JP2020103691A - Game machine - Google Patents

Abstract

To provide a game machine capable of preventing diffusion of an abnormality in a power supply system.SOLUTION: A game machine includes: a power generating part 202e that operates an electrical element on a predetermined board and operates an electrical element connected to the predetermined board, by generating electric power at a second voltage (DC 5 V) from electric power at a first voltage (DC 12 V) input into the predetermined board (sub control board 202) for use in progress of a game; and a switching circuit 202h that is arranged between the power generating part and the electrical element connected to the predetermined board so as to switch power output at the second voltage.SELECTED DRAWING: Figure 10

Description

The present invention relates to a gaming machine that determines by lottery whether or not to give a player a gaming advantage.

A slot machine as a gaming machine is provided with a plurality of gaming states and effect states in which the degree of advantage (game profit) of the player is different when the game progresses. For example, there is a slot machine which adopts a specification in which a symbol combination corresponding to a bonus combination is displayed on the activated line to shift from a normal game state to a bonus game state in which a player can easily obtain a medal.

In such a slot machine, a player may perform an effect such as outputting a music piece or causing a lamp to emit light so that the player can expect the lottery result of the winning combination to be a bonus combination. Therefore, in addition to the main control board that randomly selects the winning combination, power must be supplied to the effect control board that executes the effect. For example, a technique is known in which the same 5V power is supplied to each of the main control board and the effect control board (for example, Patent Document 1).

JP, 2006-167255, A

By supplying the electric power required for each of the plurality of substrates from a common power source, the respective substrates and the electric elements connected to the substrates can receive a stable and large-capacity power supply. However, if an abnormality occurs in the electric power supply system in an electric element that receives electric power from an arbitrary board, it may affect the board that supplies power to the electric element, and the abnormality may spread to other boards. ..

In view of such problems, an object of the present invention is to provide a gaming machine capable of preventing the abnormality of the power supply system from spreading.

In order to solve the above-mentioned problems, a gaming machine of the present invention generates power of a second voltage from power of a first voltage input to the predetermined substrate in a predetermined substrate used for the progress of a game, Between the electric power generation unit that operates the electric element on the predetermined substrate and operates the electric element connected to the predetermined substrate, and between the electric power generation unit and the electric element connected to the predetermined substrate. A switching circuit arranged to switch the power output of the second voltage.

The predetermined substrate generates power of a third voltage different from the second voltage from the power of the first voltage, and the electric element on the predetermined substrate is operated by the power of the third voltage. Good.

In order to solve the above problems, another gaming machine of the present invention is a predetermined circuit board used for the progress of a game, receives a power of a predetermined voltage, and a switching circuit that switches the power output of the predetermined voltage, And a control unit that controls the switching circuit to be in a closed state or an open state.

The control unit may control the switching circuit to be in an open state when an abnormality occurs in an electric element that uses the electric power of the predetermined voltage output from the switching circuit.

In order to solve the above problems, another gaming machine of the present invention has a main control board having a main CPU for controlling the progress of the game, and inputs or outputs a signal from the main control board. A main control device, a sub-control board for controlling a performance, a power supply of a first voltage to the main control board and the sub-control board, and a power supply of a second voltage different from the first voltage to the main control device. And a first power generation unit provided on the main control substrate for generating electric power of the second voltage from electric power of the first voltage to operate electric elements on the main control substrate. An electric element that is provided on the sub-control board, generates electric power of the second voltage from electric power of the first voltage, operates electric elements on the sub-control board, and is connected to the sub-control board. And a switching circuit arranged between the second power generation unit and an electric element connected to the sub-control board to switch the power output of the second voltage. ..

In order to solve the above problems, another gaming machine of the present invention has a main control board having a main CPU for controlling the progress of the game, and inputs or outputs a signal from the main control board. A main controller, a power supply board that supplies electric power of a first voltage to the main control board, and a power supply of a second voltage different from the electric power of the first voltage to the main control board, and the main control board An electric power generation unit that is provided and that generates electric power of the second voltage from electric power of the first voltage to operate electric elements on the main control board.

According to the present invention, it is possible to prevent the abnormality of the power supply system from spreading.

FIG. 37 is an external view for illustrating a schematic mechanical configuration of the slot machine. FIG. 37 is an external view with a front door open, for illustrating the schematic mechanical configuration of the slot machine. It is a figure which shows the symbol arrangement|sequence of a reel, and an effective line. FIG. 16 is a block diagram showing a schematic electrical configuration of the slot machine. It is an explanatory view for explaining a winning combination. It is an explanatory view for explaining a transition of a game state. It is a figure which shows the winning combination lottery table used when determining a winning combination lottery random number. 6 is a flowchart showing a main process of a main control board. It is a block diagram which shows the structure which supplies electric power to the control means which controls progress of a game. It is a block diagram showing a configuration for supplying electric power in a sub-control board. It is a circuit diagram showing a drive mode of a switching circuit. It is an explanatory view showing an example of arrangement of an integrated circuit and an electric element in a substrate.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The dimensions, materials, and other specific numerical values shown in the embodiments are merely examples for facilitating understanding of the invention, and do not limit the invention unless otherwise specified. In this specification and the drawings, elements having substantially the same function and configuration are denoted by the same reference numerals to omit redundant description, and elements not directly related to the present invention are omitted. To do.

(Mechanical configuration of slot machine 100)
As shown in the external views of FIG. 1 and FIG. 2, a slot machine 100 as a gaming machine includes a housing 102 having an opened front surface, and a front surface rotatably arranged vertically at one end of the front surface of the housing 102. An upper door 104 and a lower front door 106 are provided. A colorless and transparent symbol display window 108 made of a glass plate, a transparent resin plate, or the like is provided in the lower center of the front upper door 104, and at a position corresponding to the symbol display window 108 in the housing 102. Three reels 110 (left reel 110a, middle reel 110b, right reel 110c) are independently rotatably provided. On the left reel 110a, the middle reel 110b, and the right reel 110c, as shown in the symbol arrangement of FIG. 3(a), a plurality of types of symbols are arranged in each area equally divided into 20, and the player is Through the symbol display window 108, it is possible to visually recognize three consecutive symbols in total, namely, the left reel 110a, the middle reel 110b, and the right reel 110c located at the upper, middle, and lower stages.

An operation unit installation base 112 is formed on the upper portion of the front lower door 106, and the operation unit installation base 112 is provided with a medal insertion unit 114, a bet switch 116, a start switch 118, a stop switch 120, a production switch 122, and the like. There is. The medal insertion unit 114 receives insertion of medals as a game medium through the medal insertion port 114a. The bet switch 116 inserts (bet) a specified number of medals required for one game among medals that are electrically stored (hereinafter simply referred to as credit) inside the slot machine 100.

The start switch 118 is composed of, for example, a lever capable of detecting a tilt operation, and detects a game start operation by the player. The stop switch 120 (stop switch 120a, stop switch 120b, stop switch 120c) is provided corresponding to each of the left reel 110a, the middle reel 110b, and the right reel 110c, and detects the stop operation of the player. It is to be noted that the player first stops any one of the stop switch 120a, the stop switch 120b, and the stop switch 120c in a state in which the stop switch 120 can be stopped, is referred to as a first stop. After that, the stop operation of either of the two stop switches 120 that have not been stopped is called a second stop, and the stop operation of the last remaining stop switch 120 after the second stop is called a third stop. .. The effect switch 122 is composed of, for example, a pressing switch and a jog dial switch rotatably arranged around the pressing switch, and detects the pressing operation or the rotating operation of the player.

A liquid crystal display unit 124 that displays various images according to the effect is provided substantially in the center of the upper portion of the front upper door 104. Further, an effect lamp 125 including, for example, a high-intensity light emitting diode (LED) is provided on the upper portion or the left and right of the front upper door 104. Although not shown in FIG. 1 and FIG. 2, inside the reels 110a, 110b, 110c, among the symbols applied to the reels 110a, 110b, 110c of the reels 110a, 110b, 110c corresponding to the symbol display window 108, respectively. A reel backlight 126 (see FIG. 4) is provided for irradiating the upper, middle, and lower symbols from the back independently. In addition, a stop switch lamp 127 (see FIG. 4) is provided to irradiate the stop switch 120a, the stop switch 120b, and the stop switch 120c independently from the back surface. Speakers 128 are provided at the left and right positions of the liquid crystal display portion 124 on the rear surface of the front upper door 104 and at the left and right positions on the rear surface of the front lower door 106 to produce auditory effects such as sound effects and musical sounds. In addition, on the right side of the symbol display window 108 of the front upper door 104, a performance accessory device 138 is provided which gives a player the expectation of a big hit by moving or rotating in a region visible to the player.

The operation unit installation table 112 is provided with a main credit display unit 130 and a main payout display unit 132. Further, a sub-credit display section 134 and a sub-payout display section 136 are provided between the symbol display window 108 and the operation section installation base 112. The number of medals credited (the number of credits) is displayed on the main credit display unit 130 and the sub credit display unit 134, and the number of medals paid out is displayed on the main payout display unit 132 and the sub payout display unit 136. ..

Below the reel 110 in the housing 102, a medal payout device (medal hopper) 142 for paying out medals from the medal discharge port 140a is provided. In addition, a tray 140 for storing the medals paid out from the medal discharge port 140a is provided at the lower part of the front surface of the front lower door 106. A power switch 144 is provided inside the housing 102. The power switch 144 is operated by an administrator who manages the slot machine 100, and is used to switch between two states of a power-off state and a power-on state.

In the slot machine 100, when a game can be started and a specified number of medals are bet, the activated line A is activated and the operation of the start switch 118 is activated. Here, as for the bet, a case where a credited medal is inserted through the operation of the bet switch 116, a case where a medal is inserted through the medal inserting section 114, and a replay combination described later in detail are displayed on the activated line A. This includes both cases of automatically inserting medals based on the above. The effective line A is a line for determining the winning of the winning combination, and is one in the present embodiment. As shown in FIG. 3(b), the activated line A is a middle stage of the left reel 110a, a middle stage of the middle reel 110b, out of the nine symbols (3 reels×3 stages of upper middle lower) facing the symbol display window 108, It is set to a line connecting the positions corresponding to the symbols to be stopped in the middle of the right reel 110c. The ineffective line displays another symbol combination that makes it easier to grasp the winning combination when it is difficult to grasp the winning combination only by the symbol combination displayed on the effective line A, and is used for winning determination of the winning combination. This is a line other than the valid line A that is not present, and in the present embodiment, four invalid lines B1, B2, C1, and C2 shown in FIG. 3B are assumed.

