JP4458587B2 - Game machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a gaming machine represented by, for example, a pachinko gaming machine, a coin gaming machine, and a slot machine, and more specifically, according to the fact that a movable member to which a plurality of types of identification information is attached is driven by an electric drive source. And a variable display device capable of variably displaying the identification information, and when the display result of the identification information on the variable display device becomes a predetermined specific display mode, it can be controlled in a state advantageous to the player Related to a game machine.
[0002]
[Prior art]
As generally known as this type of gaming machine, according to the fact that a movable member such as a rotating drum to which a plurality of types of identification information such as symbols is attached is driven by an electric drive source such as a motor. And having a variable display device capable of variably displaying the identification information, and when the display result of the identification information in the variable display device becomes a predetermined specific display mode (for example, jackpot symbol), it is advantageous for the player Some states (for example, big hit states) can be controlled.
[0003]
In such a gaming machine, a game control means comprising a microcomputer for controlling the game state and a variable display control means comprising a microcomputer for controlling the display state of the variable display device based on drive control of the movable member are provided. It was done. Command information for controlling display on the variable display device is sequentially output from the game control means. Then, the variable display control means performs control for receiving the command information, starting the variable of the identification information based on the drive control of the movable member according to the command information, and then deriving and displaying the display result of the identification information. .
[0004]
[Problems to be solved by the invention]
However, in this type of gaming machine, the command information used for the display control command may be affected by noise or the like, so that the display control means cannot receive the command information normally. May occur. In such a case, variable display different from the command of the command information is not performed in the variable display device, and there is a risk that a discrepancy occurs between the game control content by the game control means and the variable display control content by the variable display control means. is there. In such a state, there is a problem that distrust of the game is given to the player.
[0005]
The present invention has been conceived in view of such circumstances, and its purpose is not to cause distrust to the player when an abnormality relating to failure of the variable display control means to correctly receive the command information has occurred. It is providing the game machine which can be made to do.
[0006]
[Means for Solving the Problems]
  The present invention according to claim 1 has a variable display device capable of variably displaying the identification information in response to driving of a movable member to which a plurality of types of identification information is attached by an electric drive source, When the display result of the identification information in the variable display device becomes a predetermined specific display mode, it is a gaming machine that can be controlled in an advantageous state for the player,
  The gaming machinePlayA means for controlling the skill state,SaidGame control means capable of sequentially outputting a plurality of command information for variably displaying the identification information in the variable display device;
  Means for receiving command information output from the game control means and controlling variable display on the variable display device according to the command information, wherein the identification information is variable based on drive control of the movable member; Variable display control means capable of performing control for deriving and displaying the display result of the identification information after starting,
  The variable display control means includes:
    Command information reception determining means for determining whether or not the plurality of command information sequentially output from the game control means has been correctly received;
    When there is at least one command information determined by the command information reception determination means that the command information is not correctly received among the plurality of command information, a predetermined notification that can specify that the state has occurred is performed. Possible notification meansSee
  The notification means, when there is the command information that could not be received correctly, performs a notification by an abnormal display in the variable display device predetermined corresponding to the command information,
  The variable display device further includes light emitting means for illuminating the movable member with light,
  The informing means controls the light emitting means to a predetermined operating state as the abnormal display.It is characterized by that.
[0007]
  The present invention according to claim 2 includes a variable display device capable of variably displaying the identification information in response to the movable member to which a plurality of types of identification information is attached being driven by an electric drive source. When the display result of the identification information in the variable display device becomes a predetermined specific display mode, it is a gaming machine that can be controlled in an advantageous state for the player,
  A means for controlling the gaming state of the gaming machine, a game control means capable of sequentially outputting a plurality of command information for variably displaying the identification information in the variable display device;
  Means for receiving command information output from the game control means and controlling variable display on the variable display device according to the command information, wherein the identification information is variable based on drive control of the movable member; Variable display control means capable of performing control for deriving and displaying the display result of the identification information after starting,
  The variable display control means includes:
    Command information reception determination means for determining whether or not the plurality of command information sequentially output from the game control means has been correctly received;
    When there is at least one command information determined by the command information reception determination means that the command information is not correctly received among the plurality of command information, a predetermined notification that can specify that the state has occurred is performed. Possible notification means,
  The notification means, when there is the command information that could not be received correctly, performs a notification by an abnormal display in the variable display device predetermined corresponding to the command information,
  The identification information displayed at the time of notification by the notification means is displayed on the variable display device while being shifted from an effective line determined so that the display result is effective.
