JP4107466B2 - Game machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention has a variable display game means capable of executing a variable display game that displays a plurality of pieces of identification information in a variable manner and stops them, and when giving a privilege to a player as a result of the variable display game, The present invention relates to a gaming machine (for example, a pachinko machine) in which the variation display result of the identification information is a specific stop mode.
[0002]
[Prior art]
  For example, on a game board of a “first type” pachinko machine, display of a display device capable of variably displaying a plurality of identification information (what is called a special figure) for each of a plurality (usually three columns) of display areas A game control device that controls the entire game in an integrated manner, and a display control device that is a lower-level control device of the game control device, the game by the variable display of the special figure in the display unit (that is, (Variable display game) is performed. That is, apparently, the stop mode (the combination of the symbols of the stopped special figure) that is the display result of the fluctuation of the special figure is a predetermined specific combination of symbols (for example, “7,7,7”). If it becomes, the privilege with respect to the player called what is called a big hit will be provided. In some cases, for example, in order to give the player a sense of expectation for a big hit at a time near the end of the special figure fluctuation display, special figure fluctuation display (so-called reach action) is performed in a special manner.
[0003]
  In addition, among the specific combinations of identification information that are jackpots (hereinafter referred to as jackpot symbols), if the combination becomes more special (for example, “7, 7, 7” doublet), the gaming state after the jackpot is the game It is controlled to generate a special gaming state that is more advantageous to the player. That is, a probability variation (so-called probability variation) that increases the probability of winning a big hit, or a variation time shortening that shortens the variation time of the special diagram in order to increase the variation display frequency of the special diagram. In addition, the special combination of the special figure in which this probability change etc. is performed is called a special symbol below.
[0004]
  Conventionally, the generation and selection of special symbol stop symbol combinations (stop mode) are classified into jackpot symbols (specific stop mode) and other outlier symbols, and these two categories are simply executed separately. Was configured. That is, for example, by randomly selecting each symbol based on a random number of symbols that are updated and extracted periodically, a symbol that is different from the jackpot symbol is periodically generated separately and updated each time in a separate storage area of the storage means. The configuration is to memorize. Then, in the jackpot determination process using the jackpot random number performed when the start condition for the variable display game (usually, in the case of a pachinko machine, winning at the start winning opening) is established, The symbol stored in the symbol storage area is taken out as the variation display stop mode, and if it is determined to be off, the symbol stored in the loss symbol storage region is extracted as the variation display stop mode. .
  In addition, the selection of the special display variable display mode (whether or not to perform reach action, what type of reach action to perform, or the length of the variable time) is selected from among a plurality of set variable display modes described above. As described above, the selected stop mode is selected from those that can be realized.
[0005]
[Problems to be solved by the invention]
  Therefore, conventionally, whether or not the reach action is performed when the result of the variable display game is out of place (when the game is not a big hit) is determined by the stop mode in which the reach action can be executed in the storage area of the outage stop symbol when the stop mode is selected. It depends on whether it is stored (stored). In other words, for example, if a big hit is always made with a doublet, the reach action cannot be executed unless all symbols except for one of the symbols constituting the stop mode are the same symbol (for example, “7, 1, 7”, etc.). If this is not the case, the possibility of a reach action being zero is zero. This is the same for the so-called super reach action (one of the symbols constituting the stop mode is different from the jackpot symbol by one symbol), and the selected stop mode is, for example, “7, 6, If it is not “7” or “7, 8, 7”, it will not be executed.
  For this reason, for example, in a configuration in which uniform random numbers are simply used as the design random numbers (a configuration in which the appearance rate is the same for any combination of symbols), the appearance rate of a specific variation mode such as reach action or super reach action is In order to respond to the recent trend in the field of this type of gaming machine, it is determined to be a constant small value depending on the type of the number of symbols and the number of rows of symbols (the number of variable display areas of special figures, usually 3 columns). It becomes difficult to enhance the interest of the game by various productions. That is, in the field of this type of gaming machine, there is a direction to provide a game that never gets tired to the player by increasing the appearance rate of reach action or manipulating the appearance rate of a specific variation mode. The conventional simple configuration alone cannot sufficiently cope with such directionality because the appearance rate of a specific variation mode is uniquely determined to be a small constant value.
  In order to solve the above problem, for example, a stop symbol is generated without using a uniform random number, or a variation mode is selected regardless of the selected stop mode, and then selected. The appearance rate of a specific variation mode is increased by performing a process of correcting the stop mode as necessary so that the variation mode can be realized. However, in this case, there is a disadvantage that the control processing for that purpose becomes extremely complicated.
[0006]
  Accordingly, an object of the present invention is to provide a gaming machine that realizes the appearance of various variation modes as designed by simple processing, thereby enabling a game that does not get tired of the player.
[0007]
[Means for Solving the Problems]
  In order to achieve the above object, a gaming machine according to the first aspect of the present invention has a variable display means for executing a variable display game that displays a plurality of pieces of identification information in a variable manner and stops them, and changes the plurality of pieces of identification information. When a specific stop mode is derived as a display result, in a gaming machine that can grant a privilege to a player,
  Stop mode generation means for repeatedly executing the process of generating the stop mode of the identification information at a predetermined timing;
  Stop mode storage means having a plurality of storage areas for storing and storing the stop mode for each of a plurality of predetermined stop mode patterns;
  A stop mode update unit that updates and stores the stop mode generated by the stop mode generation unit in a corresponding storage area of the stop mode storage unit;
  Stop mode in which one of the stop mode patterns is selected at the timing before the start of the variable display, and the stop mode stored in the corresponding storage area of the stop mode storage means is the variable display result of the variable display A selection means;
  SaidFluctuation mode selection means for selecting the fluctuation mode of the fluctuation display based on the selection result of the stop mode selection means.e,
  The stop mode update unit determines which stop mode pattern the stop mode generated by the stop mode generation unit corresponds to, and selects a corresponding storage area of the stop mode storage unit according to the determination result Then, the generated stop mode is updated and stored in the selected storage area.It is characterized by that.
[0008]
  The above "predetermined timing"And the aboveThis is the execution timing (so-called timing of each loop) of the main routine that is sequentially repeated by the processing means (for example, a microcomputer) constituting the stop mode generation means, and the process for generating the stop mode of the identification information in the main routine is performed each time. Any configuration can be used.