When the player operates the start switch 118, the game is started, the left reel 110a, the middle reel 110b, and the right reel 110c are rotated, and the winning combination lottery is executed. Thereafter, the corresponding left reel 110a, middle reel 110b, and right reel 110c are stopped in accordance with the operation of the stop switches 120a, 120b, 120c. Then, according to the lottery result of the winning combination lottery and the combination of the symbols displayed on the activated line A, if the winning combination that can receive the medal is won, the medal is distributed and the winning combination that can receive the medal is obtained. In the case of no win, or if no win is won, the game ends with the left reel 110a, the middle reel 110b, and the right reel 110c all stopped.

(Electrical configuration of the slot machine 100)
FIG. 4 is a block diagram showing a schematic electrical configuration of the slot machine 100. As shown in FIG. 4, the slot machine 100 is provided with a control board including a main control board 200 that controls the progress of the game and a sub control board 202 that controls the effect according to the progress of the game. Further, the transmission of electrical signals between the main control board 200 and the sub control board 202 is limited to only one direction from the main control board 200 to the sub control board 202 from the viewpoint of fraud prevention and the like.

(Main control board 200)
The main control board 200 has a semiconductor integrated circuit including a main CPU 200a which is a central processing unit, a main ROM 200b in which programs and the like are stored, a main RAM 200c which functions as a work area, and the like, and centrally controls the entire slot machine 100. .. It should be noted that the main RAM 200c is retained without erasing data even when the power is turned off, unless the setting is changed and the RAM clear is executed.

Further, the main control board 200 functions by the main CPU 200a cooperating with the main RAM 200c based on a program stored in the main ROM 200b. The initializing means 300, the betting means 302, the winning lottery means 304, and the reel control means. It has functional units such as 306, a determination unit 308, a payout control unit 310, a state control unit 312, and a command transmission unit 314.

The main control board 200 receives various detection signals from the inserted medal detection unit 114b that detects insertion of medals into the medal insertion slot 114a, the bet switch 116, the start switch 118, and the stop switches 120a, 120b, 120c. The main CPU 200a executes various processes based on the received detection signal.

The initialization unit 300 executes an initialization process in the main control board 200. The betting means 302 bets a medal for use in a game. Based on the operation of the start switch 118, the winning combination lottery means 304 performs a winning combination lottery for determining whether or not a winning combination is won, more specifically, a winning combination including a winning combination.

The reel control means 306 controls the rotation of the left reel 110a, the middle reel 110b, and the right reel 110c according to the operation of the start switch 118, and corresponds to the rotating left reel 110a, middle reel 110b, and right reel 110c, respectively. According to the operation of the stop switches 120a, 120b, 120c, the corresponding left reel 110a, middle reel 110b, and right reel 110c are stopped and controlled.

A reel drive controller 150 is connected to the main control board 200. The reel drive control unit 150 drives the stepping motor 152 based on the rotation start signals of the left reel 110a, the middle reel 110b, and the right reel 110c, which are transmitted from the reel control means 306 in response to the operation signal of the start switch 118. To do. Further, the reel drive control unit 150 detects the stop signals of the left reel 110a, the middle reel 110b, and the right reel 110c and the detection of the rotation position detection circuit 154, which are transmitted from the reel control means 306 in response to the operation signal of the stop switch 120. The driving of the stepping motor 152 is stopped based on the signal.

The determination means 308 determines whether or not the symbol combination corresponding to the winning combination is displayed on the activated line A. Here, displaying the symbol combination corresponding to the winning combination on the activated line A may be simply referred to as winning. The payout control means 310 pays out the medals in the number corresponding to the winning combination based on that the symbol combination corresponding to the winning combination is displayed (winning) on the activated line A. Further, a medal payout device 142 is connected to the main control board 200, and the payout control means 310 ejects medals while counting the number of paid out medals.

The state control unit 312 refers to the result of the winning combination lottery or the determination result of the determination unit 308 and shifts the game state to one of a plurality of types of game states.

The command transmission means 314 sequentially determines and determines commands relating to the game accompanying the operations of the bet means 302, the winning combination lottery means 304, the reel control means 306, the determination means 308, the payout control means 310, the state control means 312 and the like. Commands are sequentially transmitted to the sub control board 202.

Further, the main control board 200 is provided with a random number generator (random number generating means) 200d. The random number generator 200d sequentially increments the count value, loops within a predetermined numerical value range, and extracts the count value at a predetermined time point to obtain a random number. The random number generated by the random number generator 200d of the main control board 200 (hereinafter referred to as a winning combination lottery random number) is used for determining the winning combination by the gaming profit given to the player, for example, the winning combination lottery means 304. ..

(Sub-control board 202)
Further, the sub control board 202 has various semiconductor integrated circuits including a sub CPU 202a that is a central processing unit, a sub ROM 202b that stores programs and the like, a sub RAM 202c that functions as a work area, and the like, like the main control board 200. Based on commands from the main control board 200, the effect is particularly controlled. Further, a backup power supply (not shown) is connected to the sub RAM 202c as in the main RAM 200c, and even if the power is turned off, the data is retained without being erased. Like the main control board 200, the sub-control board 202 is also provided with a random number generator (random number generation means) 202d, and the random number generated by the random number generator 202d (hereinafter, referred to as effect lottery random number) is the main random number. It is used to determine the mode of production.

Further, in the sub control board 202, the sub CPU 202a functions based on a program stored in the sub ROM 202b in cooperation with the sub RAM 202c, such as an initialization determining unit 330, a command receiving unit 332, and an effect control unit 334. It has a functional part.

The initialization determining unit 330 executes an initialization process in the sub control board 202. The command receiving unit 332 receives a command from another control board such as the main control board 200 and processes the command. The production control means 334 receives the detection signal from the production switch 122, and in each device of the liquid crystal display unit 124, the speaker 128, the production lamp 125, the reel backlight 126, and the stop switch lamp 127 based on the received command. Determine the performance of the game to be played. Specifically, the effect control unit 334 includes the image data displayed on the liquid crystal display unit 124, the effect lamp 125, the reel backlight 126, the stop switch lamp 127, the sub credit display unit 134, the sub payout display unit 136, and the like. The illumination data for the performance through the illumination device and the drive data through the production accessory device 138 are determined, and the audio data forming the audio to be output from the speaker 128 is determined. Then, the effect control unit 334 executes the effect of the determined game. In addition, the production includes an auxiliary production. When the winning combination is selected in the winning combination lottery, when the winning combination of the correct combination and the incorrect combination is won, the auxiliary production notifies the correct operation mode of the stop switches 120a, 120b, 120c which are the winning conditions of the correct combination. It is a production. By such an auxiliary effect, the player can easily display the symbol combination corresponding to the correct winning combination on the activated line A. An effect state in which such an auxiliary effect is executed is called an AT (assist time) effect state. Further, a so-called ART game state in which an AT effect state and an RT (replay time) game state in which the winning probability of the replay combination is high may be used in parallel.

(Table used in main control board 200)
In the slot machine 100, a plurality of game states are provided, and the game states transit as the game progresses. Then, in the main control board 200, a plurality of winning combination lottery tables corresponding to the gaming states managed by the state control means 312 are stored in the main ROM 200b. The winning combination lottery means 304 extracts and extracts the corresponding winning combination lottery table from the main ROM 200b according to the current game state stored in the main RAM 200c (a game state based on the presence or absence of a bonus combination described later). Based on the winning combination lottery table and the current set value, it is determined which winning combination or non-winning prize in the winning combination lottery table the winning combination lottery random number acquired in response to the operation signal of the start switch 118 corresponds to. Here, the set value indicates the ease of obtaining the game profit in stages, and the higher the value of the set value, the easier the game profit is obtained. The set value is generally determined by the hall-side administrator at least at the start of the game, and the player cannot acquire or change the set value during the game.

Here, the winning combinations extracted in the winning combination lottery table include a replay combination, a small combination, and a bonus combination. The state in which the symbol combinations corresponding to such a winning combination are displayed on the activated line A is called display or winning, and the state until the symbol combination corresponding to the winning combination is displayed is displayed. It will be in a winning state. When the symbol combination corresponding to the replay combination is displayed on the activated line A, the replay combination of the winning combinations is a combination in which the player can execute one game again without making a new bet on the medal. The small winning combination is a winning combination in which a symbol combination corresponding to the small winning combination is displayed on the activated line A so that a predetermined number of medals can be paid out in accordance with the symbol combination. Further, the bonus combination is a winning combination in which the game state managed by the state control means 312 can be shifted to the bonus game state by displaying the symbol combination corresponding to the bonus combination on the activated line A. .. The game profits given to the winning combinations and the players will be described below.

FIG. 5 is an explanatory diagram for explaining a winning combination, and FIG. 6 is an explanatory diagram for explaining a transition of a game state.

In addition, in the present embodiment, as winning combinations, as shown in FIG. 5, winning combinations “replay”, “bell”, and “big bonus (hereinafter referred to as “BB”)” are provided. Of these, the winning combination "Replay" corresponds to the replay combination, the winning combination "Bell" corresponds to the small combination, and the winning combination "BB" corresponds to the bonus combination.

(Role of replay)
As a result of the winning combination lottery, when the winning combination “Replay” is won, the symbol “Replay” written on each reel 110a, 110b, 110c, which is the symbol combination corresponding to the winning combination “Replay” shown in FIG. When the symbol combination corresponding to the winning combination "replay" is displayed on the activated line A, the symbol combination corresponding to the winning combination "replay" is displayed on the activated line A. As described above, the player does not make a bet, and again one game (re-play). ) Can be executed.