  Claim3The present invention described in claim 1Or 2In addition to the configuration of the invention described in the above, the game control means includes, as the command information, variable display pattern information that can specify at least a variable display pattern of the identification information, and a display that can specify a display result of the identification information. The result information is output.
[0008]
  Claim4The present invention described in claim 1Any of 3In addition to the configuration of the invention described in (2), the game control means can specify a confirmation display request for the display result of the identification information at a time related to the determination of the display result of the identification information as the command information. Further, it is characterized by further outputting a fixed display information.
[0009]
  Claim5The present invention described in claim 14In addition to the configuration of any of the inventions described above, the notification unit performs the predetermined notification when the command information reception determination unit determines that the command information has not been correctly received. To do.
[0010]
  Claim6The present invention described in claim 15In addition to the configuration of any of the inventions described above, the notification unit performs the predetermined notification in a manner distinguishable from notification performed in response to a command from the game control unit.
[0011]
  Claim7The present invention described in claim 16In addition to the configuration of any one of the inventions described above, the notification unit continues the predetermined notification until the next variable start of the identification information.
[0019]
[Action]
  According to the first aspect of the present invention, it operates as follows. A plurality of command information can be sequentially output in order to variably display the identification information in the variable display device by the action of the game control means which is a means for controlling the gaming state of the gaming machine. Based on the drive control of the movable member by the function of the variable display control means that receives the command information output from the game control means and controls the variable display in the variable display device according to the command information, the identification information Variable display control means capable of performing control for deriving and displaying the display result of the identification information after the variable start is started. By the action of the command information reception determination means included in the variable display control means, it is determined whether or not a plurality of command information sequentially output from the game control means has been received correctly. Due to the function of the notification means included in the variable display control means, when there is even one piece of command information judged by the command information reception judgment means that the command information could not be received correctly, a state occurred It is possible to perform predetermined notification capable of specifying the effect.When there is command information that could not be correctly received due to the further function of the notification means, notification is made by display at the time of abnormality in the variable display device that is determined in advance corresponding to the command information. The movable member is illuminated with light by the action of the light emitting means included in the variable display device. By the further function of the notification means, the light emitting means is controlled to a predetermined operation state as a display at the time of abnormality.Thus, when there is even one piece of command information that could not be correctly received among a plurality of pieces of command information, a predetermined notification that can specify that the state has occurred is performed, so that the command information can be received correctly. It is possible to prevent the player from feeling distrust when there is an abnormality related to the absence. Furthermore, it becomes possible to prevent misunderstanding of the player about the abnormal display state resulting from such a state.Further, when there is command information that could not be correctly received, a notification is given by display at the time of abnormality in a variable display device determined in advance corresponding to the command information, so that the variable display device that misleads the player Can be prevented based on the display when there is an abnormality. Further, as the display at the time of abnormality, the light emitting means is controlled to a predetermined operation state, but the display at the time of abnormality is performed by a relatively simple process of operation control of the light emitting means prepared for another purpose. It becomes possible to reduce the control burden of the variable display control means when performing display at the time of abnormality.
