JP4994878B2 - Amusement stand - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a game machine capable of efficiently and surely receiving and delivering many pieces of information in a plurality of control parts. <P>SOLUTION: This game machine is constituted by connecting a first control part to a second control part with a signal communication wire, and the first control part periodically transmits second transmission data to the second control part unless transmitting first transmission data. <P>COPYRIGHT: (C)2008,JPO&amp;INPIT

Description

  The present invention relates to a game machine represented by a slot machine, a pachinko machine, and the like.

  A slot machine, which is one of the gaming tables, has a mechanical variation display device configured by arranging a plurality of reels for variably displaying a plurality of symbols in a front display window, and according to the start operation of the player The control means drives and controls the variable display device to rotate the reels to display the symbols in a variable manner, and stops the rotation of the reels automatically or by the player's stop operation. At this time, when the symbols of the reels displayed in the display window are in a specific combination (winning mode), the player is given a profit by paying out a game medium such as a medal.

  Also, in the current mainstream model, in order to become a prize where a combination of predetermined symbols is lined up along an activated winning line (hereinafter referred to as “active line”), medals or coins are paid out, A combination of symbols indicating the winning combination of the winning combination (hereinafter referred to as “internal winning combination”) and the winning combination of the internal winning combination (hereinafter referred to as “internal winning combination”) through an effective line The player is required to perform a stop operation at a timing at which the player can stop. That is, in the current mainstream models, no matter how much the internal winning is made, if the timing of the stop operation of the player is bad, the internal winning combination cannot be won, and a technique for performing the stop operation with good timing is required.

By the way, such a game machine is generally composed of a main control board that outputs a control command and a sub-control board that operates a liquid crystal, an LED lamp, and the like based on the control command from the main control board. In addition, information is exchanged between control boards based on communication specifications that satisfy legal regulations, and a plurality of control boards operate in synchronism, thereby realizing a gaming operation as a whole gaming table. Thus, for example, a gaming machine has been proposed in which the sub-control board executes an effect based on this information by transmitting information such as the order of acceptance of stop buttons from the main control board to the sub-control board (for example, patents). Reference 1).
JP 2006-346114 A

  However, in the gaming machine described in Patent Document 1, information of different importance is transferred between control boards. For example, when the transfer of less important information merely for exciting games is increased, so-called There is a possibility that “missing command” or the like occurs, the sub-control board misses information with high importance, and it is not possible to execute the rendering process corresponding to the information with high importance.

  The present invention has been made to solve such problems, and an object of the present invention is to provide a gaming machine capable of efficiently and reliably transferring a large amount of information in a plurality of control units. To do.

  The present invention is a gaming machine in which a first control unit and a second control unit are connected by a signal communication line, and the first control unit outputs second transmission data except when there is transmission of first transmission data. Is a game stand that is configured to periodically transmit to the second control unit.

  According to the present invention, the transmission data is periodically transmitted as the second transmission data or the second transmission data as the first transmission data according to the content or importance of the information transmitted from the first control unit to the second control unit. It is possible to appropriately select whether to transmit between transmissions. Therefore, it is possible to efficiently and reliably pass information between the plurality of control units, and it is possible to avoid malfunctions due to information loss.

  The first control unit is capable of generating the first transmission data and the second transmission data within the same period, and generating the first transmission data and the second transmission data within the same period. If the first transmission data is prioritized over the second transmission data and is transmitted to the second control unit, the first transmission data may be information with high importance or urgency. By transmitting, it is possible to preferentially transmit information with higher importance and urgency than other information.

  The signal communication line includes a data signal communication line and a strobe signal communication line, and the first transmission data includes command information transmitted via the data signal communication line, and the strobe signal communication. If the second transmission data is composed only of the command information, the first control data is transmitted to the second control unit using the strobe information. Can be easily informed.

  The signal communication line includes a first data signal communication line including the strobe signal communication line and a second data signal communication line, and the first control unit includes the first transmission data and the second data transmission line. A part of the command information included in the transmission data is transmitted via the first data signal communication line, and then the rest of the command information is transmitted via the second data signal communication line. Determines the command type included in a part of the command information received via the first data signal communication line, and if it is configured to execute the process corresponding to the command type, the second control unit The type of command can be determined before receiving all the command information, and the processing corresponding to the type of command can be started quickly.

  In addition, the second control unit stores a first transmission data storage unit that stores the first transmission data received from the first control unit, and a second storage unit that stores the second transmission data received from the first control unit. The first transmission data and the second transmission data can be received in a periodic interrupt process that is periodically started, and the received command type is the second transmission data. In this case, the received second transmission data is stored in the second transmission data storage unit, and when the received command type is the first transmission data, the first transmission data in the periodic interrupt process and The reception of the second transmission data is interrupted, and the received first transmission data is converted into the first transmission data, triggered by reception of strobe information included in the first transmission data and transmitted. If the second control unit is configured to resume reception of the first transmission data and the second transmission data in the periodic interrupt process after being stored in the storage unit, the second control unit periodically acquires the second transmission data. However, when the first transmission data is received during the reception of the second transmission data, the first transmission data can be received with priority.

  In addition, the second control unit receives data from the first control unit a plurality of times at different timings, determines whether at least two of the received data match, and the at least two data If it is configured to determine whether the matched data is the first transmission data or the second transmission data when it is determined that the data match, the data transmitted from the first control unit It is possible to determine the type of data after determining the legitimacy, and to avoid malfunction due to reception of erroneous data.

  Further, the first transmission data is game information generated every time a game event occurs, and the second transmission data is member information related to a member included in the game table (unrelated to the game event). In addition, the member information can be exchanged periodically, and when a game event occurs, the game information can be exchanged quickly.

  The apparatus further includes a main body having an opening formed on the front surface and a front door attached to the opening side of the main body so as to be freely opened and closed, and the member information includes the front door closing the opening of the main body. If at least the front door closing information indicating that the front door is in the closed state and the front door opening information indicating that the front door is in the open state where the opening of the main body is open is included, the second control is performed. The unit can periodically grasp the state of the front door, and can perform control according to the state of the front door.

  The apparatus further includes an operation unit that receives an operation by a player, and the member information includes operation unit normal information indicating that the operation unit is operating normally, and that the operation unit is not operating normally. If at least the operation means abnormality information shown is included, the second control unit can periodically grasp the operation state of the operation means and can perform control according to the operation state of the operation means. .

  An operation means for accepting an operation by a player is further provided, and the member information includes operation accepted information indicating that the operation of the operation means has been accepted, and operation unaccepted information indicating that the operation of the operation means has not been accepted. The second control unit can periodically grasp the reception state of the operation means and can perform control according to the reception state of the operation means.

  In addition, when the second control unit receives the front door opening information, if a door opening effect indicating that the front door is in the open state is continuously executed for a predetermined time, a store clerk of the game shop And the player can easily grasp that the front door has been opened.

  In addition, when the second control unit receives the first transmission data during the execution of the door opening effect, the second control unit is based on the reception of the first transmission data while continuing the execution of the door opening effect. If the effect is executed, the second control unit can perform control according to the game information transmitted from the first control unit while notifying that the front door has been opened.

  In addition, the first control unit is a main control board that controls the progress of a game, and the second control unit is an effect control board that controls an effect based on information received from the main control board. The second control unit can control the presentation based on information transmitted from the first control unit.

  Further, the present invention is a game machine in which the first control unit and the second control unit are connected by a signal communication line configured by a data signal communication line and a strobe signal communication line, wherein the first control unit A gaming machine configured to be able to transmit first transmission data including strobe information transmitted via a strobe signal communication line and second transmission data not including the strobe information. .

  Further, the present invention is a game machine in which the first control unit and the second control unit are connected by a signal communication line configured by a data signal communication line and a strobe signal communication line, wherein the second control unit The first transmission data transmitted from the first control unit is received in response to the reception of the strobe information transmitted via the strobe signal communication line, and the second transmission data transmitted from the first control unit is periodically received. A gaming machine, characterized in that it is configured to receive and monitor.