Here, in the present embodiment, when the stop switch 120 is pressed by the player, when the symbols constituting the symbol combination corresponding to the winning combination are on the activated line A, the reel control means 306 is used. The stop control is performed so that the symbol stops on the activated line A. Further, when the stop switch 120 is pressed, the symbols constituting the symbol combination corresponding to the winning combination are not on the activated line A, but in the direction opposite to the rotation direction of each reel 110a, 110b, 110c. When it exists within the range (drawing range) corresponding to four symbols, the reel control means 306 sets the number of symbols that are distant as the number of sliding symbols, and forms a symbol combination corresponding to the winning combination. Stop control is performed so as to stop after maintaining the rotation for the number of sliding pieces so as to draw the design on the effective line A. Further, when there are a plurality of symbols corresponding to the winning combinations on each reel 110a, 110b, 110c, and all are within the pull-in range of each reel 110a, 110b, 110c, according to a predetermined priority order. Which symbol is drawn on the effective line A is determined, and stop control is performed so as to stop after maintaining the rotation for the number of sliding symbols so that the prioritized symbol is drawn on the effective line A. In addition, when the stop switch 120 is pressed, when the symbols forming the symbol combination corresponding to the winning combination other than the winning combination are on the activated line A, the reel control means 306 changes the symbol. A so-called kick-off process for preventing the stop on the effective line A is also executed in parallel.

Then, on each reel 110a, 110b, 110c, the symbols constituting the symbol combination corresponding to the winning combination "Replay" are arranged so that they can be always displayed on the activated line A by the above stop control ( (See FIGS. 3 and 5). Specifically, the symbols composing the symbol combination corresponding to the winning combination "replay" are separated from each other by only a maximum of 4 symbols in each reel 110a, 110b, 110c, so the stop control is always performed on the effective line A. Can be displayed in. In this way, when the winning combination “Replay” is won, the symbol combination corresponding to these winning combination “Replay” is always displayed on the activated line A. In this way, when the symbol combination corresponding to the winning combination “Replay” is displayed on the activated line A, the next one game can be started without inserting a medal.

(Small role)
In addition, as a result of the winning combination lottery, when the winning combination "Bell" is won, the symbol "Bell A" written on each reel 110a, 110b, 110c, which is the symbol combination corresponding to the winning combination "Bell". Can be displayed on the activated line A, and when the symbol combination corresponding to the winning combination “bell” is displayed on the activated line A, the number of medals corresponding to the winning combination (here, 9) is the player. Be paid out. Here, the symbols "bell A" forming the symbol combination corresponding to the winning combination "bell" are separated from each other only by the maximum four symbols in each reel 110a, 110b, 110c (FIGS. 3 and 5). Similarly to the winning combination “Replay”, the winning control can always be displayed on the activated line A by the stop control.

(Bonus part)
As a result of the winning combination lottery, when the winning combination "BB" is won, the symbol "red" written on each reel 110a, 110b, 110c, which is the symbol combination corresponding to the winning combination "BB" shown in FIG. 7” can be displayed on the activated line A, and when the symbol combination corresponding to the winning combination “BB” is displayed on the activated line A, the gaming state is set to the bonus gaming state, and the next one game (hereinafter, After that, the game can be executed in the bonus game state until a predetermined number (for example, 297) of medals are paid out. In each reel 110a, 110b, 110c, the symbol "red 7" is arranged so that it may not be displayed on the activated line A even with the above stop control (see FIGS. 3 and 5). ). Therefore, even if the winning combination “BB” is won, the player cannot always display the symbol combination corresponding to the winning combination “BB” on the activated line A.

When one of the above winning combinations is won, the internal winning flag corresponding to each winning combination is established (ON), and the reels 110a, 110b, 110c are respectively set according to the establishment status of the internal winning flag. Will be controlled to stop. At this time, although the small combination is won, if the symbol combination corresponding to the small combination cannot be displayed on the activated line A in the one game, the internal winning flag is set after the end of the one game. Is turned off. In other words, the winning right of a small win is limited to only one game in which the small win is won, and the right cannot be carried over to the next game. In addition, when the internal winning flag corresponding to the winning combination “Replay” which is the replaying combination is established, the symbol combination corresponding to the winning combination “Replay” is always displayed on the activated line A, and the next medal is obtained without requiring a medal. After the processing required for playing the game is performed, the internal winning flag is turned off. On the other hand, when the winning combination “BB” is won, the BB internal winning flag is established (ON) and the symbol combination corresponding to the winning combination “BB” is displayed on the activated line A. The BB internal winning flag is carried over across games.

(Transition of game state)
Here, the BB internal winning flag will be specifically described together with the transition of the game state. When the BB internal winning flag is established, as shown in (1) of FIG. 6, the gaming state managed by the main control board 200 is a winning combination “bonus” depending on the establishment status of the BB internal winning flag. From the bonus non-established game state not winning "BB" to the bonus established game state corresponding to the preparation state of the bonus game state, stop control of each reel 110a, 110b, 110c is performed based on the bonus established game state. .. At this time, when the symbol combination corresponding to the winning combination “BB” cannot be displayed on the activated line A, the BB internal winning flag is carried over to the next game as it is (the bonus winning game state is maintained). The symbol combination corresponding to the winning combination “BB” can be displayed on the activated line A even in the next and subsequent games. Then, when the player displays the symbol combination corresponding to the winning combination “BB” on the activated line A, the gaming state shifts from the bonus-established gaming state to the bonus gaming state, as shown in (2) of FIG. To do. Further, in the bonus game state, when more than a predetermined number (for example, 297) of medals are paid out, the game state shifts from the bonus game state to the bonus non-established game state as shown in (3) of FIG. .. However, as indicated by the broken line arrow in (4) of FIG. 6, in the game in which the winning combination "BB" is established in the bonus non-established gaming state, the symbol combination corresponding to the winning combination "BB" is placed on the activated line A. If it is displayed, the bonus game state is directly entered without going through the bonus-established game state.

(Winning lottery table)
FIG. 7 is a diagram showing a winning combination lottery table used when determining a winning combination lottery random number. In the winning combination lottery table, a plurality of winning regions are sectioned, and the winning combination to be selected in the lottery differs depending on each gaming state. In FIG. 7, the winning area (winning combination) assigned to each of the gaming states (non-bonus winning gaming state, bonus winning gaming state, bonus gaming state) is represented by “◯”. Therefore, a winning area in which "○" is not written indicates that it is not assigned to the gaming state. In each partitioned winning area, a predetermined number (winning range value), which is a numerical value indicating the winning range, is associated with a winning combination, and the number of all winning areas allocated for each gaming state The total of the winning combination lottery random numbers (65536). Therefore, the probability that each winning combination is determined is a value obtained by dividing the number associated with the winning area by the total number of the winning combination lottery random numbers. Based on the game state at that time, the winning combination lottery means 304 sequentially obtains the number from the one having the highest number in the plurality of winning regions in the winning combination lottery table, and obtains this number as the winning combination lottery random number. When the subtracted value becomes less than 0, the winning combination associated with the winning area at that time is set as the lottery result. The procedure of the lottery can be applied to other lottery.

In addition, the winning combination targeted for the lottery differs depending on each game state. For example, in FIG. 7, when the bonus non-established gaming state and the bonus established gaming state are compared, the former draws a winning combination “BB”, whereas the latter draws a winning combination “BB”. Not not. This is because, in the latter case, since the winning combination “BB” has already been won, the winning combination “BB” cannot be repeatedly won. In the latter case, the winning probability of the winning combination “replay” is set higher than in the former case. Further, according to the bonus game state of FIG. 7, the lottery for the winning combination “BB” is not repeated, and the lottery for the winning combination “Replay” is not performed. In addition, since the winning role "bell" is set to be won with a high probability, the expected number of coins that indicates the average number of coins that can be acquired in one game is higher than that in the non-bonus game state or the bonus game state. It's getting higher. In addition, the winning area 0 of the winning combination lottery table is associated with "unwinning", and when "unwinning" is determined by the winning combination lottery, the symbol combination corresponding to any winning combination shown in FIG. Is not displayed on the activated line A, and the payout of medals is not performed. However, in the bonus winning game state (the BB internal winning flag is ON), when "unwinning" is determined by the winning combination lottery, the symbol combination corresponding to the winning combination "BB" can be displayed on the activated line A.

Hereinafter, specific processing in the main control board 200 and the sub-control board 202 will be described based on a flowchart.

(Main processing of main control board 200)
FIG. 8 is a flowchart showing the main processing of the main control board 200. Here, first, along with the main processing of the main control board 200, an outline of one game after initialization will be described, and then the details of each processing will be described. Further, here, the processing relating to the features of the present embodiment will be described in detail, and the description of the configuration unrelated to the features of the present embodiment will be omitted. Although detailed description is omitted, when each process is performed, switches (bet switch 116, start switch 118, stop switches 120a, 120b, 120c) used in each process are activated at the start of the process. , Invalidated at the end of processing.

(Step S100)
When the slot machine 100 is powered on via the power switch 144 and becomes in the energized state, the initialization means 300 executes an initialization process in preparation for the start of a game. The initialization means 300 generates backup data as needed while the power is on, and holds the backup data in the main RAM 200c. Therefore, even if an unexpected power failure occurs, it is possible to restore the state before the power failure by using the retained backup data in this initialization processing. For example, even if an unexpected power failure occurs during the rotation of the reels 110a, 110b, 110c, the reels 110a, 110b, 110c are restarted after the returning operation. Therefore, in the initialization processing, basically, the main RAM 200c is not initialized (RAM clear).

(Step S200)
When the bet number is changed, the command transmitting unit 314 generates a throw command indicating the changed bet number and the stored number, and transmits the generated throw command to the sub control board 202.