[0020]
  According to the second aspect of the present invention, it operates as follows. A plurality of command information can be sequentially output in order to variably display the identification information in the variable display device by the action of the game control means which is a means for controlling the gaming state of the gaming machine. Based on the drive control of the movable member by the function of the variable display control means that receives the command information output from the game control means and controls the variable display in the variable display device according to the command information, the identification information Variable display control means capable of performing control for deriving and displaying the display result of the identification information after the variable start is started. By the action of the command information reception determination means included in the variable display control means, it is determined whether or not a plurality of command information sequentially output from the game control means has been received correctly. Due to the function of the notification means included in the variable display control means, when there is even one piece of command information judged by the command information reception judgment means that the command information could not be received correctly, a state occurred It is possible to perform predetermined notification capable of specifying the effect. When there is command information that could not be correctly received due to the further function of the notification means, notification is made by display at the time of abnormality in the variable display device that is determined in advance corresponding to the command information. The identification information displayed at the time of notification by the notification means is displayed on the variable display device while being shifted from the effective line determined so that the display result is effective. Thus, when there is even one piece of command information that could not be correctly received among a plurality of pieces of command information, a predetermined notification that can specify that the state has occurred is performed, so that the command information can be received correctly. It is possible to prevent the player from feeling distrust when there is an abnormality related to the absence. Furthermore, it becomes possible to prevent misunderstanding of the player about the abnormal display state resulting from such a state. Further, when there is command information that could not be correctly received, a notification is given by display at the time of abnormality in a variable display device determined in advance corresponding to the command information, so that the variable display device that misleads the player Can be prevented based on the display when there is an abnormality. Furthermore, since the identification information to be displayed when the display result information cannot be correctly received is displayed shifted from the effective line, it becomes possible for the person receiving the notification to easily understand the notification content.
  Claim3According to the invention described in claim 1,Or 2In addition to the operation of the invention described in (1), it operates as follows. By the further action of the game control means, at least variable display pattern information that can specify a variable display pattern of identification information and display result information that can specify a display result of identification information are output as command information. In this way, the variable display control means receives the variable display pattern information in addition to the display result information, and the display of the variable display device is controlled with the pattern according to the variable display pattern specified by the variable display pattern information. When variable display control is performed in accordance with relatively small command information in this way, there is a possibility that a serious failure may occur in variable display control when display result information cannot be received correctly. However, even if the display result information cannot be received correctly, it is possible to easily know that such a state has occurred by performing a predetermined notification that can specify that the state has occurred. become.
[0021]
  Claim4According to the invention described in claim 1,Any of 3In addition to the operation of the invention described in (1), it operates as follows. Due to the further action of the game control means, fixed display information that can specify a fixed display request for the display result of the identification information is further output as the command information at a time related to fixing the display result of the identification information. As described above, since the confirmation display information that can specify the confirmation display request for the identification information display result is further output at the time related to the confirmation of the identification information display result, the confirmation display of the identification information display result is performed. By notifying the timing to the variable display control means side, the identification information can be confirmed and displayed more reliably. Further, when examining the variable display period from the variable start to the final display of the display result, it becomes possible to clarify the final display time of the display result of the identification information based on the final display information.
[0022]
  Claim5According to the invention described in claim 1,4In addition to the operation of the invention described in any of the above, the following operation is performed. Due to the further function of the notification means, a predetermined notification is given when the command information reception determination means determines that the command information has not been correctly received. Thus, since it is determined that the command information has not been correctly received, a predetermined notification is performed. Therefore, when an abnormality occurs in which the command information cannot be correctly received, it is possible to immediately notify that fact. become.
[0023]
  Claim6According to the invention described in claim 1,5In addition to the operation of the invention described in any of the above, the following operation is performed. Due to the further function of the notification means, a predetermined notification is performed so as to be distinguishable from the notification performed in response to a command from the game control means. As described above, since the predetermined notification when the abnormality relating to the failure to correctly receive the command information occurs can be distinguished from the notification performed by the game control means, an abnormality has occurred in the reception of the command information. It is possible to differentiate the predetermined notification in the case from the notification performed by the game control means. Thereby, the person who has received the predetermined notification can immediately recognize the notification content.
[0024]
  Claim7According to the invention described in claim 1,6In addition to the operation of the invention described in any of the above, the following operation is performed. Due to the further function of the notification means, the predetermined notification is continued until the next variable start of the identification information. As described above, since a predetermined notification when an abnormality relating to failure to correctly receive command information occurs is continued until the next variable start, notification is performed for a period sufficient for the person receiving the notification to recognize the notification content. Can be performed. Further, it is possible to perform enhanced notification due to the length of the notification period.