  Further, the stop mode update meansSaidIt is determined which of the stop mode patterns the stop mode generated by the stop mode generation unit corresponds to, and a corresponding storage area of the stop mode storage unit is selected according to the determination result, and the selected storage area What is necessary is just to set it as the structure which updates and memorize | stores the stop aspect produced | generated in this.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, an example in which the embodiment of the present invention is applied to a pachinko machine will be described.
A. Front view of gaming machine
  FIG. 1 is a front view showing a game board of a gaming machine that performs a pachinko game. In FIG. 1, reference numeral 1 denotes a game board, and a game area 3 is formed by surrounding a substantially circular area on the front surface with a guide rail 2.
[0010]
  The game board 1 has an out-ball inflow port (located behind the mounting member of the variable winning device 14, not shown), and a variable display device 12 corresponding to the variable display means of the present invention (hereinafter, simply referred to as a display device in some cases). , An ordinary electric accessory type start winning opening 13, a variable winning apparatus 14 (large winning opening), a general drawing start gate 15, 16, a plurality of general winning openings 17-22, a special drawing start memory display 23, a general display Device 24, general-purpose start memory display 25, hitting direction changing member 26 called a windmill (some parts are labeled and others are complicated)BecauseAbbreviated), a number of obstacle nails (not shown) are provided.
  The display device 12 includes a screen capable of displaying identification information such as images and symbols (hereinafter, sometimes referred to as a special figure). A plurality of variable display areas can be formed on the screen, and each of the formed variable display areas can be formed. It is possible to display a plurality of special drawings. In this case, for example, three variable display areas are formed in three horizontal rows substantially in the center of the screen, and special figures made up of numbers, characters, etc. are displayed in a stopped state (stop display) in each variable display area. Alternatively, it is possible to display (variable display) in a fluctuating state (for example, a state of scrolling in the vertical direction). FIG. 9 shows a specific example of the above-mentioned special symbol and the symbol number (stop symbol number) given to each symbol.
[0011]
  All of a plurality of winning holes provided in the game board 1, that is, a starting winning hole 13 (a special start sensor 131 is disposed inside), a variable winning device 14 (a large winning opening: a count sensor 134 and a continuation sensor which will be described later) 133) and the general winning ports 17-22 (inside, winning sensors A1 to AN described later are arranged), winning sensors (for example, proximity sensors; not shown) are arranged for each winning port.
  In addition, a game board decoration member 31 is disposed around the game board 1, and side lamps 32 and 33 are disposed. The side lamps 32 and 33 are electric decoration members that decorate the game by blinking or lighting, for example, at the time of reach or big hit.
  Note that the game area 3 on the game board 1 is, for example, one belonging to the so-called “first type” or “third type” equipped with a variable display device, as long as the game is performed using pachinko balls. It may be of any other model or may be of any configuration, but as an example, in the present embodiment, the type belonging to “first type” is used.
[0012]
B. Control system
  Next, the control system of the pachinko machine of this example will be described with reference to FIG.
  In FIG. 2, the game control device 100 is a control device that performs overall control of the game (including control of game progress and direct or indirect control of each controlled device for that purpose), and is necessary for pachinko games and the like. A gaming microcomputer 101 (gaming microcomputer: manufactured as an IC for a so-called amuse chip), an oscillator 101a (clock generation circuit), an input interface 102, and an output interface 103 are provided. The gaming microcomputer 101 further includes a CPU 104, a ROM 105, and a RAM 106.
[0013]
  Here, the RAM 106 of the gaming microcomputer 101 stores an area for storing prize ball data (for example, data of 7 prize balls and 15 prize balls) and backup data for resuming the gaming state when the power is shut off ( In addition to an area for storing data such as all registers and stack pointers, a storage for storing and storing various combinations of stop patterns (stop mode) of special symbols determined and updated as appropriate by random numbers. An area is provided.
  That is, as shown in FIG. 6, storage areas 106 </ b> A to 106 </ b> F that store and store a plurality of (six types in this case) stop mode patterns when the result of the special display variable display game is off, A jackpot symbol storage area 106G for storing and storing a stop mode in the case of a jackpot is provided. The RAM 106 in this case constitutes stop mode storage means (specific stop mode storage means and non-specific stop mode storage means) of the present invention.
[0014]
  In this case, as shown in FIG. 8, six types of A to F are set for the case where the result of the variable display game of the special figure is lost, as shown in FIG. It is called a design pattern.
  In this case, as shown in FIG. 8, the off-set symbol patterns are classified and set based on the relative relationship with the symbol numbers of other symbols based on the left symbol. Pattern B is a case where the number of the central symbol and the right symbol is 1 higher than the left symbol (for example, “three, four, four”, etc.). In the pattern C, the right symbol is the same as the left symbol, and the central symbol is 1 larger than the left symbol (for example, “three, four, three”, etc.). In the pattern D, the right symbol is the same as the left symbol, and the central symbol has a number 2 to 9 higher than the left symbol (for example, “three, five, three”, etc.). Pattern E is when the right symbol is the same as the left symbol, and the central symbol is 10 larger (2 smaller) than the left symbol (for example, “three, one, three”, etc.). . Pattern F is when the right symbol is the same as the left symbol, and the central symbol is 11 larger (one smaller) than the left symbol (for example, “three, two, three”, etc.). . Pattern A isPattern B~ F and jackpot symbol (usually, a doublet) (for example, “1, 2, 3”, etc.).
[0015]
  The input interface 102 of the game control device 100 includes a special figure start sensor 131, a universal figure start sensor 132, a continuation sensor 133, a count sensor 134, detection signals from the winning sensors A1 to AN, and an operation signal from the RAM initialization SW 135. Is entered.
  Here, each of the winning sensors A1 to AN is a sensor that detects a winning ball won in the general winning opening. When there are n general winning openings in the game board, n winning sensors are arranged.
  The special figure start sensor 131 is a sensor that detects a winning ball that has won the special drawing start winning opening 13, and the normal figure start sensor 132 detects a winning ball that has won (passed) the normal figure starting gates 15 and 16. The continuation sensor 133 is a sensor that detects a winning ball that has flowed into a continuation winning flow path (a flow path that passes through a so-called special prize opening) in the large winning opening of the variable winning device 14, and the count sensor 134 is a variable. It is a sensor that detects a winning ball that has flowed into a general winning channel (a channel that does not pass through the special winning port) in the large winning port of the winning device 14.
