed, the special symbol is variably displayed based on the variation pattern based on the variation pattern lottery result, the special symbol is stopped and displayed based on the result of the jackpot lottery,
The production control means includes
The first effect control means capable of receiving the main control command from the main control means and the first effect control means are communicably connected to each other and can receive the first effect command from the first effect control means. Second production control means,
The first effect control means includes:
A first effect control initial setting process that is started with the start of power supply, a first effect control main loop process that is started after the interruption is permitted, and an interrupt process that is executed when the main control command is received. A main control command reception process and a first effect command transmission process for transmitting the first effect command to the second effect control means when a predetermined first effect command transmission condition is satisfied can be executed. ,
The second effect control means includes:
A ROM storing the image data prior to deployment for image display based on the first effect command, a video memory for developing the image data stored in the ROM, the image stored in the ROM Image display control means for transferring data to the video memory ,
Connected to display means for displaying the image data expanded in the video memory ;
The image data includes design image data which is image data of a decorative design used for effects related to the variation pattern,
The decorative design is displayed in a variable manner and stopped by the display means based on the variation pattern,
The symbol image data can be displayed with a plurality of different transparency levels when displayed on the display means,
The transparency can be set in a plurality of locations of the symbol image data,
The ROM stores, as the symbol image data, first symbol image data and second symbol image data having the same meaning as the first symbol image data and having a smaller data amount than the first symbol image data. And
In the pachinko gaming machine that performs the variable display of the decorative symbol by switching from the first symbol image data to the second symbol image data when the transparency changing condition is satisfied during the decorative symbol variable display,
The second effect control means includes:
The second effect control initial setting process that is started when the power supply is started, the second effect control main loop process that is started after the permission of the interruption, and the first effect command transmitted from the first effect control means A first production command reception process that is an interrupt process that is executed upon reception of
In the second effect control initial setting process, a part of the image data is transferred from the ROM to the video memory ,
The pachinko gaming machine, wherein the variable display of the decorative symbol is executed based on reception of the first effect command.

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