[0032]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below in detail with reference to the drawings. In the following embodiments, a pachinko gaming machine is shown as an example of a gaming machine, but the present invention is not limited to this, and may be, for example, a coin gaming machine or a slot machine. A variable display device capable of variably displaying the identification information in response to the attached movable member being driven by an electric drive source, and a display result of the identification information in the variable display device is determined in advance. In the case of the display mode, the present invention can be applied to all gaming machines that can be controlled in a state advantageous to the player.
[0033]
First embodiment
FIG. 1 is a front view of a pachinko gaming machine 1 as an example of a gaming machine according to the present invention and a card unit 50 installed correspondingly.
[0034]
The card unit 50 is provided with a card availability display lamp 151, and the player is notified by the lighting or blinking of the card availability display lamp 151 that the card unit 50 is in a usable state. This card unit 50 is installed in a state where it is inserted between a plurality of pachinko gaming machines 1 installed on the gaming machine installation island, and it indicates which of the left and right gaming machines is connected to the connected table. Displayed by the instrument 153.
[0035]
When the player inserts a prepaid card in which the card balance is recorded into the card insertion slot 155, the card balance recorded in the prepaid card is read. Next, when the player performs a predetermined ball lending operation, the balance for the lending unit amount set in advance is reduced, and the hit ball for the lending unit amount is supplied to the pachinko gaming machine 1 It is rented out to dish 3.
[0036]
The card unit 50 is provided with a fraction display switch 152. By pressing the fraction display switch 152, for example, information such as a card balance or an error code when an error occurs is displayed on an information display (not shown) provided in the pachinko gaming machine 1. In the figure, reference numeral 156 denotes a card unit lock, which is configured to open the front side of the card unit 50 by inserting a predetermined key into the card unit lock 156 and performing an unlocking operation.
[0037]
The pachinko gaming machine 1 has a glass door frame 2 formed in a frame shape. A game board 6 is detachably attached to the rear of the glass door frame 2. A hitting ball supply tray 3 is provided on the lower surface of the glass door frame 2. Under the hitting ball supply tray 3, there are provided an extra ball receiving tray 4 for storing balls overflowing from the hitting ball supply tray 3 and an operation knob 5 for a player to hit the ball. When the player operates the operation knob 5, the pachinko balls stored in the hit ball supply tray 3 can be launched one by one. In the center of the game area 7, a variable display device 8 is provided for variably displaying (hereinafter also referred to as variable display) a plurality of types of special symbols that are examples of identification information.
[0038]
The variable display device 8 is provided with a variable display 10 for a normal symbol on which a normal symbol is variably displayed, and a start memory display 18. Further, below the variable display device 8, there are provided a starting electric accessory 15 having a starting opening 14, and a variable winning ball device 19 that is in an open state in which a hitting ball can be won by tilting the opening / closing plate 20. It has been. The starter electric accessory 15 is provided with movable pieces on the left and right. In addition, as general winning holes, winning holes 24 are provided at the upper portion of the variable display device 8, the left and right sides of the variable winning ball device 19, and the lower left and right sides of the game area 7, respectively. Reference numeral 26 denotes an out port that is collected as an out ball when the hit ball that has been driven does not win any of the winning holes or the variable winning ball apparatus, and 25 is a decorative lamp.
[0039]
A frame lamp (game effect LED 28a and game effect lamps 28b, 28c), a prize ball lamp 51 that is turned on when the prize ball is paid out, and a lamp ball break lamp 52 that is turned on when the ball is out are provided on the outer periphery of the game area 7. Speakers 27 and 27 for generating sound effects such as stereo sound are provided on the left and right above the game area 7.