(Step S300)
Next, the winning combination lottery means 304 validates the game start operation for the start switch 118, and shifts to the operation waiting state of the start switch 118. Here, the winning combination lottery means 304 operates at the time when the start switch 118 is operated from the winning combination lottery random number updated by the random number generator 200d of the main control board 200 in response to the operation of the start switch 118 by the player. The winning random number of 1 is obtained. Then, the winning combination lottery means 304 determines which winning area the acquired winning combination lottery random number corresponds to, based on the winning combination lottery table shown in FIG. 7 and the currently set gaming state. The winning combination or the non-winning of the determined winning area is determined as the lottery result. In addition, after the lottery result is determined in response to the operation of the start switch 118, the command transmitting means 314 generates a winning combination command including the lottery result (winning combination or non-winning) of the winning combination lottery and the gaming state. Then, the generated winning combination command is transmitted to the sub control board 202. In addition, the state control means 312 shifts the game state from the bonus non-established game state to the bonus established game state based on winning the winning combination “BB” in the bonus non-established game state.

(Step S400)
When the start switch 118 is operated, the reel control unit 306 drives the stepping motor 152 to rotate each reel 110a, 110b, 110c. In this reel rotation process, when a predetermined time (4.1 seconds, for example) has elapsed from the start of rotation of each reel 110a, 110b, 110c in the previous game (wait), each reel 110a, 110b in the game, The rotation of 110c is started, and when all of the reels 110a, 110b, 110c are rotated at a constant speed, the process is moved to step S500. Also, the reel control means 306 may execute a reel effect.

(Step S500)
Subsequently, when the reel control means 306 activates the stop switches 120a, 120b, 120c and accepts the operation of the stop switches 120a, 120b, 120c by the player, any one of the reels 110a, 110b, 110c corresponding to the operation. Or stop control. In addition, when any of the stop switches 120a, 120b, 120c is operated, the command transmitting means 314 outputs a stop command (first stop command, second stop command) indicating information on the operated stop switches 120a, 120b, 120c. A stop command and a third stop command are generated each time the operation is performed, and the generated stop commands are sequentially transmitted to the sub control board 202.

(Step S600)
Next, the determination means 308 determines which predetermined combination the symbol combination displayed on the activated line A shown in FIG. 3(b) corresponds to, and the game state of the game state is determined according to the symbol combination. It executes various processes required for changing and replaying games. The command transmission means 314 also generates a winning command including the symbol combination displayed on the activated line A and the payout number of medals when the symbol combination corresponding to the small winning combination is displayed on the activated line A. , And sends the generated winning command to the sub-control board 202. In addition, the state control means 312 shifts the game state from the bonus-established game state to the bonus game state based on the symbol combination corresponding to the winning combination “BB” being displayed on the activated line A in the bonus-established game state. ..

(Step S700)
Then, based on the determination result in step S600, when the symbol combination corresponding to the small winning combination is displayed on the activated line A, the payout control unit 310 executes the payout process of the medals corresponding to the small winning combination. When the symbol combination corresponding to the replay combination is displayed on the activated line A, the process for betting the next game is automatically executed. Further, the state control unit 312 shifts the gaming state from the bonus gaming state to the bonus non-established gaming state when a predetermined number of medals are paid out in the bonus gaming state. In this way, the payout control means 310 performs various processes corresponding to the symbol combination displayed on the activated line A, and ends the one game. Further, when the medal payout process is performed, the command transmitting unit 314 generates a payout command indicating that the medal payout process is performed, and transmits the generated payout command to the sub-control board 202.

One game is executed through a series of processes from step S200 to step S700. After that, the main loop from step S200 to step S700 is repeated.

(Power supply configuration)
FIG. 9 is a block diagram showing a configuration for supplying electric power to the control means for controlling the progress of the game. Here, in order to explain the power supply mode, the target is the power supply board 350, the first relay board 352, the main control board 200, the main control unit 354, the second relay board 356, the sub-control board 202, the sub-control board. It is divided into units 358. In FIG. 9, a DC (direct current) 24V power supply system is indicated by an alternate long and short dash line arrow, a DC 12V power supply system is indicated by a dashed arrow, and a DC 5V power supply system is indicated by a solid line arrow. There is. Further, here, the GND is made common to all the boards and units, but the GND may be divided into a plurality of pieces on a board-by-board basis or on a unit-by-board basis, or in any area within the board.

Here, the power supply board 350 collectively supplies necessary power to each of the plurality of boards (main control board 200, sub-control board 202) and the plurality of units (main control unit 354, sub-control unit 358). There is. Therefore, each substrate and each unit can receive a stable and large-capacity power supply. However, if an abnormality occurs in the power supply system on any of the boards or units, it also affects (burns out, breaks, malfunctions, etc.) other boards or units that use a common power supply, and the abnormality is not generated. Abnormalities may spread to the board and the unit. Therefore, in the present embodiment, the power supply system is dispersed to prevent the abnormality diffusion in the power supply system when an abnormality occurs.

The power supply board 350 receives power of AC (AC) 24V from the outside and generates DC (DC) 24V. Further, the power supply board 350 generates DC 12V from DC 24V power. Further, the power supply board 350 generates DC5V from DC12V power. The power supply board 350 supplies DC 24V, DC 12V, and DC 5V powers converted to direct current to each board. Note that, here, an example is given in which AC 24 V power is supplied from the outside, but various DC power may be generated by receiving commercial AC 100 V power.

The first relay board 352 relays the power of DC24V, DC12V, and DC5V output from the power supply board 350 to another board. Specifically, the power of DC12V is relayed to the main control board 200, and the power of DC24V, DC12V, and DC5V is relayed to the main control unit 354.

The main control board 200 includes a power generation unit 200e (first power generation unit). The power generation unit 200e generates DC5V power from DC12V power received from the first relay board 352, and supplies DC5V power to the logic circuit in the main control board 200.

The main control unit 354 comprehensively represents a plurality of main control devices that input signals from the main control board 200 or output signals to the main control board 200. As the main control device constituting the main control unit 354, for example, as shown in FIG. 4, a medal shooting unit 114, a bet switch 116, a start switch 118, a stop switch 120, a power switch 144, a main credit display unit 130, and a main credit display unit 130. The payout display unit 132, the reel drive control unit 150, the stepping motor 152, the medal payout device 142 (including the hopper substrate), and the like are included. In the following description, the location where the target is the main control unit 354 can be applied by replacing it with the individual main control devices that compose it. An electric element in each main control device of the main control unit 354 operates by receiving any one or a plurality of electric power of DC24V, DC12V, DC5V from the first relay board 352. In particular, the medal payout device 142 uses DC 24V and DC 5V.

The second relay board 356 relays the power of DC24V and DC12V output from the power supply board 350 to the sub control board 202 and the sub control unit 358, respectively. Specifically, the power of DC12V is relayed to the sub-control board 202, and the power of DC24V and DC12V is relayed to the sub-control unit 358.

The sub control board 202 includes a power generation unit 202e (second power generation unit). The power generation unit 202e generates DC5V power from DC12V power received from the second relay board 356, and supplies power to the logic circuit in the sub control board 202. The sub-control board 202 internally also generates DC 3.3V and DC 1.05V, but a detailed description thereof will be omitted here and will be described later in detail. The DC 5V power generated by the power generation unit 202e is also supplied to the sub control unit 358. However, the power of DC5V generated by the power generation unit 202e is not supplied to the sub control unit 358, and the power of DC5V is generated from the power of DC12V in the sub control unit 358, and the power is supplied to the logic circuit in the sub control unit 358. Power may be supplied.

The sub-control unit 358 comprehensively represents a plurality of sub-control devices that receive signals from the sub-control board 202 or output signals to the sub-control board 202. As the sub-control device that constitutes the sub-control unit 358, for example, as shown in FIG. 4, the effect switch 122, the liquid crystal display unit 124, the effect lamp 125, the reel backlight 126, the stop switch lamp 127, the speaker 128, the sub-device, and the sub-device. A credit display unit 134, a sub-payout display unit 136, a performance accessory device 138, and the like are included. Note that, in the following description, the location where the target is the sub-control unit 358 can be applied by replacing it with the individual sub-control devices that compose it. The electric element in each sub-control device of the sub-control unit 358 operates by receiving one of DC 24V and DC 12V from the second relay board 356 and DC 5V from the sub-control board 202.

Here, the power supply board 350 supplies DC power to the main control board 200, the main control unit 354, the sub control board 202, and the sub control unit 358. However, the power supply board 350 supplies DC5V (second voltage) power to the main control unit 354, but DC5V is supplied to the other main control board 200, the sub-control board 202, and the sub-control unit 358. No power is supplied, and only one or both of DC12V (first voltage) power and DC24V power is supplied. In the present embodiment, the consuming side as viewed from the power supply side is referred to as downstream, and the supplying side as viewed from the power consumption side is referred to as upstream.

On the other hand, in the main control board 200, the power generation unit 200e generates DC5V power from DC12V power to operate the main CPU 200a, which is used in the main control board 200. Further, in the sub control board 202, the power generation unit 202e generates DC 5V power from DC 12V power and uses it in the sub control board 202 and in the sub control unit 358.

Therefore, any of the main control board 200, the main control unit 354, the sub-control board (specific board) 202, and the sub-control unit 358 can eventually receive the supply of DC 5V. On the other hand, the main control unit 354 is directly supplied with DC5V power from the power supply board 350, while the main control board 200, the sub control board 202, and the sub control unit 358 are supplied with the power supply board 350. Therefore, the power generation units 200e and 202e in the substrate indirectly receive the power of DC5V without directly receiving the power of DC5V. That is, the main control board 200, the main control unit 354, and the sub-control board 202 and the sub-control unit 358 have different DV5V power supply systems. In the power generation units 200e and 202e, even if an abnormality occurs on the output side of DC5V power, the influence is absorbed inside the output side and does not affect the input side.

With such a configuration, any of the main control board 200, the main control unit 354, the sub-control board 202, and the sub-control unit 358 can receive the power of DC 5V, and the main control unit 354, the sub-control board 202, Even if an abnormality occurs in the DC 5V power supply system in any of the sub control units 358, it does not affect the operation of the main control board 200. That is, even if an abnormality occurs in the supply system of the DC 5V power supplied directly from the power supply board 350 or the supply system of the DC 5V power supplied from the power generation unit 202e, the power generation unit having a different supply system from that Normal operation can be maintained without affecting the DC5V supply system supplied from 200e.