  Further, the present invention is a game machine in which the first control unit and the second control unit are connected by a signal communication line configured by a data signal communication line and a strobe signal communication line, wherein the first control unit The first transmission data including the strobe information transmitted via the strobe signal communication line and the second transmission data not including the strobe information can be transmitted, and the second control unit is configured to transmit the strobe information. The gaming machine is configured to receive the first transmission data upon reception, and to monitor and receive the second transmission data periodically.

  According to the gaming machine according to the present invention, it is possible to efficiently and reliably transfer a large amount of information in a plurality of control units.

  Hereinafter, a slot machine (game table) according to Embodiment 1 of the present invention will be described in detail with reference to the drawings.

  <Overall configuration>

  First, the overall configuration of the slot machine 100 according to the first embodiment will be described with reference to FIGS. 1 and 2. 1 is an external perspective view of the slot machine 100, and FIG. 2 is a view showing a state in which the front door 102 of the slot machine 100 is opened.

  The slot machine 100 includes a substantially box-shaped main body 101 and a front door 102 attached to the front opening of the main body 101. Inside the center of the main body 101 of the slot machine 100, three reels (left reel 110, middle reel 111, and right reel 112) having a plurality of types of symbols arranged on the outer peripheral surface for a predetermined number of frames are stored. It is configured to be able to rotate inside. In the first embodiment, an appropriate number of symbols are printed on the belt-like member at equal intervals, and the reels 110 to 112 are configured by affixing the belt-like member to a predetermined circular frame material. When viewed from the player, three symbols on the reels 110 to 112 are displayed in the vertical direction from the symbol display window 113 so that a total of nine symbols can be seen. Then, by rotating the reels 110 to 112, the combination of symbols that can be seen by the player varies. In the first embodiment, three reels are provided in the center of the slot machine 100. However, the number of reels and the installation position of the reels are not limited to this.

  Further, a backlight (not shown) for illuminating each symbol displayed on the symbol display window 113 is disposed on the back surface of each reel 110 to 112. In addition, it is desirable that this backlight is shielded for each symbol so that each symbol can be irradiated evenly.

  Further, in the slot machine 100, an optical sensor (not shown) including a light projecting unit and a light receiving unit is provided in the vicinity of each of the reels 110 to 112. The light projecting unit and the light receiving unit of the optical sensor. A light-shielding piece of a certain length provided on the reel passes between them. Based on the detection result of the sensor, the position of the symbol on the reel in the rotation direction is determined, and the reels 110 to 112 are stopped so that the target symbol is displayed on the winning line 114.

  The winning line display lamp 120 is a lamp that indicates an effective winning line. An effective winning line is determined in advance by the number of medals inserted into the slot machine 100. Of the five winning lines 114, for example, when one medal is inserted, the middle horizontal winning line is valid, and when two medals are inserted, the upper horizontal winning line and the lower horizontal winning line are added. When three medals are inserted and three medals are inserted, the five added with the right-down winning line and the upper-right winning line become effective as the winning line. Note that the number of winning lines 114 is not limited to five.

  The start lamp 121 is a lamp that informs the player that the reels 110 to 112 are in a state of being able to rotate. The replay lamp 122 informs the player that the current game can be replayed (the medal insertion is not required) when a replay game that is one of the winning games in the previous game is won. It is a lamp to inform. The notification lamp 123 is a lamp that informs the player that a specific winning combination (for example, a bonus such as BB (Big Bonus) or RB (Regular Bonus)) is won internally in the internal lottery. The medal insertion lamp 124 is a lamp that notifies that a medal can be inserted. The payout number display 125 is a display for displaying the number of medals to be paid out to the player as a result of winning a winning combination. The game number display 126 is an indicator for displaying an error display when a medal is inserted, the number of games during the big bonus game (in the BB game), the number of winnings of a predetermined winning combination, and the like. The stored number display 127 is a display for displaying the number of medals electronically stored in the slot machine 100. The reel panel lamp 128 is an effect lamp.

  The medal insertion buttons 130 and 131 are buttons for inserting a predetermined number of medals stored electronically in the slot machine 100. In the first embodiment, every time the medal insertion button 130 is pressed, a maximum of three are inserted one by one, and when the medal insertion button 131 is pressed, three are inserted. The medal slot 134 is an slot for a player to insert a medal when starting a game. That is, the medal can be inserted electronically by the medal insertion button 130 or 131, or the actual medal can be inserted through the medal insertion slot 134. The payment button 132 is a button for adjusting the medals electronically stored in the slot machine 100 and the bet medals and discharging them to the medal tray 156 from the medal payout opening 155. The medal return button 133 is a button that is pressed to remove a medal when the inserted medal is jammed.

  The start lever 135 is a lever-type switch for performing a game start operation. That is, when a desired number of medals are inserted into the medal insertion slot 134 and the start lever 135 is operated, the reels 110 to 112 are rotated as a trigger, and the game is started. The stop buttons 137 to 139 are buttons for performing a stop operation on the reels 110 to 112 that have started rotating by operating the start lever 135, and are provided corresponding to the reels 110 to 112. When any one of the stop buttons 137 to 139 is operated, any one of the corresponding reels 110 to 112 is stopped.

  The door key 140 is a hole into which a key for unlocking the front door 102 of the slot machine 100 is inserted. The medal payout exit 155 is a payout exit for paying out medals. The medal tray 156 is a container for collecting medals paid out from the medal payout opening 155. The medal tray 156 employs a tray that can emit light in the first embodiment, and may be hereinafter referred to as a tray lamp.

  The upper lamp 150, the side lamp 151, the center lamp 152, the waist lamp 153, the lower lamp 154, and the saucer lamp 156 are decorative lamps for exciting the game. The effect device 157 includes, for example, a liquid crystal display device having a door (shutter) 163 that can be freely opened and closed attached to the front surface. The effect device 157 displays various information such as a small role notification. The sound hole 160 is a hole for outputting the sound of a speaker provided inside the slot machine 100 to the outside. On the title panel 162, a pattern for decorating the slot machine 100 is drawn.

  As shown in FIG. 2, a front door sensor 180 for detecting opening / closing of the front door 102 is disposed inside the right side surface of the main body 101. In this embodiment, the front door sensor 180 is configured by an optical sensor including a light projecting unit and a light receiving unit, and a light shielding piece 102A provided on the front door 102 is connected to the light projecting unit and the light receiving unit of the front door sensor 180. When the front door sensor 180 is located between the two parts, the front door sensor 180 outputs a closing signal (for example, a low level signal) indicating that the front door 102 is closed, and the light shielding piece 102A is in the front door sensor 180. When the front door sensor 180 is not located between the light projecting unit and the light receiving unit, the front door sensor 180 is configured to output an open signal (for example, a high level signal) indicating that the front door 102 is open. Has been.

  <Control unit>

  Next, the circuit configuration of the control unit of the slot machine 100 will be described in detail with reference to FIG.

  The control unit of the slot machine 100 includes a main control unit 300 that controls the central part of the game, a sub-control unit 400 that controls various devices in accordance with commands transmitted from the main control unit 300, and a liquid crystal display (LCD). And a display control unit 500 that controls the display.

  <Main control unit>

  First, the main control unit 300 of the slot machine 100 will be described.

  The microprocessor (hereinafter referred to as “Main CPU”) 310 serves as a center of control in the slot machine 100, and exchanges control signals and data with peripheral units via the bus 370.

  The random number generator 311 generates a random number, and includes a plurality of counters, a clock oscillator, a frequency divider, a latch circuit, and the like. The random value generated by the random number generator 311 is stored in the random number storage area of the RAM 313 via the bus 370 and is sent to the Main CPU 310 as necessary. There are a plurality of types of random number values, and each is used according to the processing content.