[0040]
The variable display device 8 is provided with a symbol display area 9 capable of variably displaying a plurality of types of special symbols. In the symbol display area 9 in the center of the variable display device 8, three variable display portions are provided, a left variable display portion 9 a, a middle variable display portion 9 b, and a right variable display portion 9 c, in a manner arranged from left to right on the display screen. It has been. Inside these variable display portions 9a to 9c, there are provided rotating drums 90a to 90c, respectively, which are rotationally driven by a drum motor described later. A drum seal on which a special symbol as a plurality of types of identification information is drawn in a predetermined arrangement is attached to the outer peripheral surface of each of the rotating drums 90a to 90c. Special symbols drawn on the sticker can be moved and displayed in the vertical direction. In the variable display portions 9a to 9c, special symbols as a plurality of types of identification information can be individually variably displayed based on the rotation of the rotating drums 90a to 90c.
In the case of this example, the special symbols displayed on each variable display section are symbols composed of 12 kinds of numbers from 0 to 11, and the arrangement is determined in advance, and scrolling (moving in the vertical direction) is performed according to the arrangement order. Display) in a variable manner such as display).
[0041]
The rotating drums 90a to 90c are driven on the condition that a start winning has occurred, and all the variable display sections on the left, middle, and right start variably at the same time. In each variable display section, a plurality of types of special symbols are displayed. Scrolls from top to bottom. Then, by sequentially stopping the rotation of the rotating drums 90a to 90c, the left variable display portion 9a is first controlled to stop, then the right variable display portion 9c is controlled to stop, and finally the middle variable display portion 9b is controlled to stop. . The symbol variably displayed on the left variable display portion 9a is called a left symbol, the symbol variably displayed on the middle variable display portion 9b is called a middle symbol, and the symbol variably displayed on the right variable display portion 9c is a right symbol. Called.
[0042]
Three special symbols can be stopped and displayed in each of the variable display portions 9a to 9c in the vertical direction. Therefore, the special symbols displayed by the variable display device 8 are arranged in a 3 × 3 matrix. In this matrix, the middle line of the lines formed in the horizontal direction is defined as an effective line as a combination effective column.
[0043]
In addition, drum lamps 41 to 49 are provided inside the variable display device 8. The drum lamps 41 to 49 are configured so that the identification information displayed by each of the variable display portions 9a to 9c can be brightly displayed by turning on or blinking, and the special symbols displayed on the variable display device 8 are displayed. The main purpose is to make it easier to see. The drum lamps 41 to 43 are provided in the upper, middle, and lower stages inside the left variable display section 9a so as to illuminate the three symbols that are stopped in the upper, middle, and lower stages of the left variable display section 9a, respectively. Yes. The drum lamps 44 to 46 are provided at the upper, middle, and lower stages inside the middle variable display section 9b so as to illuminate the three symbols that are stopped at the upper, middle, and lower stages in the middle variable display section 9b, respectively. Yes. The drum lamps 47 to 49 are provided at the upper, middle, and lower stages inside the right variable display portion 9c so as to illuminate the three symbols that are stopped at the upper, middle, and lower steps in the right variable display portion 9c, respectively. Yes.
[0044]
In each of the variable display units 9a to 9c, a target scheduled stop symbol, that is, a combination of identification information at the time of stop, is determined in advance when the variable display device 8 starts to change, and each variable display unit 9a to 9c is stopped. The stop control is performed so that the symbol on the active line at the time becomes the scheduled stop symbol.
[0045]
A plurality of types of variation display patterns in the variation display of the special symbol are determined in advance, and are selectively used from among them. This variation display pattern can specify the variation display time required from the start of variation to the fixed display (stop display) of the display result. Some of these variation display patterns have the same variation mode, but a shortened variation pattern in which the variation display time is shorter than normal (normal variation pattern) is set. And a shortened variation pattern are selectively used.
[0046]
In a state where the variable display device 8 is variably stopped, the special symbol on the effective line becomes a predetermined special symbol combination (for example, a combination of a symbol of a flat pattern such as 777). Is a specific display mode determined in advance, a jackpot state as a specific gaming state occurs. Hereinafter, a combination of specific special symbols in which such a big hit state occurs is referred to as a big hit symbol. If it is a big hit, the opening / closing plate 20 of the variable winning ball apparatus 19 tilts and the big winning opening is opened. As a result, the first state is controlled to be advantageous to the player who can win the hit ball in the big winning opening, and the gaming state becomes the specific gaming state (big hit state) advantageous to the player. The opening / closing plate 20 is driven by a solenoid 21.