Therefore, it is assumed that the electric elements in the main control unit 354 (medal insertion section 114, bet switch 116, start switch 118, stop switch 120, power switch 144, main credit display section 130, main payout display section 132, reel drive control section 150). , Stepping motor 152, medal payout device 142) and electric elements in sub-control unit 358 (production switch 122, liquid crystal display section 124, production lamp 125, reel backlight 126, stop switch lamp 127, speaker 128, sub-credit display. Even if the DC5V power supply system of any of the section 134, the sub-payout display section 136, and the performance accessory device 138) is short-circuited, the effect thereof is the main control unit 354, the sub-control board 202, and the sub-control unit 358. Complete within. Then, the DC5V power supply of the main control board 200 is maintained, and the game can be normally advanced.

Similarly, even if an abnormality occurs in the DC 5V power supply system in either the sub control board 202 or the sub control unit 358, the operation of the main control unit 354 is not affected. That is, even if an abnormality occurs in the supply system of the DC 5V power supplied from the power generation unit 202e, the supply system of the DC 5V power directly supplied from the power supply board 350 having a different supply system is affected. The normal operation can be maintained without being affected.

For example, as described above, the medal payout device 142 uses DC 24V and DC 5V. Specifically, a motor provided in the bottom of the hopper in the medal payout device 142 and rotating a disc for ejecting medals one by one receives power of DC 24V and operates. Further, the medal payout sensor, which turns on/off each time one medal is ejected from the disc and outputs a signal to that effect to the main control board 200, operates by receiving power of DC 5V. Here, if it is assumed that the DC5V power supply system of the medal payout sensor is equal to the DC5V power supply system of the sub-control board 202 and the sub-control unit 358, whichever of the sub-control board 202 and the sub-control unit 358 is assumed. In this case, the medal payout sensor can be disabled while maintaining the motor for paying out medals by short-circuiting the DC 5V power supply system. By disabling the medal payout sensor in this manner, a goto action for causing an illegal medal payout from the hopper, for example, since the signal of the medal payout sensor is not transmitted to the main control board 200, it is performed at a timing other than the medal payout. When the hopper is operated (until the hopper is empty) and illegally acquiring medals, or when paying out medals, the specified number of payouts is exceeded (a predetermined time (for example, 2 seconds)) and an empty error occurs. It becomes possible to perform the act of paying out medals. Here, since the DC5V power supply system of the medal payout sensor and the DC5V power supply system of the sub-control board 202 and the sub-control unit 358 are different, whichever of the sub-control board 202 and the sub-control unit 358 is used. In this case, even if the DC5V power supply system is short-circuited, the medal payout sensor is not affected and the above-mentioned goto action can be prevented.

Therefore, tentatively, the electric elements in the sub-control unit 358 (production switch 122, liquid crystal display unit 124, production lamp 125, reel backlight 126, stop switch lamp 127, speaker 128, sub-credit display unit 134, sub-payout display unit 136. Even if any of the DC5V power supply systems of the performance accessory device 138) is short-circuited, the effect is completed in the sub-control board 202 and the sub-control unit 358. Then, the power supply of DC5V of the main control board 200 and the main control board 200 is maintained, and the game can be normally advanced.

Note that, here, the sub-control board 202 is given as the specific board that is supplied with DC12V and generates DC5V, but the present invention is not limited to this case, and if the main board is separate from the main control unit 354, the specific board is the main control board 200. Alternatively, another substrate may be used. For example, it is assumed that a decorative body imitating a patrol lamp is attached to the front side of the slot machine 100. In addition, any one of the effect switch 122, the liquid crystal display unit 124, the effect lamp 125, the speaker 128, and the effect accessory device 138 may be provided on the ornament. At this time, if the power of DC5V is generated from the power of DC12V by the substrate in the decoration body, the power of DC5V is supplied to the effect switch 122, the liquid crystal display unit 124, the effect lamp 125, the speaker 128, and the effect accessory device 138. can do. In this case, it is assumed that an abnormality has occurred in the DC 5V power supply system in any of the board inside the ornamental body and the effect switch 122, the liquid crystal display section 124, the effect lamp 125, the speaker 128, and the effect accessory device 138 located downstream thereof. However, the effect is completed in the decoration body and does not reach the main control board 200 or the main control unit 354.

In addition, here, power of DC 5V is directly supplied from the power supply board 350 to the main control unit 354, and the other main control board 200, the sub control board 202, and the sub control unit 358 are separately generated with different supply systems. Although the example of using the power of DC5V has been described, the target to which the power is directly supplied from the power supply board 350 is not limited to the main control unit 354, but instead of or in addition to this, the main control board 200 and the sub-control. One or more of the substrate 202 and the sub-control unit 358 may be provided, and DC5V power separately generated (or generated by itself) may be used in other cases with different supply systems. That is, the target to which power is directly supplied from the power supply board 350 is any one or a plurality of the main control board 200, the main control unit 354, the sub control board 202, and the sub control unit 358, and the other supply systems are different. DC5V power generated separately is used.

In addition, although the description has been given here using DC 12V as the first voltage and DC 5V as the second voltage, the present invention is not limited to such a case, and the combination of the voltages can be arbitrarily determined. Note that the voltage value can be set to various values such as DC 3.3V, DC 1.2V, and DC 1.05V in addition to DC 24V, DC 12V, and DC 5V. Note that any combination of voltages may be high, but by setting the first voltage>the second voltage, the configuration of the power generation unit that generates the power of the second voltage from the power of the first voltage is set. It is possible to simplify, and for example, an inexpensive and small-scale electric element such as a step-down regulator can be used.

(Power supply configuration in sub-control board 202)
Further, for example, in the sub-control board 202, in order to prevent the abnormality of the DC 5V power supply system from spreading, it is possible to thoroughly disconnect the DC 5V power supply system.

FIG. 10 is a block diagram showing a configuration for supplying electric power in the sub control board 202. In FIG. 10, the power supply system is shown by solid arrows, and the control signals are shown by broken arrows. Further, for convenience of explanation, a single control signal is shown to connect the sub-control board 202 and each device of the sub-control unit 358, but a plurality of control signals may be set.

As described above, in the sub control board 202, the power generation unit 202e generates DC5V power from DC12V power. Furthermore, the power generation unit 202f provided on the sub-control board 202 generates DC 3.3V (third voltage) power from DC 12V (first voltage) power, and the power generation unit 202g converts DC 12V power to DC1. Electric power of 0.05 V (third voltage) is generated. Therefore, in the sub-control board 202, in addition to the DC12V power received from the second relay board 356, the DC5V, DC3.3V, and DC1.05V powers can be used.

Then, each integrated circuit in the sub-control board 202 is supplied with power of DC5V, DC3.3V, DC1.05V according to each power supply voltage. The DC 5V power generated by the power generation unit 202e is also supplied to the sub control unit 358.

The sub-control board 202 uses, for example, DC5V as a power source for the liquid crystal display unit 124, the effect lamp 125, the reel backlight 126, the stop switch lamp 127, the speaker 128, and the effect accessory device 138 in the sub-control unit 358. A control signal is transmitted by serial communication (discrete signal). The liquid crystal display unit 124, the effect lamp 125, the reel backlight 126, the stop switch lamp 127, the speaker 128, and the effect accessory device 138 receive the control signal and execute the effect in accordance with the control signal. Further, the liquid crystal display unit 124, the effect lamp 125, the reel backlight 126, the stop switch lamp 127, the speaker 128, and the effect accessory device 138 operate through serial communication using DC5V as a power source to the sub control board 202. A status signal (for example, a loopback command) indicating the result or the self status is returned. Therefore, the sub-control board 202 refers to the state signal, and according to the contents, the liquid crystal display unit 124, the effect lamp 125, the reel backlight 126, the stop switch lamp 127, the speaker 128, and the effect accessory device 138. A control signal will be transmitted.

Further, in the sub-control unit 358, for example, when the effect switch 122 receives an operation by the player within the operation valid period, the operation from the player is accepted and operated through a discrete signal with DC5V as a power source. An operation signal indicating time or operation amount is transmitted to the sub control board 202. Then, the sub control board 202 starts, ends, or changes the effect based on the operation signal.

Since such a sub control unit 358 is mainly used for presentation, it is often accompanied by displacement or change of itself. In addition, the production switch 122 must accept an irregular operation by the player. Then, in the sub control unit 358, there is a high possibility that an abnormality occurs due to a failure or the like.

If the DC 5V power of the sub-control unit 358 is shared with the sub-control board 202, the abnormality of the DC 5V supply system of the sub-control unit 358 also affects the sub-control board 202 that uses a common power source. The abnormality also spreads to the sub control board 202 in which no abnormality has occurred. Therefore, in addition to the distribution of the power supply system of the main control board 200, the main control unit 354, the sub control board 202 and the sub control unit 358, the power supply of the sub control board 202 and the sub control unit 358 is performed. Disconnect the system and prevent abnormal diffusion in the power supply system when an abnormality occurs.

Specifically, the switching circuit 202h is provided in the sub control board 202. The switching circuit 202h receives the DC 5V generated by the power generation unit 202e and switches (ON/OFF) the DC 5V power output. Here, the power output from the switching circuit 202h may be DC5V_U in order to distinguish it from DC5V. Then, the sub CPU 202a (control unit) controls the switching circuit 202h to a closed state (ON) or an open state (OFF) according to the power supply status.

FIG. 11 is a circuit diagram showing a driving mode of the switching circuit 202h. Here, FIG. 11A shows a circuit diagram of the switching circuit 202h, and FIG. 11B shows a truth table of its operation.

For example, when a high level (H) signal is output from any output port Out1 of the sub CPU 202a, the bipolar transistor Q1 as a switch element is turned on and the second resistor R2 and Due to the resistance division with the three resistors R3, the voltage at the point A becomes 5×R2/(R2+R3)V, and V _GS becomes a significant value. Then, since the FET Q2 is turned on, the power of DC5V input to the source of the FET Q2 is output from the drain (DC5V_U).