  The Main CPU 310 also includes a left stop button sensor 341 that detects which stop button is pressed when any of the stop buttons 137 to 139 is pressed via the input interface 360 and the bus 370, and a middle stop button sensor. 342, a right stop button sensor 343, a start lever sensor 344 that detects the operation of the start lever 135, a one-sheet insertion button sensor 345 that detects a pressing operation of the medal insertion button 130, and a pressing operation of the medal insertion button 131 Detecting a three-insertion button sensor 346, the above-described front door sensor 180, an adjustment button switch 348 that operates when the adjustment button 132 is pressed, and a medal inserted from the insertion slot of the medal insertion slot block 134. The first medal sensor 1) 349 and a second medal sensor (medal sensor 2) 350, a first payout sensor (payout sensor 1) 351 and a second payout sensor (payout sensor 2) 352 for detecting the payout of medals, a left reel 110, A left reel index sensor 353, a middle reel index sensor 354, and a right reel index sensor 355 for detecting the symbol position in the rotation direction of each of the middle reel 111 and the right reel 112, and a setting key switch (described later) A setting key switch sensor 182 for detecting an operation is connected to each.

  A ROM (read-only memory) 312 is one of storage means for storing programs for performing various controls, various table data to be described later, and the like. A RAM (Random Access Memory) 313 has a work area for programs processed by the Main CPU 310 and is one of storage means for storing variable data and the like. In the first embodiment, the ROM and the RAM are employed as described above, but it goes without saying that other storage means can be employed. This also applies to the sub-control unit 400 described later.

  Further, the main CPU 310 has a left reel motor drive unit for controlling a motor (not shown) that rotates the reels of the left reel 110, the middle reel 111, and the right reel 112 via the output interface 332 and the bus 370. 321, a middle reel motor drive unit 322, a right reel motor drive unit 323, a hopper control unit 331 for controlling a medal payout device (so-called hopper: see FIG. 2) 190, and a game lamp 380 (specifically, start) A lamp 121, a re-playing lamp 122, a notification lamp 123, a medal insertion lamp 124, etc.), a 7-segment (SEG) display 390 (a payout number display 125, a game number display 126, a stored number display 127, etc.); To output information inside the slot machine 100 to the outside of the slot machine 100 External centralized terminal board 392 are respectively connected.

  Further, the Main CPU 310 transmits various main control commands to the input interface 430 of the sub-control unit 400 via the output interface 332.

  <Sub control unit>

  Next, the sub control unit 400 of the slot machine 100 will be described with reference to FIG.

  The microprocessor (hereinafter referred to as SubCPU) 410 receives various commands transmitted from the main control unit 300 via the input interface 430 and the bus 470, and controls the sub control unit 400 as a whole according to the contents of the received commands. To do.

  The ROM 411 is one of storage means for storing programs and data for controlling the sub-control unit 400 as a whole. The RAM 412 has a work area for programs processed by the SubCPU 410, and is one of storage means for storing variable data and the like.

  The effect light-emitting display unit 450 includes decoration lamps such as an upper lamp 150, a side lamp 151, a center lamp 152, a waist lamp 153, a lower lamp 154, and a pan lamp 156, and LEDs that illuminate stop buttons 137 to 139 from the inside. Illuminating boards such as a mounted stop button lighting board, a start button lighting board on which an LED for illuminating the start button 135 from the inside, and a bet button lighting board on which an LED for illuminating the bet button 600 from the inside are mounted. It is a representation. The production light-emitting display unit 450 is connected to the SubCPU 410 via the output interface 420 and the bus 470, and is turned on / flashes / extinguishes according to an instruction from the SubCPU 410.

  The musical tone signal forming unit 460 forms a musical tone signal based on the control signal and data delivered from the SubCPU 410 and outputs the musical tone signal. The musical sound signal is amplified by an amplifier 461 and then output as a sound from a speaker (specifically, an upper speaker and a central speaker) 462.

  Further, the SubCPU 410 transmits various control data to the display control unit 500 via the output interface 440.

  <Display control unit>

  Next, the display control unit 500 of the slot machine 100 will be described with reference to FIG.

  A microprocessor (hereinafter referred to as a second SubCPU) 510 receives various control data transmitted from the sub-control unit 400 via the input interface 530 and the bus 570, and the liquid crystal display device according to the contents of the received command 157 is controlled.

  <Interface between main control unit and sub-control unit>

  FIG. 4 is a hardware configuration diagram of an interface between the main control unit 300 and the sub control unit 400.

  The main control unit 300 includes the output buffer 321, two flip-flop output drivers A (hereinafter simply referred to as “output port A”), and flip-flop output driver B (hereinafter referred to as “output port A”) as the output interface 332 described above. An output port 322 consisting of simply “output port B”. The control signal of 2 bytes (16 bits) output from the Main CPU 310 passes through the output buffer 321, the upper 8 bits signal is input to the input terminal of the output port A, and the lower 8 bits signal is input to the input terminal of the output port B. Is input. The upper 8 bits of the control signal are output from the output terminal of the output port A to the relay terminal board 600, and the lower 8 bits of the control signal are output from the output terminal of the output port B to the relay terminal board 600. Is done. Since the output terminals of the output ports A and B do not have a function of inputting a signal, the Main CPU 310 can output a control signal, but cannot input a control signal from the Sub CPU 410. .

  The sub-control unit 400 includes an input buffer A and an input port 422 including two input buffers B and C as the input interface 430 described above. The upper 8-bit signal output from the output terminal of the output port A of the main control unit 300 to the relay terminal board 600 is a strobe (STB) signal consisting of 1 bit of the most significant bit in the relay terminal board 600 and other signals. It is divided into 7-bit control signals. The strobe signal is input to the SubCPU 410 through the input buffer A, and the 7-bit control signal is input to the SubCPU 410 through the input buffer B. The lower 8-bit signal output from the output terminal of the output port B of the main controller 300 to the relay terminal board 600 is input to the SubCPU 410 through the input buffer C. Since the input terminals of the input buffers B and C do not have a function of outputting a signal, the SubCPU 410 can input a control signal, but cannot output a control signal to the Main CPU 310. .

  <Command table>

  FIG. 5A is a diagram illustrating an example of a command table stored in the ROM 312 of the main control unit 300. In the command table, a command type and a command length are stored in association with each other. For example, a “setting change start” command has a data length of 2 bytes (16 bits), and a “production information” command has , And a data length of 22 bytes (176 bits).

  FIG. 5B is a diagram showing a configuration example of the command. This example shows a configuration example of a command having a data length of 2 bytes, and strobe (STB) information output as the above-described strobe signal is stored in the most significant 8 bits. In the upper 2 bits following the strobe information, command type information for indicating the command type is stored. When the command type information is 00B (B indicates a binary number), the command type is “ Control command ", and when the command type information is 01B, the command type is" status command ". In the example of FIG. 5A, during the setting change, three commands of opening the front door and closing the front door are stored as state commands, and the other commands are stored as control commands.

  <Main control unit timer interrupt processing>

  Next, the timer interrupt process of the main control unit 300 will be described with reference to FIG. FIG. 3 is a flowchart showing the flow of timer interrupt processing of the main control unit 300.

  The main control unit 300 includes a counter / timer that generates a timer interrupt at a predetermined cycle (about once every 2 ms in the present embodiment). The main control unit timer interrupt processing is triggered by this timer interrupt. Run regularly.

  In step S101, the main control unit 300 acquires the status of various sensors (for example, stop button sensors 341 to 343, front door sensor 180, medal sensors 350 and 351, setting key switch sensor 182 and the like) via the input interface 360. To do. For example, when acquiring the state of the front door sensor 180, it is determined whether the signal input from the front door sensor 180 is an open signal or a close signal, and when the open signal is detected, the RAM 313 Information indicating that the front door 102 is being opened is stored in the front door state storage area, and information indicating that the front door 102 is being closed in the front door state storage area of the RAM 313 when a closing signal is detected. Remember.

  In step S102, processing relating to the progress of the game is performed.

  In step S103, control command output processing (details will be described later) is performed, and in step S104, status command output processing (details will be described later) is performed.