[0047]
During the variable display of the variable display device 8, a reach state may occur. Here, “reach” has a variable display device whose display state can be changed, the variable display device derives and displays a plurality of display results at different times, and the plurality of display results are specified in advance. In a gaming machine in which the gaming state is a specific gaming state that is advantageous to the player when the display mode is combined, the plurality of display results are already derived and displayed at a stage where they are not yet derived and displayed. A display state in which a display result satisfies a condition that is a combination of the specific display modes. In other words, reach means that a game state is obtained when a display result of a variable display device having a plurality of variable display units whose display states can be changed is a combination of predetermined display modes. In a gaming machine that is in a specific gaming state that is advantageous to the player, when the display result of the variable display device has not yet been derived and displayed, the combination of the specific display modes is likely to be displayed. This is the display state that makes a person think. For example, a state in which variable display by the plurality of variable display units is performed while maintaining a state where the combinations of the specific display modes are aligned is also included in the reach display state. In addition, some reach is likely to generate a big hit when it appears compared to a normal reach. Such a specific reach is called super reach.
[0048]
In addition, the reach state is out of the display condition that becomes the specific display mode even when the display control proceeds after the variable display device is variably started and the display result is reached before the display result is derived and displayed. It also refers to a display mode that does not exist.
[0049]
The reach state is a display state at the time when the display control of the variable display device progresses and reaches a stage before the display result is derived and displayed, and is determined before the display result is derived and displayed. This also refers to a display state in a case where at least a part of the display results of the plurality of variable display areas that have been satisfied the conditions for the specific display mode.
[0050]
A count switch 23 for detecting a ball won in the variable winning ball apparatus 19 is provided inside the large winning opening of the variable winning ball apparatus 19. The special winning opening is divided into a specific winning area and a normal winning area, and a V count switch 22 for detecting a V winning is provided in the specific winning area. The winning ball that has won the specific winning area is detected by the V count switch 22 and then detected by the count switch 23. On the other hand, a normal winning ball won in the normal winning area is detected only by the count switch 23 in the large winning opening. Each time a winning ball won in the variable winning ball device 19 is detected by the count switch 23, 15 prize balls are paid out.
[0051]
On the back side of the pachinko gaming machine 1, there is provided a winning ball collective cover (not shown) that guides the winning balls that have won the winning holes and the winning ball devices along a predetermined winning path. The winning ball guided by is supplied to a winning ball processing device (not shown) for processing one winning ball. The winning ball processing device is provided with a winning ball detection switch (see FIG. 2), and thereby, the winning ball to be paid out by the winning ball processing device is detected.
[0052]
The first state of the variable winning ball apparatus 19 is either when the number of hit balls that have entered the big winning opening reaches a predetermined number (for example, 9) or when a predetermined period (for example, 30 seconds) has elapsed. When the earlier condition is established, the process is temporarily terminated and the opening / closing plate 20 is closed. Thereby, the variable winning ball device 19 is controlled to the second state which is disadvantageous for the player who cannot win a hit ball. Then, on the condition that the hit ball that has entered during the period in which the variable winning ball apparatus 19 is in the first state has made a specific winning in the specific winning area and has been detected by the V count switch 22, the variable winning ball is again detected. The repeated continuation control for setting the device 19 to the first state is executed. The upper limit number of executions of this repeated continuation control is set to 16 times, for example. In the repeated continuation control, a state in which the variable winning ball device 19 is in the first state is called a round. When the upper limit number of executions of the repeated continuation control is 16, the variable winning ball apparatus 19 can be set to the first state for 16 rounds from the first round to the 16th round.
[0053]
A warp inlet 11 is provided in each of the left side portion and the right side portion of the variable display device 8. The hit ball that has entered the warp inlet 11 flows down through the back side of the variable display device 8 and is discharged from the warp outlet 13 to the game area 7 again. For this reason, the hit ball discharged from the warp outlet 13 is in a state where it is relatively easy to win the start opening 14.