On the other hand, when a low level (L) signal is output from the output port Out1 of the sub CPU 202a, the bipolar transistor Q1 is turned off, and the point A is pulled up by the second resistor R2 to 5V. Then, V _GS becomes 0 and the FET Q2 is turned off, so that the output from the drain of DC5V input to the source of the FET Q2 is cut off.

Here, although the N-channel FET and the bipolar transistor are cited as the switching circuit 202h for transmitting the logic signal, the invention is not limited to such a case, and a P-channel FET, a relay, or the like can be used. Further, the first resistor R1 and the fourth resistor R4 both function as pull-down resistors for avoiding being open, and the capacitor C1 functions as a smoothing element for voltage fluctuation.

Here, the sub control unit 358 is not connected to DC5V input to the source of the FET Q2, but is connected only to DC5V_U of the drain of the FET Q2. Here, DC5V power is supplied from the drain of the FET Q2 to the sub control unit 358 only when the output port Out1 of the sub CPU 202a becomes high level (H), and when the output port Out1 becomes low level (L). To be cut off. Therefore, when the sub CPU 202a detects an abnormality in the sub control unit 358, the sub control board 202 and the sub control unit 358 can be separated from each other only by setting the output port Out1 to the low level (L). Even if an abnormality occurs in the DC5V power supply system in the unit 358, it does not affect the upstream side including the sub-control board 202.

By the way, as shown in FIG. 10, the sub CPU 202a controls the liquid crystal display section 124, the effect lamp 125, the speaker 128, and the effect accessory device 138 in the sub control unit 358 through an output buffer 202i such as 749541 series. Send a signal. In the sub CPU 202a, a status signal is received from the liquid crystal display unit 124, the effect lamp 125, the speaker 128, and the effect accessory device 138 in the sub control unit 358 through the input buffer 202j, and input from the effect switch 122. The operation signal is received through the buffer 202k. Note that the output buffer 202i and the input buffers 202j and 202k are not limited to the 749541 series, and various integrated circuits transmitting logic levels can be used.

At this time, for example, the input terminal of the output buffer 202i requires electric power of DC 3.3V, which is equal to the power supply of the sub CPU 202a, and the output terminals are the liquid crystal display unit 124, the effect lamp 125, the speaker 128, and the effect accessory device 138. DC5V_U power equivalent to the power supply of Similarly, the input terminal of the input buffer 202j requires power of DC5V_U, which is the same as the power sources of the liquid crystal display unit 124, the effect lamp 125, the speaker 128, and the effect accessory device 138, and the output terminal thereof is equal to the power source of the sub CPU 202a. DC 3.3V power is required. Moreover, the input terminal of the input buffer 202k requires the same electric power of DC5V_U as the power source of the effect switch 122, and the output terminal requires the same electric power of DC3.3V as the power source of the sub CPU 202a. Therefore, the output terminal of the output buffer 202i and the input terminals of the input buffers 202j and 202k require DC5V_U power.

Therefore, the output terminal of the output buffer 202i and the input terminals of the input buffers 202j and 202k are not connected to the DC 5V input to the source of the FET Q2, but are connected only to the drain of the FET Q2. Therefore, only when the sub CPU 202a becomes high level (H), the power of DC5V_U is supplied from the drain of the FET Q2 to the output terminal of the output buffer 202i and the input terminals of the input buffers 202j and 202k, and becomes low level (L). When this happens, the power supply is cut off. Therefore, when the sub CPU 202a detects an abnormality in the sub control unit 358, the sub CPU 202a simply sets it to the low level (L), and in addition to the sub control board 202 and the sub control unit 358, the sub control board 202 and the buffer (output buffer 202i). And the input buffers 202j, 202k) can be separated from the sub-control unit 358 side. Therefore, even if an abnormality occurs in the DC5V power supply system between the sub-control unit 358 and the buffer, the upstream of the sub-control board 202 It does not affect the side.

Here, the power generation unit 202e is separately provided with a DC5V power supply system to prevent the main control board 200 and the main control unit 354 from being affected. Further, the switching circuit 202h makes it possible to disconnect the electric power (DC5V_U) of the sub control unit 358, thereby preventing the sub control board 202 itself having no abnormality from being affected. Therefore, when an abnormality occurs, it is possible to prevent the abnormal diffusion and prevent the other substrates and the sub-control substrate 202 itself from being burned, damaged, malfunctioning, malfunctioning, or the like.

Note that in FIG. 10, for convenience of description, the operation of the sub-control unit 358 has been described with reference to the one switching circuit 202h, but the present invention is not limited to this case, and each functional unit of the sub-control unit 358, for example, a liquid crystal display. Each of the section 124, the effect lamp 125, the reel backlight 126, the stop switch lamp 127, the speaker 128, the effect accessory device 138, and the effect switch 122, or in a further subdivided unit, independently supplies power of DC5V_U. Alternatively, the switching circuit 202h may be provided for each supply. For example, when an abnormality occurs in another functional unit other than the reel backlight 126 and the stop switch lamp 127, for example, the performance product device 138, only the switching circuit 202h corresponding to the performance product device 138 is closed and the power of DC5V_U. Can be prevented from affecting the reel backlight 126 and the stop switch lamp 127. In this way, it is prevented that the lighting mode of the reel backlight 126 and the stop switch lamp 127 is changed (lighting, extinguishing, blinking) during the game and the game is affected. With this configuration, even if a part of the sub-control unit 358 is abnormal, it is possible to prevent the sub-control board 202 and other devices of the sub-control unit 358 from being affected.

Further, here, when the sub CPU 202a detects an abnormality in the sub control unit 358, the sub control unit 358 is set to a low level (L), and the sub control board 202 and the sub control unit 358 are separated. The sub CPU 202a can detect an abnormality in the sub control unit 358 as follows. That is, for example, when an abnormality occurs in the driver of the actuator that operates the performance accessory device 138 such that the encoder does not advance the rotation command of the actuator, the state signal is used to loop back to that effect. Is provided. The sub CPU 202a determines the abnormality of the driver from the state signal, and shuts off the output of the power of DC5V_U to which the driver is connected through the switching circuit 202h. At this time, the sub CPU 202a does not immediately shut off the output of electric power through the switching circuit 202h when the status signal includes information indicating that the abnormality of the driver has occurred, and the abnormality is determined for a predetermined period of time. The power output may be interrupted through the switching circuit 202h only when the number of occurrences is equal to or more than the number of occurrences or when the abnormality occurs a predetermined number of times consecutively.

In addition, when the status signal includes information indicating that a driver abnormality has occurred, the sub CPU 202a temporarily shuts off the output of electric power through the switching circuit 202h, and thereafter, for a predetermined time (for example, 1 Within a second), the power output may be restored through the switching circuit 202h again. In this way, the power output of DC5V_U is once cut off and restored (by resetting), so that the driver starts the initialization process. If the abnormality of the driver is not an unrepairable abnormality, there is a possibility that the abnormality will be canceled by the initialization processing. Here, by using the driver as a reset signal (control signal) through the switching circuit 202h, it is possible to return the performance accessory device 138 to a normal operation.

Further, when a plurality of DC5V_U powers are independently supplied to each functional unit of the sub-control unit 358 and the switching circuits 202h are provided for each of them, an abnormal place can be specified through the switching circuit 202h. For example, when a plurality of DC5V_U electric powers are independently supplied to the effect lamp 125, it is assumed that a part of the electric power is abnormal. In this manner, the sub CPU 202a sets the closed state (ON) and the open state (OFF) to the switching circuit 202h when the state signal includes the information indicating that the effect lamp 125 has an abnormality. It is continuously switched at a predetermined cycle (for example, 1 second). Then, the effect lamp 125 may be turned on when the power of DC5V_U is received, and is forcibly turned off when the power of DC5V_U is cut off. Here, by using the driver as a blinking signal (control signal) through the switching circuit 202h, the operator can determine that the place where the blinking is occurring is an abnormal place, and promptly respond to the abnormality. Is possible.

(Power supply system)
Although not specifically shown, the sub-control board 202 is provided at a position where the player can easily access the main control board 200 and the main control unit 354 from the front of the gaming machine 100. Therefore, even if an unauthorized third party accesses the sub-control board 202 and intentionally operates (alters) the short-circuit of the DC5V power supply system as described above, the medal is paid out. There is no influence on the DC 5V power of the main control unit 354 such as the medal payout device 142 for paying out. That is, important boards relating to the interests of the player, such as the main control board 200 and the main control unit 354, are arranged at positions that are difficult for the player to access, and at positions such as the sub-control board 202 that are easily accessible by the player. The power supply system of the arranged boards is separated from the power supply system of the main control board 200 and the main control unit 354. Thus, for example, by invalidating the medal payout sensor as described above, it is possible to protect the main control board 200 and the main control unit 354 from an illegal third party goto action that causes an illegal medal payout from the hopper. Becomes

The electric elements of the sub-control unit 358 to which the DC 5V power generated by the power generation unit 202e of the sub-control board 202 is supplied are the electric elements to which the DC 5V power is supplied through the main control board 200 and the main control unit 354. Therefore, it is provided at a position where the player can easily access from the front of the gaming machine 100. Therefore, similarly to the case where the sub-control board 202 is provided at a position that is more easily accessed by the player than the main control board 200 and the main control unit 354, an unauthorized third person accesses the sub-control unit 358, Even if the DC5V power supply system is intentionally operated (altered) such as by short-circuiting, the DC5V power of the main control board 200 or the main control unit 354 is not affected. That is, important electric elements such as the main control board 200 and the main control unit 354, which are important to the player's interest, are arranged at positions that are difficult for the player to access, and positions such as the sub-control unit 358 that are easily accessible by the player. The power supply system of the electric elements arranged in the above is separated from the power supply system of the electric elements to which the power is supplied through the main control board 200 and the main control unit 354. Thus, for example, an electric element to which electric power is supplied through the main control board 200 or the main control unit 354 from an illegal third party goto action that causes an illegal medal payout from the hopper by disabling the medal payout sensor. Can be protected.