  The RAM initialization SW 135 is an operation switch for erasing backup data and starting from the initial state when starting.
[0016]
  On the other hand, from the output interface 103 of the game control device 100, the above-mentioned ordinary figure display 24, the above-mentioned solenoid valve 108 for driving the above-mentioned start winning opening 13 (ordinary variable winning device), and the open / close door of the variable winning device 14 are driven. A prize winning port solenoid 109, a board external connection terminal 110 for transmitting board external information (for example, a big hit signal) to the management device of the game shop, the lamps 32, 33 on the game board 1, and the like Signals are output to the decoration control device 111 that controls the special figure start memory display 23 and the general figure start memory display 25, and the sound control device 112 that controls the output of sound effects by driving a speaker (not shown). Is done.
  Further, a signal such as prize ball data is output from the output interface 103 to the payout control device 113. In other words, the game control device 100 corresponds to the prize value of the prize opening when the prize winning of the game ball is detected by the prize sensors 131, 133, 134, A1 to AN provided for each prize opening of the game board 1. Then, information on the number of prize balls set in advance (prize ball data) is transmitted to the discharge control device 113. Then, the discharge control device 100 receives the prize ball data and performs prize ball discharge control according to the received prize ball data.
  Further, display control information is transmitted from the output interface 103 to the display control device 120 that controls the display device 12 described above.
[0017]
  In the case of this example, the power supply unit (not shown) (unit consisting of a circuit board that supplies predetermined power to each control device, solenoid, etc.) includes the RAM 106 of the game control device 100 and the RAM of the discharge control device 113 (not shown). ) And a power failure detection circuit (not shown) for outputting a power failure detection signal and a reset signal when the power is cut off (including a power failure).
  The RAM 106 of the game control device 100 and the RAM of the discharge control device 113 can store and retain all the data during a predetermined backup guarantee period even when the power is cut off (including a power failure). It has become.
  The pachinko machine of this example is not equipped with a so-called safe unit (a unit that collects all the winning balls in one place and detects them one by one and holds them until the winning ball payout is completed) As described above, since the winning detection is performed for each winning opening, it is necessary to store information on undiscarded winning balls in software, and for this reason, such a backup power supply is supplied. ing. In addition, in order to continuously resume a game that has been interrupted due to a power failure, etc., it is necessary to store and retain information for reproducing the game state at the time of power shut-off, etc. The backup power is supplied to at least the RAM 106 of the game control device 100 (in this case, the RAM of the discharge control device).
[0018]
  Further, the power failure detection circuit described above is a circuit that detects a power interruption such as a power failure in advance and outputs a power failure detection signal to each CPU of the game control device 100 and the discharge control device 113.
  Further, for example, in this power failure detection circuit, a reset output unit (not shown) is provided, and from this reset output unit, a time when the CPU of each control device 100, 111, 112, 113, 120 should be reset ( For example, a reset signal is output to the CPU of each of these control devices after a predetermined time elapses from when the power supply voltage drops to the power failure detection voltage.
  The CPU 106 of the game control device 100 and the CPU of the payout control device 113 that have received the power failure detection signal are configured to execute power failure processing by, for example, forced interrupt (NMI interrupt).
  In this power failure process, all the outputs are turned off, and a process such as setting a power failure flag or prohibiting access to the RAM is executed, and finally waits for a reset.
[0019]
  Further, in this case, the CPU 106 of the game control device 100 and the CPU of the discharge control device 113 are backed up as described above in the power failure processing as described above, including data such as all registers and stack pointers (including interrupt address data due to power failure). The process of saving (registering) in a predetermined area of the RAM is executed before the process of prohibiting access to the RAM. As a result, the game control device 100 and the discharge control device 113 can store and retain information on the gaming state or control state at the time of power failure detection even while the power is shut off. The control process by the control device 113 can be continuously resumed from the state at the time of detecting the power failure.
[0020]
  The display control device 120 is also composed of a microcomputer including the CPU 121, and controls the image display of the display device 12 based on the display control information transmitted from the game control device 100. For example, when a variable display game is executed, display control information including combination of stop symbols (stop mode) and variable time data is transmitted from the game control device 100 in this case. The display control device 120 selects the stop mode and the change mode that satisfies the change time, and displays a plurality of special figures (identification information) in the change display area of the display device 12 for stop display. It is the composition which performs. Note that the variation mode of the special figure variation display actually performed by the control of the display control device 120 may be uniquely determined by the display control information from the game control device 100, but in this case, the above display control A configuration in which the display control device 120 finally selects a variation mode by random number extraction or the like within a range of conditions given by information (a configuration in which the display control device 120 is given a certain amount of discretion to select a variation mode) It has become.
  The display control information is sent from the game control device 100 to the display control device 120 by parallel communication. For example, 8-bit command data (consisting of the above-described stop mode data, variation time data, etc.) is transmitted. 8 bits of parallel signals (D0 to D7) and 2-bit control signals (START signal, STB (strobe) signal) for communication of the command data.
Each command data is sequentially transmitted in synchronization with the STB signal following the START signal, and the CPU 121 of the display control device 120 is configured to sequentially read these two types of command data while confirming the STB signal.
[0021]
  Further, as shown in FIG. 2, the display control device 120 includes a CPU 121, a ROM 122 that stores a control program and fixed data, and a RAM 123 that provides a work area for the CPU 121 and stores display control data transmitted from the game control device 100. , A DMAC (direct memory access controller) 124, an interface 125, a VDC (video display controller) 126 that drives the display device 12, a font ROM 127 that stores display data such as images and characters, a γ correction circuit 128 that performs display correction, An oscillator (clock generation circuit) 129, a buffer circuit 130, and the like are configured, and the display device 12 is controlled based on the display control information to realize the display of the special figure, and an image such as a predetermined character for production. (Movie or still image) display To run.
  The buffer circuit 130 is a circuit that allows a signal (a signal of display control information) to pass only in the direction from the game control device 100 to the display control device 120. With this circuit, a signal is transmitted from the display control device side to the game control device side. Even if unauthorized modification is added to the display control device, the signal output by the unauthorized modification is not transmitted to the game control device side which is the center of the game control.