  In step S104, a concentrated terminal board signal output from the external concentrated terminal board 392 is set. The main control unit 300 includes signal output means capable of outputting signals indicating at least two states of “setting change” and “front door opening / closing” as a concentrated terminal board signal. This signal output means stores information indicating that “setting change is in progress” described later (when the slot machine 100 is in a state from the start of the setting change process to the end of the setting change process). When a signal indicating that the setting is being changed (for example, a high-level signal) is output and information on “setting changing” described later is not stored (when the slot machine 100 is not changing the setting), the slot machine 100 outputs a signal indicating that the setting is not being changed (for example, a low-level signal). Further, the signal output means reads information from the front door state storage area stored in step S101, and when information indicating that the front door 102 is open is stored in the front door state storage area, When a signal indicating that the front door 102 is open (for example, a high level signal) is output, and information indicating that the front door 102 is closed is stored in the front door state storage area, A signal (for example, a low level signal) indicating that the front door 102 is closed is output.

  In step S106, it is determined whether or not a power-off (power-off) has been detected. If a power-off is detected, the process proceeds to step S107 to perform a power-off detection process. If not, the process ends. To do.

  In step S107, a power failure detection process is performed. In this power interruption detection process, the current stack pointer value is saved in a predetermined storage area of the RAM 313, and then information indicating the completion of the power interruption process is stored in the power status storage area provided in the RAM 313. Further, after summing the values stored in the predetermined storage area of the RAM 313 to calculate the total value, a numerical value that is 0 when the sum is added is stored in the predetermined storage area of the RAM 313 as a checksum. Finally, after the writing to the RAM 313 is prohibited, an endless loop is entered.

  <Status command output processing>

  Next, the state command output process (step S104) in the main control unit timer interrupt process will be described with reference to FIG. This figure is a flowchart showing the flow of status command output processing.

  In step S201, it is determined whether the control command transmission flag is ON or OFF, that is, whether the control command is being transmitted. If the control command transmission flag is ON (if the control command is being transmitted). If the control command transmission flag is OFF (if the control command is not being transmitted), the process proceeds to step S202 to transmit the status command.

  In step S202, the upper byte (upper 8 bits) of the status command is output from the output port A. When transmitting the status command, the strobe information (the most significant bit of the upper byte) is set to 0.

  In step S203, after the data of the lower byte (lower 8 bits) of the status command is output from the output port B, the process ends.

  <Control command output processing>

  Next, the control command output process (step S103) in the main control unit timer interrupt process will be described with reference to FIG. This figure is a flowchart showing the flow of control command output processing.

  In step S301, a memory read process is performed. In this memory read process, a command stored in a control command transmission buffer provided in the RAM 313 is read.

  In step S302, the command type information of the command read in step S301 is confirmed, and it is determined whether or not the command type is a control command. If the command type is a control command (when the command type information is 00B), the process proceeds to step S303. Otherwise (when the command type information is other than 00B), the process proceeds to step S312.

  In step S303, it is determined whether or not the strobe output setting is set to “Yes”, that is, whether or not the strobe information is set to “1”. If the strobe output setting is set to “Yes”, the process proceeds to Step S304. If not, the process proceeds to step S308.

  In step S304, the data of the upper byte (upper 8 bits) of the control command stored in the control command transmission buffer is output from the output port A. Here, the strobe information (the most significant bit of the upper byte) is set to 1.

  In step S305, the data of the lower byte (lower 8 bits) of the control command stored in the control command transmission buffer is output from the output port B.

  In step S306, the control command transmission buffer is cleared, and in step S307, the control command clear output flag is set to ON.

  In step S308, the control command transmission flag is set to ON.

  In step S309, data of the upper byte (upper 8 bits) of the control command stored in the control command transmission buffer is output from the output port A. Here, the strobe information (the most significant bit of the upper byte) is set to 0.

  In step S310, the lower byte (lower 8 bits) of the control command stored in the control command transmission buffer is output from the output port B.

  In step S311, after setting the strobe output setting to be present (after setting 1 to the strobe information), the process is terminated.

  In step S312, it is determined whether the control command clear output flag is ON or OFF. If the control command clear output flag is ON, the process proceeds to step S313. Otherwise, the process proceeds to step S315.

  In step S313, control command clear data is output in the order of output ports A and B.

  In step S314, the control command clear output flag is set to OFF, and the process ends.

  In step S315, after the control command transmission flag is set to OFF, the process is terminated.

  <Main control unit main processing>

  Next, the main process of the main control unit 300 will be described with reference to FIG. FIG. 3 is a flowchart showing the flow of main processing of the main control unit 300.

  Basic control of the game is performed mainly by the Main CPU 310 of the main control unit 300, and the Main CPU 310 repeatedly executes the main control unit main process of FIG.

  When power is turned on to the slot machine 100, first, initial processing (details will be described later) is executed in step S401, and then processing relating to medal insertion is performed in step S402 of the main control unit main processing. Here, it is checked whether or not medals have been inserted, and the winning line display lamp 120 is turned on according to the number of medals inserted. It is not necessary to insert a medal when winning the re-game in the previous game. In step S402, a medal insertion command (control command) is transmitted to the sub-control unit 400. The sub-control unit 400 recognizes that a medal has been inserted by receiving this medal insertion command.

  In step S403, processing related to a game start operation is performed. Here, it is checked whether or not the start lever 135 has been operated. If it is determined that the start operation has been performed, the number of inserted medals is determined. In step S403, a start lever reception command (control command) is transmitted to the sub-control unit 400. The sub-control unit 400 grasps the start of the game by receiving this start lever reception command.

  In step S404, a valid pay line 114 is determined.

  In step S405, the random number generated by the random number generator 317 is acquired.

  In step S406, an internal lottery of a winning combination is performed using the random number acquired in step S405 and the winning combination lottery table stored in the ROM 312. As a result of the internal lottery, when any winning combination is won internally, the flag of the winning combination is internally set to ON. Note that the random value acquired in step S405 may be used not only for the winning combination internal lottery but also for the lottery when the reel stop control table is selected.

  In step S407, the reels 110 to 112 are started to rotate by the reel rotation start process. At this time, one of the reel stop control tables is selected with reference to the stop position data selection table based on the internal lottery result in step S406. In step S407, a reel rotation start command (control command) is transmitted to the sub-control unit 400. The sub-control unit 400 recognizes that the rotation of the reels 110 to 112 is started by receiving this reel rotation start command.

  In step S408, the reels 110 to 112 corresponding to the pressed stop buttons 137 to 139 are stopped from rotating by the reel stop control process. At this time, the reels 110 to 112 are stopped based on the reel stop control table selected in step S407. In step S408, after any of the stop buttons 137 to 139 is operated, a stop button reception command (control command) corresponding to each of the stop buttons 137 to 139 is transmitted to the sub-control unit 400. The sub-control unit 400 recognizes that any one of the stop buttons 137 to 139 has been operated by receiving this stop button reception command. In step S408, after any rotation of the reels 110 to 112 is stopped, a reel rotation stop command (control command) corresponding to each reel 110 to 112 is transmitted to the sub-control unit 400. The sub-control unit 400 grasps that the rotation of any one of the reels 110 to 112 is stopped by receiving this reel rotation stop command.

  In step S409, the winning determination of the symbols stopped when the stop buttons 137 to 139 are pressed is performed. Here, it is determined that the winning combination is won when the winning winning combination 114 corresponding to the internal winning winning combination or the winning combination having the flag carried over is arranged (displayed). . For example, if “Replay-Replay-Replay” is arranged on the validated winning line 114, it is determined that the player wins the replay. In addition, the flag corresponding to the winning combination won is reset. In step S409, a winning determination command (control command) is transmitted to the sub-control unit 400. The sub-control unit 400 grasps the end of the game by receiving this winning determination command.

  In step S410, a medal payout process is performed. In this medal payout process, if a winning combination with a payout is won, the number of medals corresponding to the winning combination is paid out.