Further, the main control unit 354 is provided at a position such that the player can easily access from the front of the gaming machine 100 from the main control board 200, such as the medal shooting unit 114, the bet switch 116, the start switch 118, and the stop switch 120. There are also things. Therefore, even if an unauthorized third party intentionally operates (alters) by accessing the main control unit 354 and short-circuiting the DC5V power supply system, the main control that controls the progress of the game It does not affect the DC 5V power of the substrate 200. That is, an important board, such as the main control board 200, which is important to the player's profit is arranged at a position that is difficult for the player to access, and a main control unit 354 is located at a position that is easily accessed by the player as compared with the main control board 200. The power supply system of the arranged boards is separated from the power supply system of the main control board 200. In this way, for example, by invalidating the medal payout sensor, it is possible to protect the main control board 200 from an illegal third party goto action that causes an illegal medal payout from the hopper.

(Pattern Arrangement Mode)
As described above, for example, in the sub-control board 202, by providing the switching circuit 202h, it is possible to supply power to the downstream of the switching circuit 202h or cut off the power supply. However, by adopting such a configuration, it is necessary to dispose the switching circuit 202h and individually provide an electric power supply system, which increases the occupied area. Also in the main control board 200, since the electric element that can be arranged on the board is not a DIP (Dual Inline Package) type electric element of single-sided mounting according to the rule, it is not suitable for the type test. Tend to increase. Here, if the occupied area simply increases, the size of the substrate itself may increase, or the size of the substrate may increase, which may make the layout design difficult. Therefore, by devising the arrangement of the integrated circuit and the electric elements on the substrate, the increase of the occupied area is suppressed.

FIG. 12 is an explanatory diagram showing an arrangement example of integrated circuits and electric elements on a substrate. Here, an example of a substrate including an electric element such as an integrated circuit, an electric component, and a connector is shown.

Here, the integrated circuit (CPU, IC1 to IC7) is an electric element in which electric parts such as a transistor, a diode, a resistor, and a capacitor are integrated. Further, the integrated circuit includes a main body formed in a flat plate shape and three or more terminals (leads) protruding outward from the side surface of the long side of the main body. The terminals are arranged on the two long side surfaces of the main body at the same number and at equal intervals, and the terminal numbers are sequentially assigned in the lateral direction from the lower left to the lower right when viewed from the front (for example, 1 to 10 in IC1). Terminal numbers are sequentially assigned in the horizontal direction from the upper right to the upper left (for example, 11 to 20 in IC1). As described above, since the integrated circuit is formed in a vertically symmetrical manner when viewed from the front, various measures are taken to prevent the vertical direction from being erroneously recognized. For example, the character string is printed in the longitudinal direction so that the first terminal is located at the lower left in the front view (normal arrangement), and the body is in the positive direction in the front view in the center of the main body. Various notations such as alphabets, numbers, kana, kanji, and symbols can be applied to such character strings. In the integrated circuit (CPU, IC1 to IC4, IC7), the terminal 1 is located at the lower left when viewed from the front, and the left side of the short side is formed with a semicircular cutout of the left side. Has been done. In the integrated circuits (IC5, IC6), the first terminal is located at the lower left in a front view, and a circular identifier indicating the position of the first terminal is formed near the first terminal.

The electric parts are electric elements such as resistors (R1 to R9), capacitors (C1 to C7), and inductors (not shown). The electric component is composed of a columnar or prismatic main body and terminals (leads) protruding outward from both ends thereof. In such an electric component, a plurality of endless belts having a color extending in a direction intersecting a direction in which the terminals are projected (projection direction) are printed side by side in the protruding direction on a side surface portion of the columnar main body. Then, the resistance value and accuracy of the resistor, the electrostatic capacity and accuracy of the capacitor, and the inductance and accuracy of the inductor can be specified by a combination (color code) of colors of bands arranged in the protruding direction. Note that while resistors and inductors have no polarity, some capacitors have no polarity.

Further, the connectors (CN1, CN2) are connection components for electrically connecting to another board or unit.

Here, an example is shown in which the integrated circuit, the electrical components, and the connector are all arranged on one surface of the substrate. The DIP type is given as an example of the mounting type of the integrated circuit, the electric component, and the connector, but it is not limited to such a case, and SIP (Single Inline Package), SOP (Small Outline Package), QFP (Quad Flat Package) Various mounting types can be adopted. In the DIP, since the distance between terminals is standardized, the integrated circuit, the electric component, and the connector alone occupy a certain area. Therefore, the effect of reducing the occupied area by devising the arrangement of the integrated circuit and the electric components as described below is likely to occur remarkably for the DIP type integrated circuit, the electric components, and the connector.

Further, on the board, identification displays (CPU, IC1 to IC7, R1) corresponding to integrated circuits (CPU, IC1 to IC7) to be mounted, electric parts (R1 to R9, C1 to C7), and connectors (CN1, CN2) are mounted. R9, C1-C7, CN1, CN2) are printed in the vicinity. Here, since the mounting location of the electric element can be visually recognized, erroneous mounting can be prevented. Further, the identification display is arranged at a position where it can be viewed (not hidden) from the front even after mounting the electric element. Therefore, it is possible to improve workability even in confirmation after mounting. Further, the identification display is printed with a character string such that the first terminal of the integrated circuit is located in the lower left when viewed from the front so that it is in the forward direction. Therefore, erroneous recognition of the mounting direction of the integrated circuit can be prevented.

Further, on the substrate, the display directions of the identification displays (CPU, IC1 to IC7, R1 to R9, C1 to C7, CN1, CN2) of such electric elements are unified as much as possible. By doing so, workability can be improved even in the confirmation after mounting. Further, in a state where a resin case (not shown) enclosing the main control board 200 is attached to the gaming machine 100, all the identification displays (CPU, IC1 to IC7) of the integrated circuits (CPU, IC1 to IC7) It is attached to the surface of the main control board 200 so as to be in the forward direction when viewed from the front. Thereby, the operator can easily visually recognize the identification number even when the resin case enclosing the main control board 200 is attached to the gaming machine 100, and the workability can be improved even in the confirmation after mounting. It will be possible.

In addition, a guide display is printed on the board to prevent misidentification of the mounting direction of the integrated circuit (CPU, IC1 to IC7) to be mounted. For example, in a front view, the first terminal of the integrated circuit (CPU, IC1 to IC4, IC7) is located at the lower left, and the left side in the lateral direction has a semicircular cutout of the left side formed with an identifier. If so, the guide display imitating the cutout shape is printed on the substrate in the vicinity of the semicircular cutout so that the integrated circuits (CPU, IC1 to IC4, IC7) can be correctly arranged on the board. To be done. Further, when the first terminal of the integrated circuit (IC5, IC6) is located at the lower left when viewed from the front, and a circular identifier indicating the position of the first terminal is formed near the first terminal, the integrated circuit A triangular (Δ) guide display is printed on the substrate in the vicinity of the circular identifier so that (IC5, IC6) can be correctly arranged on the substrate. By doing so, it is possible to prevent erroneous recognition of the mounting direction of the integrated circuit, and it is also possible to improve workability in confirmation after mounting. If the capacitor has polarity, a plus (+) guide display indicating the positive electrode may be printed on the substrate near the positive electrode of the capacitor.

In the substrate of FIG. 12, capacitors (C1 to C7) are arranged for the integrated circuits (IC1 to IC7) in order to smooth the input power. As described above, one or a plurality of electric components may be arranged in the integrated circuit in association with each other. When a capacitor is arranged in the integrated circuit, it is necessary to bring the capacitor as close to the integrated circuit as possible in order to smooth the input power.

Therefore, in the example of FIG. 12, when the capacitors (C1 to C7) are arranged near the integrated circuits (IC1 to IC7) respectively, and the integrated circuit and the capacitors are regarded as one unit (integrated observation), The capacitor is arranged in such a position and orientation that the area of the long side×short side of one unit becomes smaller. For example, in the example of FIG. 12, the longitudinal direction of the capacitor is arranged along the lateral direction of the integrated circuit. Here, the long side of the capacitor and the short side of the integrated circuit are similar in length (including equal length), and even if the long side of the capacitor is arranged along the short side of the integrated circuit. The rectangular shape can be roughly maintained, and the area of the rectangular shape is equal to the short side of the integrated circuit×(the long side of the integrated circuit+the short side of the capacitor), so that the occupied area can be reduced.

In addition, in integrated circuits, power supply terminals having different polarities are arranged on two longitudinal side surfaces of the main body (for example, in the IC1, the positive electrode is the 20th terminal and the negative electrode is the 10th terminal). Therefore, by arranging the longitudinal direction of the capacitor along the lateral direction of the integrated circuit, it is possible to minimize the wiring that connects the power supply terminal and the both terminals of the capacitor, which have different polarities. It can also be minimized.

Note that, although an example in which one electric component is associated with one integrated circuit has been described here, the present invention is not limited to this case, and a plurality of electric components may be associated with one integrated circuit. In this case, the plurality of electric components may be arranged side by side so that the longitudinal directions thereof are parallel to each other, and the longitudinal directions of all the electric components may be arranged along the lateral direction of the integrated circuit. In addition, here, an example in which one capacitor is associated with one integrated circuit has been described, but the type and number of electrical components are not limited. For example, any two or all combinations of a resistor, a capacitor, and an inductor may be used, and any electric component, for example, a plurality of resistors may be provided together.

Further, when associating a plurality of (for example, two) electric components with one integrated circuit, a plurality of electric components are juxtaposed in series so that their longitudinal directions are equal, and the longitudinal directions of the plurality of electric components are You may arrange|position along a longitudinal direction of an integrated circuit. Here, the long sides of a plurality of electrical components arranged in series are similar to the long sides of the integrated circuit (including equal lengths), and the longitudinal direction of the plurality of electrical components is the same. Even if they are arranged along the longitudinal direction of, the rectangular shape can be roughly maintained, and the area is also the long side of the integrated circuit × (short side of integrated circuit + short side of electric component), so the occupied area is reduced. It becomes possible.