  The DMAC 124 DMA-transfers data from the RAM 123 to the VDC 126.
[0022]
  Here, when display control information (strictly speaking, the above-mentioned START signal) is input from the game control device 100 via the interface 125, a reception interrupt is generated from the interface 125 to the CPU 121, and the CPU 121 responds accordingly. Display control information (strictly speaking, the above-described command data) is received and stored in the RAM 123. Then, the CPU 121 analyzes the received display control information. For example, in the case of variable display of a special figure, the CPU 121 determines the content of the variable display based on information on the stop mode and the variable time included therein, and the change Display data for realizing the display (data including symbols to be displayed, display position data, commands such as scrolling, etc.) is generated and stored in the RAM 123.
  Next, the VDC 126 reads the display data sent from the RAM 123 by the DMAC 124 into the internal RAM and develops it. That is, the character font data stored in the font ROM 127 is read in correspondence with the symbols and character codes of the special figure to be displayed, and the image data (including the background image) to be displayed is generated according to the display position data etc. Are stored in the display image storage area.
  Thereafter, the VDC 126 reads out image data from the display image storage area and sends it to the γ correction circuit 128 to form a display drive signal for the display device 12. Further, the VDC 126 sends a vertical synchronization signal (V-SYNC) and a horizontal synchronization signal (H-SYNC) to the display device 12. The γ correction circuit 128 adjusts the display illuminance of the display device 12 by correcting non-linearity of the illuminance with respect to the signal voltage of the display device 12. Thereby, a predetermined display is performed on the screen of the display device 12.
[0023]
C. Overview of the game
  Next, an outline of the game performed in the gaming machine of the present embodiment and the flow of the game will be described. FIG. 3 is a diagram showing the flow of the entire game.
  First, at the beginning of the game (or before the start of the game), as shown in FIG. 3, the customer waiting state is entered, and display control information for instructing display of the customer waiting screen is transmitted from the game control device 100. Then, a customer waiting screen (moving image or still image) is displayed on the screen of the display device 12.
  Then, when the game ball that is thrown into the game area via the guide rail 2 wins the start winning opening 13 (that is, the chucker) of the special drawing (that is, when there is a start winning), the above-described fluctuation Display control information for instructing display is transmitted from the game control device 100, and a large number of special figures (including numbers, characters, symbols, patterns, etc.) fluctuate in a plurality of variable display areas of the display screen of the display device 12 (for example, , Scrolling) display (so-called variable display) is performed, and a variable display game is performed.
  And if this variable display game result (the combination of the stopped special figure) is a specific display mode (for example, a doublet such as “7, 7, 7”), a privilege called a big hit is given to the player. In terms of control, for example, on the condition that there has been a start winning, the value of the big hit random number is extracted and stored, and the random number value that has been extracted and stored is compared and determined at the time of determination. Based on the determination result, it is determined in advance whether or not to make a big hit, and in response to this determination, the above-described variation display is started.
  In addition, when so-called fluctuation time reduction control is performed, the time from the start to the end of the special figure fluctuation is shortened from the normal time, and the frequency of the fluctuation display game per hour is substantially reduced by that amount. Increase to be advantageous. Also, if the probability of jackpot is set to a high probability by so-called probability fluctuation control, the probability of hitting the jackpot more than usual increases.
[0024]
  When the big hit is reached, an opening operation is performed in which the opening / closing door of the big winning opening of the variable winning device 14 is temporarily opened for a period of up to 10 winnings within a range not exceeding a specified time (for example, 30 seconds). Done. Then, this releasing operation is performed a plurality of times, for example, up to 16 rounds, on condition that continuous winning balls are detected (detection of winning balls by the continuous sensor 133). Further, in this jackpot state, display control information for instructing display of a jackpot screen for producing a jackpot state or notifying the player of the number of jackpot rounds is transmitted from the game control device 100, and the display screen of the display device 12 is displayed. Then, such a big hit display is executed.
  Also, during the above-mentioned special figure variable display game or during a big hit, when a game ball is further won in the start winning opening 13, the special figure start memory display 23 is turned on and in this case, up to four are stored and the variable display game is stored. Alternatively, after the big hit ends, the variable display game of the special figure is repeated or returned to the customer waiting state based on the memory (that is, the start memory).
  That is, as shown in FIG. 3, if the variable display game ends with a big win, the game shifts to a big hit state. If the variable display game ends with an outage and there is a start memory, the variable display game is executed again, and the variable display game is lost. If there is no start memory, it returns to the customer waiting state, and if the jackpot ends and the start memory is present, the variable display game is executed again, and if the jackpot ends and there is no start memory, the flow returns to the customer waiting state. ing.
[0025]
  On the other hand, when a game ball wins (passes) the usual figure starting gates 15 and 16 during the game, the usual figure changes due to the fluctuation display of the usual figure (in this case, a single digit number) on the ordinary figure display 24. A display game is played. And if this variable display game result (stopped usual figure) is a predetermined | prescribed aspect (for example, "7"), the game value (privilege) called per common figure will be provided.
  A game is held for about 0.5 seconds, for example, in an open state in which the pair of opening and closing members of the start winning opening 13 are opened in a reverse C shape. This makes it easier for a game ball to win the start winning opening 13, and accordingly, the number of executions of the special figure variable display game increases and the possibility of a big hit increases.
  Also, during the above-mentioned variable display game, when a game ball wins further to the general chart start gates 15 and 16, the general chart start memory display 25 is turned on and in this case, up to four are stored. After the end of the variation display game, the usual variation display game is repeated based on the memory.
[0026]
D. Control system operation
  Next, the control contents of the gaming machine performed by the control system described above will be described.
(A) Main routine of game control device
  First, the main routine of the game control apparatus 100 (microcomputer 101) will be described with reference to FIG.
  When the power is supplied, the reset signal is released, and the microcomputer 110 is activated, the CPU 104 sets the interrupt mode and prohibits interrupts (steps S1 to S2). Next, initial setting of the device register built in the CPU 104, initial setting of all output ports of the CPU 104, and setting of a parallel I / O interface (PIO) are performed (steps S3 to S4).