  In step S411, a game state control process is performed. In this gaming state control process, control for changing the gaming state is performed. For example, in the case of BB winning or SRB winning, preparation is made so that BB gaming or SRB gaming can be started from the next time. Prepare to start normal games from

  Thus, one game is completed, and thereafter, the game proceeds by repeating the main control unit main process (steps S402 to S411).

  <Initial processing>

  Next, the initial process (step S401) in the main control unit main process will be described with reference to FIG. This figure is a flowchart showing the flow of initial processing.

  In step S501, it is determined whether or not the power of the slot machine 100 is turned on. If the power is not turned on, the process of step S501 is repeatedly executed until the power is turned on, and the power is turned on. Then, the process proceeds to step S502.

  In step S502, error processing is performed. In this error processing, an error determination at the time of returning from the power shutdown is performed. For example, using the checksum stored in the power interruption detection process (step S107) of the main control unit timer interruption process, It is sometimes determined whether or not the value stored in the RAM 313 is normal.

  In step S503, the setting key switch sensor 182 detects the state of the setting key switch to determine whether the setting key switch is ON or OFF. If the setting key switch is OFF, the process proceeds to step S504, and the setting key switch If is ON, the process proceeds to step S505 to perform setting change processing.

  In step S504, after other return processing is performed, the processing ends.

  In step S505, the predetermined storage area of the RAM 313 is initialized, and in step S506, “setting changing” information indicating that the setting of the slot machine 100 is being changed is set (stored) in the predetermined storage area of the RAM 313. Thereby, in step S105 of the main control unit timer interruption process, a signal indicating that the setting of the slot machine 100 is being changed is output from the external concentration terminal board 392.

  In step S507, the state of the start lever sensor 344 is detected, and in step S508, it is determined whether or not the start lever 135 has been operated (whether or not the set value has been confirmed). When the start lever 135 is operated (when the set value is confirmed), the process proceeds to step S509. Otherwise, the processes of steps S507 and S508 are repeatedly executed.

  In step S509, the determined setting value is stored in a predetermined storage area of the RAM 313. In step S510, a display setting value is set.

  In step S511, the “setting change in progress” information set in step S506 is reset (erased). As a result, in step S105 of the main control unit timer interrupt process, a signal indicating that the setting of the slot machine 100 is not being changed is output from the external concentration terminal board 392.

  In step S512, the setting key switch sensor 182 detects the state of the setting key switch. In step S513, it is determined whether the setting key switch is ON or OFF. If the setting key switch is ON, the setting key switch is turned OFF. Step S512 is repeated until the setting key switch is OFF, and the setting change processing is terminated.

  In the present embodiment, when the information “setting is being changed” is set in step S506, a signal indicating that the setting is being changed by the slot machine 100 is output from the external concentrated terminal board 392. In step S511, “ When the information “setting change” is reset, the slot machine 100 is configured to output a signal indicating that the setting is not being changed from the external concentration terminal board 392. However, the present invention is not limited to this, for example, In step S511, the information indicating that the setting is being changed is not reset, and after the processing in step S513, the information indicating that the setting is being changed is reset. You may comprise so that it may output from the board 392. Further, the present invention is not limited to the case where the signal is continuously output during the period from the start to the end of the setting change process. For example, the fact that the set value of the slot machine 100 is confirmed after the process of step S508. A confirmation signal (for example, a one-shot pulse signal) may be output.

  <Output example of control command and status command>

  Next, output examples of control commands and status commands will be described with reference to FIG.

  In the main control unit timer interrupt process (control command output process) at the timing of FIG. 2B, the control command transmission flag is set to ON (step S308), and the upper byte of the control command (strobe information is 0) Is output to the output port A (step S309), and the lower byte of the control command is output to the output port B (step S310). Further, the strobe information is set to 1 (step S311). On the other hand, in the main controller timer interrupt process (status command output process) at the same timing, since the control command transmission flag is set to ON, the process ends without outputting the status command.

  In the main control unit timer interrupt process (control command output process) at the timing of FIG. 3 (3), after the upper byte of the control command whose strobe information is set to 1 in (2) is output to the output port A (step (S304), the lower byte of the control command is output to the output port B (step S305). Further, the control command transmission buffer is cleared and the control command clear output flag is set to ON (steps S306 and S307). In the main controller timer interrupt process (status command output process) at the same timing, since the control command transmission flag is set to ON, the process ends without outputting the status command.

  In the main control unit timer interrupt process (control command output process) at the timing of FIG. 4 (4), the control command clear output flag is set to ON. Data) is output (step S313). Further, the control command clear output flag is set to OFF (step S314). In the main controller timer interrupt process (status command output process) at the same timing, since the control command transmission flag is set to ON, the process ends without outputting the status command.

  In the main controller timer interrupt process (control command output process) at the timing (5) in the same figure, since the control command clear output flag is set to OFF, the control command transmission flag is set to OFF (step S315). On the other hand, in the main controller timer interrupt process (status command output process) at the same timing, since the control command transmission flag is set to OFF, the upper byte of the status command (strobe information is 0) is output to the output port A. (Step S202), the lower byte of the status command is output to the output port B (Step S203).

  In the main controller timer interrupt process (status command output process) at timing (6) in the same figure, since the control command transmission flag is set to OFF, the upper byte (strobe information is 0) of the status command is set. After output to the output port A (step S202), the lower byte of the status command is output to the output port B (step S203). If the control command is not transmitted (not shown), the output of the status command at the timing (6) in FIG. 6 is repeatedly executed by the main control unit timer interrupt process.

  In this example, the clear data is output to the output ports A and B in the main control unit timer interrupt process (control command output process) at the timing shown in FIG. Output the status command in the main controller timer interrupt process (status command output process) at the same timing without outputting the clear data in the main controller timer interrupt process (control command output process) at the timing of 4) You may comprise.

  In addition, although an example in which one type of “status C” is output as the status command has been shown, for example, two types of “status C1 (for example, information during setting change)” and “status C2 (for example, opening and closing the front door) In the case of separately outputting “information”), “state C1” and “state C2” may be alternately output, and “state C1” and “state C2” are switched and output at regular intervals. The output timing of “state C1” and “state C2” may be switched based on the gaming state, etc., and “state C1” has higher priority than “state C2”. May be determined so that “state C2” is not transmitted at the output timing of “state C1” having a high priority. In addition, when “status C1” includes information indicating that the setting is being changed and “status C2” includes information regarding opening / closing the front door, the front door 102 should be open during the setting change processing. , Only “status C1 (information during setting change)” is output as the status command, and “status C1 (information during setting change)” and “status C2 (information about opening / closing the front door)” after the setting change processing is completed. You may comprise so that both may be output.

  Moreover, although the data length of the control command and the status command is 2 bytes, the data length of the control command and the status command according to the present invention is not limited to this. For example, as shown in FIG. A 4-byte control command consisting of control C1 and control C2 having a 2-byte length can also be applied (the same applies to the status command). In the figure, an example is shown in which clear data is output after the outputs of the control C1 and the control C2, respectively, but it is needless to say that the present invention is not limited to this. Further, a configuration may be adopted in which information indicating the command data length is added to the command so that the sub-control unit 400 can grasp the command data length when receiving the command.

  <Sub control section interrupt processing>

  Next, the interrupt process of the sub control unit 400 will be described with reference to FIG. This figure is a flowchart showing the flow of the sub-control unit interrupt process.

  The sub-control unit 400 includes a counter / timer that generates a timer interrupt at a predetermined cycle (in this embodiment, about once every 1 ms). The sub-control unit interrupt processing is periodically performed in response to this timer interrupt. The sub-control unit interrupt process is irregularly triggered by an external interrupt by a strobe signal input from the main control unit 300 or an NMI (non-maskable interrupt).

  In step S601, status command processing is performed. Although details will be described later, in this status command processing, a status command is acquired in response to a timer interrupt.

  In step S602, control command processing is performed. Although details will be described later, in this control command processing, a control command is acquired in response to an external interrupt by a strobe signal.