In the substrate of FIG. 12, the integrated circuit (IC7) may be provided with a resistor group including a plurality of resistors (R1 to R9) as pull-up resistors or pull-down resistors. Also in this case, in order to fully utilize the functions of the pull-up resistor and the pull-down resistor, it is necessary to bring the resistor group as close to the integrated circuit as possible.

Therefore, in the example of FIG. 12, when the resistor groups (R1 to R9) are arranged in the vicinity of the integrated circuit (IC7) and the integrated circuit and the resistor group are regarded as one unit (integrated observation), The resistor group is arranged at a position and posture in which the area of the long side×short side of one unit is reduced. For example, in the example of FIG. 12, a plurality of resistors are juxtaposed so that their longitudinal directions are parallel to each other, and the juxtaposed direction is along the longitudinal direction of the integrated circuit. Here, the short side of the resistor is shorter than the distance between the terminals of the integrated circuit, and the length of the resistor group in the juxtaposed direction and the length of the long side of the integrated circuit are approximate (including equal length). Even if they are arranged along the longitudinal direction of the integrated circuit, the rectangular shape can be maintained, and the area is also the long side of the integrated circuit × (the short side of the integrated circuit + the long side of the resistor). It is possible to reduce the area.

Further, in an integrated circuit, there are cases where terminals for equalizing functions such as input/output are continuously arranged (for example, terminals 11 to 19 of the IC 7). Therefore, by arranging the juxtaposed directions of the resistor groups along the longitudinal direction of the integrated circuit, it is possible to minimize the connection that connects the continuous terminals of the integrated circuit and one ends of the plurality of resistors, and the wiring pattern It can also be minimized.

In addition, here, although an example in which one electrical circuit is associated with an electrical component group having nine electrical components, the number of electrical components can be arbitrarily determined without being limited to such a case. .. Further, here, an example is described in which one integrated circuit is associated with a resistance group having a plurality of resistors provided side by side, but the type and number are not limited as long as the shapes and functions of the electric components are the same. Further, here, a resistance group in which separate resistors are provided together is applied, but for example, a resistance array (collective resistance) in which a plurality of resistances are integrally formed in advance by molding or the like may be applied.

Further, by reducing the occupied area as described above, the density of electric elements per unit area can be increased. However, when the density of the electric elements increases, it takes time to grasp the mounting position of the electric elements and to confirm the mounting position after mounting, and the workability deteriorates. Here, the workability is improved by improving the distinguishability.

For example, integrated circuits (IC1 to IC6) and electric components (C1 to C6) are regularly arranged in the region shown by the broken line in the substrate of FIG. Specifically, the positions of the left short sides of the integrated circuits (IC1, IC3, IC5) in the front view are aligned in the left-right direction (equal or substantially equal). Further, the positions of the left short sides of the integrated circuits (IC2, IC4, IC6) in the front view are aligned (equalized or substantially equalized) in the left-right direction. In addition, the positions of the electrical components (C1, C3, C5) are aligned in the left-right direction (equal or approximately equal) when viewed from the front. In addition, the positions of the electrical components (C2, C4, C6) are aligned in the left-right direction (equal or approximately equal) when viewed from the front. Then, from the left side in the front view, the electrical components (C1, C3, C5), the integrated circuits (IC1, IC3, IC5), the electrical components (C2, C4, C6), the integrated circuits (IC2, IC4, IC6) are sequentially (alternately). ), and align their center positions vertically (equal or nearly equal). Further, electric components (C1 to C6) having the same subscripts are associated with the integrated circuits (IC1 to IC6).

Here, by arranging the electric elements regularly, the position of one electric element can be predicted from the other electric element according to the law. Therefore, the discriminating property is improved, it becomes easy to grasp the mounting position of the electric element and to confirm the mounting position after mounting, and the workability can be improved.

It should be noted that with respect to electric parts having no polarity, such as resistors (R1 to R9), capacitors (C1 to C7), and inductors, there is no problem even if the two terminals are attached in any of the upper and lower (left and right) directions. However, here, the directions are aligned (unified) between electric parts having the same function. For example, in FIG. 12, the resistors (R1 to R9) and the capacitors (C1 to C7) are arranged such that the arrangement (appearance) of color codes is the same when viewed from the front. With such an arrangement, it is possible to easily identify that the electric components are equal to each other or that the electric components are different from each other, and it is possible to improve workability.

In addition, here, an example in which the resistors (R1 to R9) or the capacitors (C1 to C7) are arranged so that the color codes are arranged in the same manner on all the main control boards 200 has been described. Not limited to such a case, at least a part of the main control board 200 may be arranged so that the arrangement of the color codes of the plurality of electronic components is the same when viewed from the front.

In addition, at the time of inspecting the electric elements attached to the main control board 200, for example, at the time of operation inspection in the manufacturing line of the gaming machine 100, the type of the Security Communication Association (Nintendo Co., Ltd.), which is a designated testing agency of the National Public Safety Commission. Workability can be improved at the time of inspection in a test, at the time of an on-site inspection by a police or the like, or at an inspection for identifying a failed portion when the gaming machine 100 fails.

Here, an example in which the electric components, the integrated circuits, the electric components, and the integrated circuits are alternately juxtaposed in the left-right direction in the front view has been described, but the juxtaposition pattern is not limited to such a case, and the juxtaposed patterns have various patterns. Can be adopted. Further, here, the example in which the capacitors are associated with each other has been described, but the type and the number of the electric components are not limited. For example, any two or all combinations of a resistor, a capacitor, and an inductor may be used, and any electric component, for example, a plurality of resistors may be provided together.

The preferred embodiments of the present invention have been described above with reference to the accompanying drawings, but it goes without saying that the present invention is not limited to such embodiments. It is obvious to those skilled in the art that various alterations or modifications can be conceived within the scope of the claims, and it should be understood that these also belong to the technical scope of the present invention. To be done.

Further, in the above-described embodiment, the main control board 200 and the sub-control board 202 are arranged so as to share the function part for advancing the game, but the function part of the main control board 200 is provided in the sub-control board 202. Alternatively, the functional units of the sub-control board 202 may be provided on the main control board 200, or all the functional sections may be collectively provided on one control board.

For example, in the above-described embodiment, as a gaming machine, a winning combination lottery means for determining one of a plurality of types of winning combinations by a winning combination lottery based on the operation of the start switch, and a plurality of winning combination lottery operations according to the operation of the start switch. Rotation control is performed on a plurality of rotating reels in which types of symbols are arranged, and in response to the operation of the stop switch corresponding to the rotating rotating reel, based on the lottery result of the winning combination lottery means, the operated stop switch is changed. Although the slot machine provided with the reel control means for respectively stopping and controlling the corresponding rotating reels and the effect control means for executing one of a plurality of kinds of effects has been illustrated, the invention is not limited to such a case, and a plurality of kinds including a jackpot symbol are included. Of the symbols, the symbol determination means for determining one of them, and when a predetermined fluctuation time has elapsed since the symbol was determined, the symbol display means for displaying the symbol on the symbol display part, and the jackpot symbol on the symbol display part In the transition, in the transition, a large role game executing means for executing a large role game composed of a plurality of round games, and a large winning hole is entered during a preset specific round game among round games in the large role game. When the game ball enters the specific area, it can be applied to a pachinko machine provided with a game profit giving means for giving a predetermined game profit and an effect executing means for executing an effect during a major role game.

Further, each of the processes performed by the main control board 200 and the sub control board 202 described above does not necessarily have to be performed in time series in the order described as the flowchart, and may include parallel or subroutine processing.

100 slot machines (game machines)
200 Main Control Board 200e Power Generation Unit (First Power Generation Unit)
202e Power generation unit (second power generation unit)
202 Sub control board (specific board)
350 power supply board 352 first relay board 354 main control unit (main control device)
356 Second relay board 358 Sub control unit

Claims (6)

In the predetermined board used for the progress of the game,
Electric power of a second voltage is generated from electric power of a first voltage input to the predetermined substrate to operate an electric element on the predetermined substrate and an electric element connected to the predetermined substrate. A power generation unit,
A switching circuit arranged between the electric power generation unit and an electric element connected to the predetermined substrate for switching the electric power output of the second voltage;
A gaming machine equipped with. In the predetermined substrate, power of a third voltage different from the second voltage is generated from power of the first voltage,
The gaming machine according to claim 1, wherein the electric element on the predetermined substrate is operated by electric power of the third voltage. In the predetermined board used for the progress of the game,
A switching circuit that receives power of a predetermined voltage and switches the power output of the predetermined voltage,
A control unit for controlling the switching circuit to a closed state or an open state,
A gaming machine equipped with. The gaming machine according to claim 3, wherein the control unit controls the switching circuit to be in an open state when an abnormality occurs in an electric element that uses the power of the predetermined voltage output from the switching circuit. A main control board having a main CPU for controlling the progress of the game,
A main controller that inputs a signal from the main control board or outputs a signal to the main control board,
A sub-control board that controls production,
A power supply board that supplies electric power of a first voltage to the main control board and the sub-control board, and supplies electric power of a second voltage different from the first voltage to the main control device;
A first power generation unit that is provided on the main control board and that generates power of the second voltage from power of the first voltage to operate an electric element on the main control board;
An electric element provided on the sub-control board to generate electric power of the second voltage from electric power of the first voltage to operate an electric element on the sub-control board, and an electric element connected to the sub-control board. A second power generation unit to operate,
A switching circuit disposed between the second power generation unit and an electric element connected to the sub-control board to switch a power output of the second voltage;
A gaming machine equipped with. A main control board having a main CPU for controlling the progress of the game,
A main controller that inputs a signal from the main control board or outputs a signal to the main control board,
A power supply board that supplies a power of a first voltage to the main control board and a power of a second voltage different from the power of the first voltage to the main control device;
A power generation unit that is provided on the main control board, generates power of the second voltage from power of the first voltage, and operates electric elements on the main control board;
A gaming machine equipped with.

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