  Next, it is determined whether or not the RAM initialization switch 135 is turned on (step S5). If the RAM initialization switch 135 is turned on, it is determined that the game start from the initial state is instructed, and the process proceeds to step S14 where the operation is turned on. If not, the process proceeds to step S6.
  Next, in step S6, it is determined whether or not the check data for backup data (in this case, the power failure flag described above) is normally set (stored) in the RAM 106. If it should be resumed, the process proceeds to step S7, and if it is abnormal (if not normally stored), the process proceeds to step S14 because the game should be started from the normal initial state. The power failure flag is set in the aforementioned forced interrupt processing (power failure processing). In this case, although the power failure flag is once set, the power-off state (including the power failure state) is long, and the backup guarantee period of the backup circuit described above is exceeded. Therefore, the data of the power failure flag is other than the predetermined value. If the data is stored (when the data is not normally stored), the process proceeds to step S14.
[0027]
  When the process proceeds to step S7, after the stack pointer data stored in the RAM 106 is read and set as the stack pointer data in the power failure process (that is, after the stack pointer data is restored), A process of initializing only a specific RAM area (for example, a storage area for error information and the above-described check data) to be initialized based on the stored information is performed (steps S7 and S8). Next, the power failure recovery command is edited and transmitted to the display control device 120 and the decoration control device 111 (step S9). The command at the time of power failure recovery is a command for instructing the player to perform image display and lamp lighting operation to notify the player that the power failure has been recovered normally. Next, the state (ON or OFF) of the output port of the microcomputer 101 (the output port for the general-purpose display 24, the solenoids 108 and 109, the panel external connection terminal 110, and the discharge control device 113) is determined during power failure processing. The stored state is restored (step S10).
  Next, in step S11, a counter timer circuit (CTC) is activated to start a timer interrupt. Thereafter, the value of the register of the CPU 104 and the interrupt state (prohibition or permission) are returned to the same state as when a power failure is detected (steps S12 and S13). In addition, after passing through step S13, it moves to the address at the time of a power failure detection, restarts a process from the state at the time of power failure detection, and finally performs step S18-S23 mentioned later repeatedly.
[0028]
  On the other hand, when the process proceeds to step S14, the stack pointer is set and the entire area of the RAM 106 is initialized as a normal initialization process (steps S14 and S15), and then the counter timer circuit (CTC) is activated. A timer interrupt is started and an interrupt is permitted (steps S16 and S17), and the process proceeds to step S18. For the storage areas 106A to 106F of the RAM 106 described above, in step S15, some data (preset initial value data) corresponding to each of the off-symbol pattern patterns A to F is read and used as an initial value. Is set.
[0029]
  Next, in step S18, special figure game processing is performed. In this special game processing, overall control of the entire variable display game is performed. That is, when the variation start condition is satisfied, determination of the jackpot random number (processing for determining whether the jackpot random number extracted and stored in step S39 described later is a jackpot), processing for setting the jackpot flag in the case of jackpot, A process of setting a combination of stop symbols (stop mode) and a process of setting a variation mode of a special figure are performed. Here, the time when the variation start condition is satisfied is when the condition for generating the flow indicated by symbol H in FIG. 3 is satisfied, and when the variation display game is started when there is a start opening prize in the waiting state for the customer, There are three types: when the game ends in an outlier and there is a start memory and the variable display game is executed again, and when the jackpot ends and there is a start memory and the variable display game is executed again. Details of the stop mode and variation mode setting processing will be described later.
  Also, in this special figure game process, a process of setting information for editing processing of various output data related to the special figure variable display game is also performed. That is, the contents (command data) of the control information (command) to be transmitted to the display control device 120, the decoration control device 111, the sound control device 112, etc. are set in accordance with the game state of the special variable display game.
[0030]
  Next, in step S19, processing for the usual variable display game is performed. That is, processing for setting the contents (command data) of control information (commands) to be transmitted to the sound control device 112, the decoration control device 111, etc. according to the state of the usual variable display game is performed.
  Next, in step S20, a common map fluctuation control process is performed. This is a process of setting the control information data for the usual variable display game in the transmission area based on the information set in step S19.
  In step S21, external information editing processing for setting output data of the board external connection terminal 110 (a jackpot signal, a probability variation signal, a symbol determination signal, a prize ball signal, etc.) is executed.
[0031]
  Next, in step S22, random number update processing 3 is executed. This is a process of updating the values of the left symbol generation random number, the middle symbol generation random number, the right symbol generation random number, the stop symbol pattern random number, and the variation pattern random number. In the updating method, the lower-order bits (which differ depending on the random number) of the R (refresh) register of the microcomputer 101 are added to each random number value to perform upper limit correction. As shown in FIG. 7, the left symbol generation random number, middle symbol generation random number, and right symbol generation random number are the left, center, or right stop symbols (the special symbol variable display game) of the three columns of special symbols. Is a random number (for example, one whose value changes from 0 to 11). Further, the stop symbol pattern random number is a random number for determining which one of the off symbol patterns set as shown in FIG. 8 is the stop mode of the special symbol when the special symbol variable display game is off. As shown in FIG. 7, the value changes from 0 to 255, for example. Further, the fluctuation pattern random number is a random number for determining what kind of fluctuation mode the special figure is to be changed, and its value changes, for example, from 0 to 255 as shown in FIG.
  In the case of this example, in the game control device 100, only the variation time is determined for the variation mode of the special figure, and actually, as described above, a specific variation mode ( The display control device 120 finally determines whether or not a reach action is to be performed and what kind of reach action is to be performed. However, if the variation time is determined, the specific variation mode is uniquely determined, or the range of selection of the specific variation mode is considerably limited. At least the tendency (variation rate of each reach action, etc.) of the variation mode in the figure is determined.
[0032]
  Next, in step S23, a process for updating the value of the jackpot initial value random number is performed. In the update method, the random number value is incremented by 1 and the upper limit value is corrected in this process. Note that the jackpot initial value random number is added to the jackpot random number every time the value of the jackpot random number that changes cyclically makes one round, thereby increasing irregularity of the jackpot random number. The jackpot random number is a random number for determining whether or not the result of the special figure variation display game is a jackpot (whether or not to give a privilege to the player). As shown in FIG. The value changes from 0 to 316. The jackpot initial value random number changes in value from 0 to 316, for example, as shown in FIG.