  In step S603, after other processing is performed, the processing ends. Here, processing at power interruption triggered by NMI, update processing of various counters / timers triggered by timer interruption, and the like are performed.

  <Status command processing>

  Next, the state command process (step 601) in the sub control unit interrupt process will be described with reference to FIG. This figure is a flowchart showing the flow of status command processing.

  In step S701, it is determined whether the status command reception flag is ON or OFF. If the status command reception flag is ON, the process proceeds to step S702, and if the status command reception flag is OFF, the process ends.

  In step S702, the command is received three times from the input port 422. More specifically, the value of the input port 422 is read three times, and each of the three values is stored in a state command storage area provided in the RAM 412.

  In step S703, it is determined whether all the commands stored in step S702 match. If all the commands match, the process proceeds to step S704. If the commands do not match, the process ends.

  In step S704, it is determined whether or not the matched command is a control command. If the command is a control command, the process proceeds to step S706 where the status command reception flag is set to OFF, and the command is not a control command. In step S705, the command (status command) is stored in the status command storage area of the RAM 412.

  <Control command processing>

  Next, the control command process (step 602) in the sub-control unit interrupt process will be described with reference to FIG. This figure is a flowchart showing the flow of control command processing.

  In step S801, it is determined whether the status command reception flag is ON or OFF. If the status command reception flag is ON, the process proceeds to step S802. If the status command reception flag is OFF, the process proceeds to step S803.

  In step S802, after the status command reception flag is set to OFF, the process proceeds to step S803.

  In step S803, the command is received from the input port 422 three times. More specifically, the value of the input port 422 is read three times (by receiving the strobe signal), and each of the three values is stored in the control command storage area provided in the RAM 412.

  In step S804, it is determined whether two or more commands match among the commands stored in step S803. If two or more commands match, the process proceeds to step S805. If no command matches, the process proceeds to step S808.

  In step S805, it is determined whether or not the matched command is a defined command (predetermined control command). If the command is a defined command, the process proceeds to step S806, and if the command is not a defined command. Advances to step S808.

  In step S806, it is determined whether the command queue state is waiting, that is, whether the control command storage area (main command queue) for storing the control command is full. If there is no free space in the control command storage area (if NO is determined in step S806), the process proceeds to step S808. If there is free space in the control command storage area (YES in step S806). In step S807, the command is stored in the control command storage area (main command queue).

  In step S808, after the status command reception flag is set to ON, the process ends.

  In this embodiment, when a control command is received during acquisition of a status command, the acquisition of the status command is temporarily interrupted and priority is given to acquisition of the control command. For example, acquisition of a status command by status command processing and acquisition of a control command by control command processing may be performed in parallel.

  <Sub control section main processing>

  Next, the main process of the sub control unit 400 will be described with reference to FIG. This figure is a flowchart showing the flow of the main process of the sub control unit.

  In step S901, initialization processing is performed. In this initialization process, various initializations such as variable initialization are performed.

  In step S902, it is determined whether a command is stored in the control command storage area (main command queue). If the command is stored, the process proceeds to step S903. If the command is not stored, the process proceeds to step S904.

  In step S903, game effect processing (details will be described later) is performed.

  In step S904, it is determined whether or not a status command is stored in the status command storage area. If the command is stored, the process proceeds to step S905. If the command is not stored, the process proceeds to step S906.

  In step S905, state effect processing (details will be described later) is performed.

  In step S906, it is determined whether or not there is an output request to each device driver. If there is an output request, the process proceeds to step S907 to output control data to each device driver. If there is no output request, step S906 is performed. The process returns to S902.

  In step S908, it is determined whether there is a command output request to the display control unit 500. If there is an output request, the process proceeds to step S909, and if there is no output request, the process returns to step S902.

  In step S909, after outputting a command to the display control part 500, it returns to step S902.

  The SubCPU 410 of the sub-control unit 400 repeatedly executes the above processing unless it detects a power failure or the like.

  <Game effect processing, state effect processing>

  Next, an example of the game effect process in step S903 and the state effect process in step S905 will be described with reference to FIG. FIG. 15A is a diagram showing an example of a state effect table in which the contents of the state effect are stored. In the state effect table, the state command, the outline of the effect corresponding to each state command, and the effect duration time are shown. Are stored in association with each other. In the state effect process, the effect is controlled based on the contents of the state effect table. For example, when the sub-control unit 400 receives the “front door close” command of the state command, it is shown in FIG. The door closing effect is performed. In this door closing effect, a game effect sound output during a normal game is output from the speaker 462, and a display such as “door closed” is displayed on the normal game screen displayed on the liquid crystal display (LCD). Inform the outside that the front door 102 is closed. Further, when the sub control unit 400 receives the “front door open” command of the state command, the door opening effect as shown in FIG. In this door opening effect, only a door opening effect sound (for example, a sound such as “the front door is open”) is output from the speaker 462 for a predetermined time (in this example, 30 seconds), and a liquid crystal display device (LCD). Is displayed on the normal game screen displayed on the screen to notify the outside that the front door 102 is open.

  The state effect is not limited to such an effect. For example, even if a decorative lamp or a movable body such as the door 163 is used, the opening / closing state of the front door 102 is notified to the outside. Good. FIG. 15C shows an example in which only the door opening effect sound is output from the speaker 462. However, when the game is started before a predetermined time (30 seconds) elapses, the door opening effect sound is output. And the game effect sound may be output from the speaker 462, or the output of the door opening effect sound may be maintained while restricting the game effect sound from being output. In addition, the figure shows an example of displaying “front door is open” on the normal game screen displayed on the liquid crystal display device, but the front of the game by freezing (interrupting) the effect in normal game You may comprise so that it may alert | report to the exterior that the door 102 is open.

  On the other hand, in the game effect process, various game effects are performed based on the reception of the control command. For example, the error effect is performed by receiving the control command in which an error has occurred. In order not to be equalized, an effect that is started by receiving a control command is configured to be executed with priority over an effect that is started by receiving a status command. However, in this embodiment, since the state command is periodically acquired in response to the timer interruption, the state effect process is executed based on the state command periodically acquired after the game effect process is executed. do it. Furthermore, since the main control unit 300 is configured to be able to transmit the status command once every about 2 ms, the sub-control unit 400 is capable of promptly responding to the status command transmitted by the main control unit 300. The main control unit 300 is configured to be able to receive the status command at a timing (once every 1 ms) that is shorter than the timing at which the status command is transmitted (once every 2 ms), but is not limited to this. The configuration may be such that the status command can be received by appropriately setting a timing (for example, once every 5 ms) longer than the timing at which the unit 300 transmits the status command. The timing at which the main control unit 300 transmits the status command can also be set as appropriate, but the timing according to the type of the status command (for example, if monitoring the opening / closing of the door, the minimum time required for opening / closing the door) It is preferable to set the time appropriately.

  As described above, in the slot machine 100 according to the present embodiment, the first control unit (main control unit in the present example) 300 and the second control unit (sub control unit in the present example) 400 are connected to the signal communication line. The first control unit 300 periodically transmits the second transmission data (status data in this embodiment) except when there is transmission of the first transmission data (control data in this embodiment). Therefore, the second control unit 400 is configured to transmit to the second control unit 400.

  According to the slot machine 100 according to the present embodiment, the first transmission unit periodically transmits the second transmission data or the first transmission according to the content or importance of the information transmitted from the first control unit to the second control unit. It can be set as appropriate whether data is transmitted between transmissions of the second transmission data. For this reason, it is possible to efficiently and reliably transfer a large amount of information between the plurality of control units.

  In addition, the first control unit 300 can generate the first transmission data and the second transmission data within the same period (main control unit timer interrupt process in the present embodiment), and the first transmission data and the first transmission data within the same period. When the second transmission data is generated, if the first transmission data is prioritized over the second transmission data and is transmitted to the second control unit 400, information with high importance or urgency is displayed. By transmitting as the first transmission data, it is possible to preferentially transmit information with higher importance and urgency than other information.