[0054]
The hit ball that has entered the warp inlet 11 is detected by the gate switch 12. On the condition that the hit ball is detected by the gate switch 12, the variable display 10 for normal symbols is variably started. If a hit ball is further detected by the gate switch 12 while the variable symbol display 10 is variably displayed, the passing ball is stored with the upper limit of “4” as the storage number. The number is displayed by the number of lit LEDs on a passage memory display (not shown).
[0055]
The normal symbol variable display 10 is composed of a 7-segment display, and identification information called a normal symbol is variably displayed. If the display result of the normal symbol variable display 10 becomes a predetermined display mode (for example, 7), the normal symbol is “hit”. When the “winning” display result is derived on the normal symbol variable display 10, the pair of left and right movable pieces provided on the starter electric accessory 15 is opened once. As a result, the starter electric accessory 15 is opened and the hitting ball becomes easier to win. If one starting ball wins when the starting electric accessory 15 is in the open state, the movable piece closes to the original position, and the hit ball returns to a state where it is difficult to start winning. Further, if a predetermined opening period elapses after the starter electric accessory 15 is in the open state, the movable piece is closed to the original position and the open state is ended even if no start winning is generated. In the probability variation state, the starting electric accessory 15 is opened twice, and the opening period of one time is extended.
[0056]
The start winning ball won in the start opening 14 is detected by a start opening switch 17 provided on the game board 6. When the start winning ball is detected by the start opening switch 17, five prize balls are paid out, and the variable display device 8 is variably started based on the detection output. The start prize detected by the start port switch 17 while the variable display device 8 is variably displayed is stored with “4” as the upper limit of the stored number, and the stored number is displayed on the start storage display 18 by the number of lit LEDs. The The above-described special symbol shortening variation is performed when the number of start winnings stored is "4". Such start winning is stored in a RAM of a basic circuit described later.
[0057]
If the stop display result of the variable display of the variable display device 8 is a big hit symbol, and the big hit symbol is a predetermined probability variable symbol, the probability hit state is controlled after the big hit state based on the stop display result. Here, the probability variation state is a kind of special gaming state that is advantageous to the player, which is different from the specific gaming state, and is a state in which the probability that a big hit will occur is improved compared to the normal time (normal gaming state). Say. In addition, the probability variation symbol is a predetermined type of jackpot symbol among a plurality of types of jackpot symbols, and if the jackpot symbol determined as the probability variation symbol results in a stop display result of variable display, the probability Control is performed in a fluctuating state. A big hit with the occurrence of a stochastic fluctuation state is called a probabilistic big hit, and a big hit without the occurrence of a stochastic fluctuation state is called a non-probable big hit.
[0058]
Such a probability variation state continues for a predetermined duration as will be described later, and if the next big hit is a probable big hit again, the specific gaming state associated with the second probable big hit After the end, the probability variation state is entered again.
[0059]
Therefore, if the number of consecutive probable big hits is not limited, it may be repeatedly controlled to the probability fluctuation state for an extremely long period of time, and the player's shooting will be overwhelmed by the special gaming state. .
[0060]
Therefore, in the case of this pachinko gaming machine 1, after the first probability variation jackpot has occurred, if the probability variation jackpot continues for a predetermined number of times, a limit is imposed so that the probability variation jackpot does not occur. In the following, this restriction is referred to as “limiter operation”. Further, a big hit that occurs in a low probability state (a state where the probability of occurrence of a big hit is set lower than a high probability state, which means the above-described normal gaming state) is also referred to as a first hit.
[0061]
The probability variation state is also referred to as a high probability state, a probability improvement state, or a probability variation state. In the probability variation state, the probability that the display result of the normal symbol variable display 10 is a hit is also improved.
[0062]
FIG. 2 is a block diagram illustrating an example of a circuit configuration in the game control board 31. FIG. 2 shows a game control board (also referred to as a main board) 31, a prize ball board 37, a lamp control board 35, a sound control board 70, a launch control board 91, and a display control board 80 as control boards.