  After step S23, the process proceeds to step S18, and the processes of steps S18 to S23 are repeatedly executed sequentially. As a result, the random number update process in steps S22 and S23 is repeatedly executed at irregular timing as a result.
[0033]
(B) Game control device timer interrupt processing
  Next, the timer interrupt process of the game control apparatus 100 (microcomputer 101) will be described with reference to FIG.
  This timer interruption process is started by the process of step S11 or S16 described above, and is executed, for example, every 0.5 msec.
  First, in step S31, the register data of the CPU 104 is saved (for example, the register used is switched between the front register (main routine register) and the back register (interrupt processing register). When the registers used in the timer interrupt processing are distinguished, the respective values are retained).
  Next, in step S32, input processing is executed. In this input processing, reading of detection signals of the above-mentioned sensors (special drawing start sensor 131, universal drawing start sensor 132, continuation sensor 133, count sensor 134, winning prize sensors 1 to n (A1 to AN), etc.) is performed. Execute. Specifically, the output value of each sensor is determined at each timer interruption period, and when the output value of the same level continues for a specified number of times (for example, twice), the level of this output value is detected by each sensor. Signal deterministicAs valueread. When it is read that any one of the sensors or switches is read, a flag (input flag) indicating that is set.
[0034]
  Next, in step S33, an output process for setting and outputting the output data set in steps S18 to S21 of the main routine (FIG. 4) described above to the output port is executed, and then in step S34, the above-described step S18 is executed. Processing for transmitting control information (command) to each control device (display control device 120, discharge control device 113, sound control device 112, decoration control device 111) edited in S21 is executed (command transmission processing).
[0035]
  Next, in step S35, random number update processing 1 is executed. This is a process of updating the values of the jackpot random number, the jackpot symbol random number, and the random number per block. In the update method, the random number value is incremented by 1 and the upper limit value is corrected in this process. The jackpot symbol random number is a random number for determining a symbol combination (specific stop mode) when the result of the special symbol variation display game is a jackpot. The random number per common figure is a random number that determines per common figure.
  Next, in step S36, random number update processing 2 is executed. This is a process of updating the values of the left symbol generation random number, the middle symbol generation random number, the right symbol generation random number, the stop symbol pattern random number, and the variation pattern random number as in the random number update process 3 (step S22; FIG. 4). is there. However, the update method is different from the random number update process 3 in that the random number value is incremented by 1 and the upper limit value is corrected in this process.
  Thereafter, in step S37, timer update processing is executed. The timer update process generates time for use in each process of the main routine.
[0036]
  Next, in step S38, an error monitoring process is executed. This is a process for monitoring an undetected error of each prize ball sensor, an excessive error of prize ball discharge, an open state of a glass frame (not shown) covering the front surface of the game board 1, and the like.
  Next, in step S39, switch monitoring processing (sensor input monitoring processing) is executed. This monitors the input flag set in step S32 described above, and, for example, if the input flag of the special figure start sensor 131 is set, the value of the jackpot random number (the random number updated in step 35) is extracted. Processing such as storing is executed.
  Thereafter, in steps S40 and S41, in order to resume the main routine, the register saved in step S31 is restored, the interrupt is permitted, and the process is interrupted (returned).
[0037]
(C) Processing operation until determination of stop mode and variation mode of special figure
  Next, processing operations until the determination of the special mode stop mode and variation mode in this example (details of the stop mode and variation mode setting processing performed in step S18) will be described with reference to FIG. FIG. 6 is a diagram showing the flow of processing operations up to the determination of the stop mode and variation mode of the special figure.
  First, the generation of the special figure stop mode is performed separately for the case where the result of the special figure variable display game is a big hit and the case where it is out of place.
  As for the stop mode in the case of an outage, the left symbol generation random number, the middle symbol generation random number, and the right symbol updated regularly and irregularly in the random number update process 2 (step S36) and the random number update process 3 (step S22) described above. Based on the value of the generated random number, it is determined each time in the special figure game process (step S18) (see reference numeral N1 in FIG. 6). Each time it is determined, in the special figure game process (step S18), it is determined which one of the above-described lost symbol patterns A to F corresponds to the determined stop mode for the error, and stored in the RAM 106 described above. Update storage (overwriting) is performed in the corresponding storage area among the areas 106A to 106F (see reference numeral N2 in FIG. 6). In other words, the data in the storage areas 106A to 106F (data for the stoppage mode for each pattern) will be stored whenever the main routine (steps S18 to S23 in FIG. 4) is repeated (that is, at the timing of each loop). Only the data of the one off symbol pattern is updated based on the random number.
[0038]
  On the other hand, the stop mode in the case of jackpot is determined each time in the special game process (step S18) based on the value of the jackpot symbol random number periodically updated in the random number update process 1 (step S35) described above. The Each time it is determined, in the special figure game process (step S18), the determined jackpot stop mode isMentioned aboveIt is updated and stored (overwritten) in the storage area 106G (big hit symbol storage area) of the RAM 106 (see reference numeral N3 in FIG. 6). That is, the data in the storage area 106G (data for the big hit stop mode) is always updated based on the random number every time the main routine (steps S18 to S23 in FIG. 4) is repeated (that is, at the timing of each loop). The
[0039]
  Next, the special figure stop mode and the special figure variation mode are determined in the special figure game process (step S18) when the above-described variation start condition is satisfied (not the timing of each loop).
  For example, when the input flag of the special figure start sensor 131 is on in the customer waiting state, it is the time when the change start condition is satisfied. In such a case, the stoppage is made after performing the jackpot determination based on the jackpot random number described above. A mode determination process is performed. That is, if the big hit determination result is a big hit, the stop mode stored at that time in the storage area 106G (big hit symbol storage area) is determined as the fluctuation display result of the fluctuation display (the fluctuation display to be executed thereafter). On the other hand, if it is out of place, the stop symbol pattern is updated based on the value of the stop symbol pattern random number that is updated regularly and irregularly in the random number update process 2 (step S36) and the random number update process 3 (step S22). (One of A to F) is selected, and the stop mode stored at that time in the storage area (any one of the storage areas 106A to 106F) corresponding to the selected stop symbol pattern Is determined as the fluctuation display result of the fluctuation display (the fluctuation display to be executed thereafter) (see reference numeral N4 in FIG. 6).