  The signal communication line includes a data signal communication line and a strobe signal communication line, and the first transmission data is transmitted via the data signal communication line, command information transmitted via the data signal communication line, and the strobe signal communication line. If the second transmission data is composed only of command information, the second control unit can be easily notified of the transmission of the first transmission data using the strobe information. .

  The signal communication line includes a first data signal communication line including a strobe signal communication line and a second data signal communication line, and the first control unit 300 transmits the first transmission data and the second transmission data. After a part of the command information included (upper command in this embodiment) is transmitted via the first data signal communication line, the rest of the command information (lower command in this embodiment) is transmitted via the second data signal communication line. The second control unit 400 is configured to determine a command type included in a part of the command information received via the first data signal communication line and to execute a process corresponding to the command type. Then, the second control unit can determine the type of command before receiving all the command information, and can quickly start processing according to the type of command.

  Further, the second control unit 400 includes a first transmission data storage unit (a control command storage area of the RAM 412 in this embodiment) that stores the first transmission data received from the first control unit 300, and the first control unit 300. A second transmission data storage unit (in this embodiment, a state command storage area of the RAM 412) for storing the received second transmission data, and a periodic interrupt process (sub control unit allocation in this embodiment) that is periodically started. 1st transmission data and second transmission data can be received in the data transmission process), and when the received command type is the second transmission data, the received second transmission data is stored in the second transmission data storage unit. If the received command type is the first transmission data, the reception of the first transmission data and the second transmission data in the periodic interrupt process is interrupted and included in the first transmission data. Upon reception of received strobe information, the received first transmission data is stored in the first transmission data storage unit, and then reception of the first transmission data and the second transmission data in the periodic interrupt process is resumed. If the first transmission data is received during reception of the second transmission data, the second control unit preferentially receives the first transmission data while periodically acquiring the second transmission data. can do.

  Further, the second control unit 400 includes a first transmission data storage unit (a control command storage area of the RAM 412 in this embodiment) that stores the first transmission data received from the first control unit 300, and the first control unit 300. If a second transmission data storage unit (in this embodiment, a state command storage area of the RAM 412) for storing the received second transmission data is provided, the first transmission data with different transmission timing from the first control unit and The second transmission data can be reliably received and stored.

  Further, the second control unit 400 receives data from the first control unit 300 a plurality of times (three times in the present embodiment) at different timings, and whether or not at least two of the received plurality of data match. If it is configured to determine whether the matched data is the first transmission data or the second transmission data when it is determined that at least two pieces of data match, the first control unit It is possible to determine the type of data after determining the legitimacy of the data to be transmitted, and to avoid malfunction due to reception of erroneous data.

  The first transmission data includes game events (medal insertion, electronic medal insertion operation with a bet button, game start operation with a start lever, reel rotation start, reel stop operation with a stop button, reel rotation stop, etc. If the second transmission data is member information relating to a member included in the game table, the member information can be periodically transferred. In addition, when a game event occurs, game information can be quickly exchanged.

  Further, the apparatus further includes a main body 101 having an opening formed on the front surface, and a front door 102 attached to the opening side of the main body 101 so as to be openable and closable. If at least the front door closing information indicating that the front door 102 is in the closed state and the front door opening information indicating that the front door 102 is in the open state where the opening of the main body 101 is opened are included, the second The control unit can periodically grasp the state of the front door, and can perform control according to the state of the front door. Therefore, for example, in the case where the sub-control unit 400 repeatedly receives the front door closing information and the front door opening information a plurality of times (when the front door 102 is continuously opened and closed a plurality of times), an error notification is issued. Or when the information is received in the order of the front door closing information → the front door opening information → the front door closing information (when the front door 102 is opened and closed once by a store clerk or the like), Special effects (such as a premier effect with a low execution frequency in the normal effect, an effect that is executed only when the door opens or closes, etc.) to give benefits to the player whose game has been interrupted May be. In this case, the special effect may be performed immediately after receiving the second front door closing information, or the special effect may be performed after several games have elapsed since the second reception of the front door closing information.

  Further, in this embodiment, the main control unit 300 can also grasp the opening / closing information of the front door, so that the main control unit 300 is in the case where the front door 102 is opened while the reels 110 to 112 are rotating. In addition, the front door 102 is opened while the rotating reels are stopped so that the symbol combinations corresponding to the winning combination won by the internal lottery are not prepared, or medals are being paid out by the medal payout device. In such a case, the medal payout may be interrupted, and the medal payout may be resumed when the front door 102 is closed. In addition, the main control unit 300 clears (initializes) the game information within a range that does not disadvantage the player when the front door 102 is in the open state, or changes the front door 102 from the open state to the closed state. In this case, the game information can be set in an advantageous state (for example, a lottery for adding the number of replay times is executed and the replay time for the number of times determined by the lottery is increased).

  Moreover, if the 2nd control part 400 receives the front door opening information, if the door opening production which suggests that the front door 102 is in an open state is continuously performed for a predetermined period of time, a store clerk and a game A person or the like can easily grasp that the front door has been opened.

  In addition, when receiving the first transmission data during execution of the door opening effect, the second control unit 400 executes the effect based on the reception of the first transmission data while continuing the execution of the door opening effect. For example, the second control unit can perform control according to the game information transmitted from the first control unit while notifying that the front door has been opened.

  The “member information” according to the present invention is not limited to the state of opening / closing the front door detected by the front door sensor 180 or the state of changing the setting. For example, the states of the stop buttons 137 to 139 detected by the stop button sensors 341 to 343 remain the same even after a lapse of a predetermined time (example) : When the stop buttons 137 to 139 are kept pressed for 10 seconds), the state of the presence or absence of abnormality of the operation means, and the state of the stop buttons 137 and 138 detected by the stop button sensors 341 and 342 are the same. (For example, when both the stop buttons 137 and 138 are pressed at the same time) In addition, the state of the start lever 135 detected by the start lever sensor 344 during the period when the game start operation for starting the game is not accepted, and the stop button sensors 341 to 343 during the period when the reel rotation stop operation for stopping the rotation of the reel is not accepted. The state of the stop buttons 137 to 139 detected by, the state of the medal insertion buttons 130 and 131 detected by the one-sheet insertion button sensor 345 and the three-sheet insertion button sensor 346 during the period when the insertion of medals is not accepted, and the settlement of medals are accepted. The state of the settlement button 132 detected by the settlement button sensor during the period when the settlement button is not included. Furthermore, the attachment of the connector member attached to the end of the harness connected to the start lever sensor 344, the stop button sensors 341 to 343, the 1 sheet insertion button sensor 345, the 3 sheet insertion button sensor 346, the adjustment button sensor, and the like. It may be in a state (state of whether or not it is normally attached). As described above, the apparatus further includes an operation unit that receives an operation by the player, and the member information indicates operation unit normal information indicating that the operation unit is operating normally and that the operation unit is not operating normally. If at least the operation means abnormality information is included, the second control unit can periodically grasp the operation state of the operation means, and can perform control according to the operation state of the operation means. Further, in a period that is not a period for accepting the reel rotation stop operation for stopping the rotation of the reels, information on the state of the stop buttons 137 to 139 detected by the stop button sensors 341 to 343 is obtained, and this is used as an opportunity to execute the effect. It is also possible (for example, information on operation explanations corresponding to the operation of the stop buttons 137 to 139 is displayed during the demonstration period). As described above, if the member information includes at least the operation accepted information indicating that the operation of the operation unit has been accepted and the operation unaccepted information indicating that the operation of the operation unit has not been accepted, 2 The control unit can periodically grasp the reception state of the operation means, and can perform control according to the reception state of the operation means.

  In addition, the “member information” according to the present invention includes the state of various components (such as the presence / absence of abnormality) mounted on the game machine. For example, the reels 110 to 112 detected by the reel index sensors 353 to 355. , The state of the medal insertion device detected by the medal sensors 349 and 350, the state of the hopper 190 detected by the payout sensors 351 and 352, the main board constituting the main control unit 300, and the sub control board constituting the sub control unit 400 , Connectors, liquid crystal display device 157, door 163, speaker 462, decorative lamps, and the like.