[0040]
  In the special figure game process (step S18), after determining the stop mode as described above, the special mode variation mode (in this case, the variation pattern corresponding to the variation time) is determined. Specifically, first, based on a predetermined relationship as shown in FIG. 12, in the case of big hit or miss, in the case of a missed symbol pattern, which pattern is the special game state (probability variation control) State of whether or not variable time reduction control is being executed), and in the case of a big hit, depending on whether the stop mode is a special symbol (stop mode that becomes a special game) Select a table. In this case, for example, when the jackpot symbol other than the special symbol is determined as the stop mode, the variation pattern selection table IX (9) is selected as shown in the uppermost part of FIG. Also, for example, when the stop symbol pattern of the determined stop mode is F and the state is a high probability state (probability control is being executed) at that time, as shown at the bottom of FIG. The pattern selection table VIII (8) is selected.
[0041]
  Note that the fluctuation pattern selection table is data of a fluctuation pattern group (fluctuation mode group) including one or more fluctuation patterns, as shown in FIG. 10, for example, and a selection probability (a selection probability based on a fluctuation pattern random number) for each fluctuation pattern. ) Is set separately for each table. In this case, ten variation pattern selection tables from I (1) to X (10) are set.
  In this case, as shown in FIG. 11, the variation pattern is set as number data corresponding to the variation time of the variation display of the special figure.
  Next, when the variation pattern selection table is selected as described above, the value of the variation pattern random number is updated regularly and irregularly in the random number update processing 2 (step S36) and the random number update processing 3 (step S22). Based on this, one of the variation patterns set in the selected variation pattern selection table is selected, and this variation pattern performs a specific variation mode (which reach action is performed) of the variation display (the variation display to be executed thereafter). Is set as display control information data (see reference numeral N5 in FIG. 6).
  It should be noted that the variation pattern of the special figure determined in this way (in this case, the variation pattern) and the data of the stop mode are output by the output process in step S33.As display control informationIt is transmitted to the display control device 120, and a predetermined variation display based on these transmission data is executed.
[0042]
  According to the gaming machine of the present embodiment described above, the following effects can be obtained.
(1) The special mode stop mode (in this case, only the stop mode for detachment) that is repeatedly generated at a predetermined timing (in this case, the timing of each loop of the main routine) is classified by the stop mode pattern, and for each stop mode pattern Since it is configured to store and store (update registration) in the prepared storage area in advance, it is possible to always prepare a desired stop mode for detachment with a simple process. Then, when determining the stop mode or variation mode of the special figure, the stop mode pattern that determines the feasibility of a special variation mode (reach action, super reach action, etc.) rather than determining the stop mode itself first. Is first selected, the stop mode stored and stored in advance for the stop mode pattern is read and adopted as it is, and the variation mode is selected based on the selected stop mode pattern. For this reason, the appearance rate of a special variation mode is determined by the selection of the stop mode pattern (selection probability, selection range, etc.) and the selection condition when selecting the variation mode based on the selected stop mode pattern. Various changes can be easily made according to the situation. There is no need for complicated processing such as at least randomly determining the stop mode in advance and then correcting (changing) the stop mode according to the variation mode determined with diversity. small. Accordingly, it is possible to easily realize the appearance of various variation modes as designed by a simple process, thereby providing the player with a timeless game.
[0043]
(2) Furthermore, in the case of the present embodiment, the big hit stop mode is generated separately from the outage stop mode, and stored in advance in the storage area prepared for the big hit (update registration) Therefore, it is possible to always prepare a desired jackpot stop mode with a simple process. And even when determining the jackpot stop mode and the variation mode, after determining that the jackpot has been determined, the above stop mode stored and stored in advance for jackpot is read and adopted as it is, In this configuration, the variation mode is selected based on the big hit. For this reason, there is an advantage that the determination process of the stop mode and the variation mode of the special figure in the case of the big hit is simplified.
  In this case, an important advantage is also obtained that it is possible to reliably update the stop mode for jackpot frequently in a short time. This is because it is also possible to include the jackpot stop mode in the above-described stop mode pattern and to generate it in the same manner as the outage stop mode. However, in this case, the data in the storage area of the jackpot stop mode is not always updated every time the random generation process of the stop mode of the special figure is repeated, but rather, it is not updated for a long time. There is sex. If the data of the manga jackpot stop mode is not updated for a long time, the jackpot symbol may be illegally targeted, or the jackpot symbol may be biased to cause an unequal result to the player. However, with the configuration of the present embodiment, the update of the big hit stop mode is repeatedly executed at a predetermined timing (in this case, the timing of each loop of the main routine) separately from the outage stop mode. Since it is frequently executed in a short time, the possibility of the occurrence of the above-described problems is eliminated.
[0044]
(3) In the present embodiment, a variation mode group including one or more variation modes (in this case, the above-described variation pattern selection table) in order to select a variation mode (in this case, a variation pattern) of the special figure. Are selected, and when selecting the variation mode of the special figure, one of the variation mode groups is selected based on at least the stop mode pattern selection result (in this case, including whether it is a big hit or not). Further, the variation mode of the variation display is selected from the selected variation mode group. For this reason, when compared with a configuration in which, for example, the variation mode is uniquely determined with respect to the selection result of the stop mode pattern, the appearance rate of each variation mode can be changed more variously.
(4) In this case, the data of the variation mode group is set as the above-described variation pattern selection table (see FIG. 10) in which different selection probabilities are set for each variation mode. When selecting the variation mode of the variation display, the selection is performed randomly according to the corresponding selection probability set in the variation pattern selection table. For this reason, it is possible to more strongly characterize each variation mode group, and it is possible to change the appearance rate of a specific variation mode more significantly according to the selected stop mode pattern. For example, when there are 4 special memory for starting a special figure, the appearance rate of the reach action is lowered to increase the so-called rotation efficiency of the special figure, so that even if the reach action is omitted depending on the situation, the next variable display game is immediately shifted to. Can answer the player's desire to do.
[0045]
(5) Further, in the case of the present embodiment, from the start of the variable display game and the probability variable control in which the probability of giving a privilege to the player is higher than the normal state as a result of the special variable display game. Either or both of the variable time shortening controls in which the time until completion is shortened from the normal state is configured to be appropriately executed, and the probability variation control and / or the variation time shortening control is being executed. Depending on whether or not, the selection condition of the variation mode is different (see FIG. 12). For this reason, it is possible to change the appearance rate of a specific variation mode more significantly according to the probability variation state or the like. For example, during probability fluctuation control execution (high probability), by reducing the appearance rate of reach action and increasing the so-called rotation efficiency of the special figure, the fluctuation display game is executed one after another during high probability than enjoying the reach action Can answer the player's desire to do.
(6) In this embodiment, as shown in FIG. 8, the stop mode pattern (outlier pattern) is one of a plurality of identification information (special figures) (in this case, the special figure on the left side). ) As reference identification information, and a plurality of classifications are set according to the relative relationship between the reference identification information and other identification information. For this reason, there is also an advantage that the stop mode patterns can be classified easily and easily.
[0046]
  The present invention is not limited to the above-described embodiment, and various modifications and applications are possible.
  For example, in the above embodiment, the generation and storage of the stop mode data according to the classification of each stop mode pattern of the present invention is performed only for the stop mode for losing, but this stop mode is also applied to the stop mode for jackpots. It can be processed in the same manner as one of the aspect patterns. For example, as shown in FIG. 13, both the big hit stop mode and the outage stop mode are generated by the same generation process, and the generated stop mode data is distributed to any storage area including the jackpot symbol storage area. In the case of a big win, the data in the big win symbol storage area is adopted as a stop mode, and in the event of a loss, any of the patterns A to F is used. A configuration may be adopted in which the data in the corresponding storage area is selected as the stop mode. In this case, the operation N3 (see FIG. 6) for generating the jackpot symbol separately becomes unnecessary, and the control process is greatly simplified. However, in this case, as described above, there is a risk that the jackpot symbol will not be updated indefinitely. In this respect, the configuration of the embodiment shown in FIG. 6 is excellent.
[0047]
  Further, in the above-described embodiment, an example in which the fluctuation time shortening control for shortening the fluctuation time of the special figure has been shown. However, instead of this fluctuation time shortening control, or in addition to this fluctuation time shortening control, a so-called general purpose There may be a configuration in which time-shortening control (control for shortening the usual fluctuation display time) is performed. In this case, it is needless to say that the selection condition of the variation mode of the special drawing may be different depending on whether or not the normal time reduction control is performed.
  In addition, the gaming machine according to the present invention can be applied to a prepaid card type pachinko machine or a credit type pachinko machine. Any configuration or model of game board may be used.
  In addition, as long as it is a gaming machine that performs a variable display game, it is not limited to a pachinko machine and can be applied to other gaming machines.
  In addition, it should be considered that the embodiment disclosed this time is illustrative and not restrictive in all respects. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.
[0048]
【The invention's effect】
  In the gaming machine of the present invention, the stop mode of the identification information is repeatedly generated at a predetermined timing, classified according to the stop mode pattern, and stored in advance (stored and updated) in a storage area prepared for each stop mode pattern. Therefore, it is possible to always prepare a desired stop mode with a simple process. When determining the stop mode and variation mode of the identification information, the stop mode pattern that determines the feasibility of a special variation mode (reach action, super reach action, etc.) does not determine the stop mode itself. Is first selected, the stop mode stored and stored in advance for the stop mode pattern is read and adopted as it is, and the variation mode is selected based on the selected stop mode pattern. For this reason, the appearance rate of a special variation mode is determined by the selection of the stop mode pattern (selection probability, selection range, etc.) and the selection condition when selecting the variation mode based on the selected stop mode pattern. Various changes can be easily made according to the situation. There is no need for complicated processing such as at least randomly determining the stop mode in advance and then correcting (changing) the stop mode according to the variation mode determined with diversity. small. Therefore, it is easy to realize a variety of variation modes as designed by simple processing, thereby providing players with a timeless game.It becomes possible.
[Brief description of the drawings]
FIG. 1 is a front view showing a game board of a pachinko machine.
FIG. 2 is a diagram showing a control system of a pachinko machine.
FIG. 3 is a diagram showing a game flow.
FIG. 4 is a flowchart showing processing contents (main routine) of the control system.
FIG. 5 is a flowchart showing processing contents (timer interrupt processing) of a control system.
FIG. 6 is a diagram for explaining operation for selecting a special mode stop mode or variation mode;
FIG. 7 is a diagram illustrating a specific example of random numbers.
FIG. 8 is a diagram illustrating a specific example of a stop mode pattern (displacement symbol pattern).
FIG. 9 is a diagram showing a specific example of a special figure (identification information).
FIG. 10 is a diagram showing a specific example of a variation mode group (variation pattern selection table).
FIG. 11 is a diagram illustrating a specific example of a variation mode (variation pattern).
FIG. 12 is a diagram illustrating a specific example of selection conditions for variation modes.
FIG. 13 is a diagram for explaining a selection operation (another example) of a stop mode or a variation mode of a special figure.
[Explanation of symbols]
  1 Game board
  12 Fluctuation display device (fluctuation display means)
  100 game control device
  101 gaming microcomputer (stop mode generation means, stop mode storage means, stop mode update
          (New means, stop mode selection means, variation mode selection means)
  120 display control device

Claims (1)

A variation display means for executing a variation display game for variably displaying a plurality of pieces of identification information and stopping the game, and when a specific stop mode is derived as a variation display result of the plurality of pieces of identification information, In gaming machines that can grant benefits,
Stop mode generation means for repeatedly executing the process of generating the stop mode of the identification information at a predetermined timing;
Stop mode storage means having a plurality of storage areas for storing and storing the stop mode for each of a plurality of predetermined stop mode patterns;
A stop mode update unit that updates and stores the stop mode generated by the stop mode generation unit in a corresponding storage area of the stop mode storage unit;
Stop mode in which one of the stop mode patterns is selected at the timing before the start of the variable display, and the stop mode stored in the corresponding storage area of the stop mode storage means is the variable display result of the variable display A selection means;
Based on the selection result of the stop mode selecting means, e Preparations and fluctuation mode selecting means, the selecting a fluctuation mode of the variable display,
The stop mode update unit determines which stop mode pattern the stop mode generated by the stop mode generation unit corresponds to, and selects a corresponding storage area of the stop mode storage unit according to the determination result A game machine, wherein the generated stop mode is updated and stored in the selected storage area .

Images