  In the above embodiment, the control command and the status command are output in the order of the upper byte and the lower byte, but the present invention is not limited to this. For example, as shown in FIG. After the control command is output in the order of the upper byte and the lower byte at the timing of 2), the status command may be output in the order of the lower byte and the upper byte at the timing of FIG. With this configuration, the sub-control unit 400 receives the upper byte earlier than the lower byte of the control command, so that it can quickly know that the command type is the control command, and perform processing corresponding to the control command. In addition to being able to perform quickly, the sub-control unit 400 receives the lower byte earlier than the upper byte of the status command, so that the analysis of the status command in the sub-control unit 400 can be intentionally delayed, and the status command is supported. There is a case where it is not necessary to execute the processing to be performed more than necessary.

  The gaming machine according to the present invention is provided with a plurality of reels having a plurality of types of symbols, a start lever for starting the rotation of the reels, and a reel corresponding to each of the reels. A stop button for individually stopping, a lottery means for determining whether or not an internal winning of a predetermined role is won by lottery, and a reel stop for stopping a reel based on a determination result of the lottery means and an operation of the stop button And a slot configured to win the winning combination when the combination of symbols displayed by the reel at the time of stoppage is a predetermined symbol combination corresponding to the winning combination internally. Although it is suitable for a machine, it is not limited to the structure of a slot machine as shown in the above embodiment.

  Therefore, for example, in the above embodiment, an example of a slot machine using medals (coins) as a game medium has been shown, but the present invention is not limited to this, and for example, a game ball (for example, a pachinko ball) It can also be applied to slot machines and pachinko gaming machines that use the above as game media.

  Here, the pachinko gaming machine to which the present invention is applied includes a variable display device that has a movable body such as a reel (rotating body) and displays a predetermined pattern (identification information) in a variable manner, and a game ball at the start winning opening An example is a pachinko gaming machine in which a variable display device displays a stop after a symbol is changed, and notifies a transition of a gaming state, triggered by winning a prize.

  In such a pachinko gaming machine, when a game ball enters the start winning opening, a lottery is performed and it is determined whether or not the lottery result is a win. When winning the jackpot in this lottery, the variable display device displays a combination (a jackpot symbol; for example, 777) based on a specific symbol and shifts to a jackpot state. In the big hit state, for example, the big prize opening is kept open for a predetermined time or a predetermined number of times, so that the game ball is easy to enter and a state advantageous to the player is realized. In addition, if the combination of a specific symbol (hit jackpot symbol) is a jackpot symbol (probability variation symbol) with probability fluctuation, the probability of the next jackpot will be higher, and a more advantageous state for the player will be realized .

  In addition to the actual machines such as the slot machines and pachinko gaming machines described above, the gaming machine according to the present invention executes the operations of the actual machines such as the slot machines for arcade game machines and home game machines in a pseudo manner. Even in such a game program, a game can be executed by applying the present invention. In that case, a DVD-ROM, CD-ROM, FD (flexible disk), or any other recording medium can be used as a recording medium for recording the game program.

  In addition, the actions and effects described in the above embodiments are merely a list of the most preferable actions and effects resulting from the present invention, and the actions and effects according to the present invention are limited to those described in the above embodiments. It is not something.

  The present invention can be applied to game machines represented by slot machines and pachinko machines.

FIG. 3 is an external perspective view of the slot machine according to Embodiment 1 of the present invention. It is the figure which showed the state which opened the front door of the slot machine. It is a circuit block diagram of the control part of the slot machine. 3 is a hardware configuration diagram of an interface between a main control unit and a sub control unit of the slot machine. FIG. (A) It is the figure which showed an example of the command table memorize | stored in ROM of the main-control part. (B) It is the figure which showed the structural example of the command. It is a flowchart which shows the main control part timer interruption process in the slot machine. It is a flowchart which shows the status command output process in the slot machine. It is a flowchart which shows the control command output process in the slot machine. It is a flowchart which shows the main control part main process in the slot machine. 4 is a flowchart showing an initial process in the slot machine. It is the timing chart which showed the output example of the control command and the status command. It is the timing chart which showed the other output example of the control command and the status command. (A) It is a flowchart which shows the sub control part interruption process in the slot machine. (B) is a flowchart showing status command processing in the slot machine. (C) is a flowchart showing control command processing in the slot machine. It is a flowchart which shows the sub control part main process in the slot machine. (A) It is the figure which showed an example of the state effect table which memorize | stored the content of the state effect. (B) It is the figure which showed an example of the door closing effect. (C) It is the figure which showed an example of the door opening effect. 10 is a timing chart showing still another output example of a control command and a status command.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Slot machine 101 Main body 102 Front door 110, 111, 112 Reel 113 Symbol display window 130, 131 Medal insertion button 132 Set-up button 135 Start lever 137, 138, 139 Stop button 180 Front door sensor 182 Setting key switch sensor 300 Main control part 322 Output port 392 External concentration terminal board 400 Sub control unit 422 Input port 500 Display control unit

Claims (3)

A main control board for controlling the progress of the game;
A game console in which an effect control board that controls an effect based on information received from the main control board is connected by a signal communication line,
The main control board is
Except when there is transmission of first transmission data that is transmission data to the effect control board, second transmission data that is transmission data to the effect control board is periodically transmitted to the effect control board. And
The first transmission data and the second transmission data can be generated within the same period, and the first transmission data is preferentially transmitted to the effect control board over the second transmission data,
The signal communication line is
It consists of a data signal communication line and a strobe signal communication line,
The first transmission data is:
Command information transmitted via the data signal communication line, and strobe information transmitted via the strobe signal communication line.
The second transmission data is:
It consists only of the command information,
The type of command information constituting the first transmission data and the type of command information constituting the second transmission data are different command types,
The main control board is
In periodic interrupt processing that is started periodically,
A first transmission process capable of transmitting the first transmission data;
Executing a second transmission process capable of transmitting the second transmission data;
The first transmission process includes:
When there is the first transmission data in the transmission data,
While setting the command information and the strobe information to be transmitted to the effect control board, and setting information indicating that the first transmission data is being transmitted,
When there is no first transmission data in transmission data,
Setting information indicating that the first transmission data is not being transmitted;
The second transmission process includes
When the transmission data includes the second transmission data and information indicating that the first transmission data is being transmitted is set,
While preventing the second transmission data from being transmitted,
When the transmission data includes the second transmission data and information indicating that the first transmission data is not being transmitted is set,
Set to transmit the second transmission data,
The production control board is:
A transmission data storage unit for storing the first transmission data and the second transmission data received from the main control board;
A process of storing the received first transmission data in the transmission data storage unit, triggered by reception of strobe information transmitted included in the first transmission data,
And a process of storing the received second transmission data in the transmission data storage unit. The production control board is:
A first transmission data storage unit that stores the first transmission data received from the main control board; and a second transmission data storage unit that stores the second transmission data received from the main control board;
In interrupt processing triggered by reception of the strobe information,
Performing a first reception process for receiving the first transmission data;
In periodic interrupt processing that is started periodically,
Performing a second reception process for receiving the second transmission data;
The first reception process includes
When the received command type is the first transmission data, the second reception process is interrupted, the received first transmission data is stored in the first transmission data storage unit, and then the second reception process is performed. Is configured to resume
The second reception process includes
When the received command type is the second transmission data, the received second transmission data is stored in the second transmission data storage unit,
The game table according to claim 2. The signal communication line is
A first data signal communication line including the strobe signal communication line; and a second data signal communication line.
The main control board is
After transmitting a part of the command information included in the first transmission data and the second transmission data via the first data signal communication line, the rest of the command information is transmitted via the second data signal communication line. Send
The production control board is:
The command type included in a part of the command information received via the first data signal communication line is determined, and the process corresponding to the command type is configured to be executable.
The game table according to claim 1 or 2.