[0063]
The winning ball board 37, the lamp control board 35, the sound control board 70, the launch control board 91, and the display control board 80 are equipped with microcomputers, and are provided with, for example, a CPU and an I / O port.
[0064]
A ball dispensing device 97 and a card unit 50 are connected to the prize ball substrate 37. Connected to the lamp control board 35 are a game effect LED 28a, a prize ball lamp 51, a ball break lamp 52, and game effect lamps 28b and 28c. An operation knob (hit ball operation handle) 5 and a drive motor 94 for driving a ball hitting hammer (not shown) are connected to the firing control board 91. The driving force of the drive motor 94 is adjusted according to the operation amount of the operation knob 5. A variable display device 8 (not shown) is connected to the display control board 80. A speaker 27 is connected to the sound control board 70.
[0065]
The game control board 31 includes a basic circuit (game control microcomputer) 53 for controlling the pachinko gaming machine 1 in accordance with a game control program, a switch circuit 58, a solenoid circuit 59, a lamp / LED circuit 60, information An output circuit 64, an initial reset circuit 65, and an address decode circuit 67 are provided.
[0066]
The basic circuit 53 is a microcomputer for game control, and includes a ROM 54 for storing a game control program, a RAM 55 used as a work memory, a CPU 56 for performing a control operation in accordance with a game control program, and an I / O port 57. including. The basic circuit 53 repeatedly executes the game control program stored in the ROM 54 periodically (for example, every 2 msec) from the top in accordance with the timer interrupt.
[0067]
The initial reset circuit 65 is a circuit that resets the basic circuit 53 when the power is turned on. The basic circuit 53 initializes the pachinko gaming machine 1 in response to the initial reset pulse sent from the initial reset circuit 65. The address decode circuit 67 is a circuit that decodes the address signal supplied from the basic circuit 53 and outputs a signal for selecting any one of the I / O ports 57.
[0068]
The switch circuit 58 is a circuit that supplies signals from various switches to the basic circuit 53. The switch circuit 58 is connected to the gate switch 12, the start port switch 17, the V count switch 22, the count switch 23, and the winning ball detection switch 99.
[0069]
The information output circuit 64 is based on the data given from the basic circuit 53, probability variation information indicating that a probability variation has occurred and a probability variation state, jackpot information indicating that a big hit has occurred and a specific gaming state has occurred, In addition, the circuit is a circuit for outputting start winning information indicating the occurrence of the start winning that is effectively used for variable display in the symbol display area 9 to the host computer such as a hall management computer.
[0070]
The solenoid circuit 59 is a circuit that drives the solenoid 16 that operates the movable piece of the starting electric accessory 15 and the solenoid 21 that opens and closes the opening / closing plate 20 of the variable winning ball apparatus 19 in accordance with a command from the basic circuit 53.
[0071]
The lamp / LED circuit 60 is a circuit that controls lighting and extinction of the variable display (ordinary symbol variable display) 10, the decorative lamp 25, and the start-up memory display 18.
A command, which is an example of command information, is transmitted from the game control board 31 to the prize ball board 37, the lamp control board 35, the sound control board 70, and the display control board 80.
[0072]
The commands transmitted from the game control board 31 to the prize ball board 37 include commands as command information related to prize ball payout control and commands as command information related to ball payout control (for example, ball lending prohibition command, Lending prohibition release command, etc.).
[0073]
The command transmitted from the game control board 31 to the display control board 80 is a display control command. Among the display control commands, a command related to a special symbol is used to start the variable display of the variable display device 8 and to display the fluctuation pattern. The change start command to specify, the left, middle and right stop symbol commands to specify each of the left, middle and right special symbols, the all symbol stop command to specify the end of the symbol change display, etc. is there. This display control command is composed of two sets of 2-byte data of MODE data (CMD1) and EXT data (CMD2) made up of 1-byte data. The MODE data is data indicating a command type such as a change start command or a stop symbol command. The EXT data is data that specifically designates specific display control contents among the command types indicated by the MODE data. Such command data is stored in the ROM 54 of the basic circuit 53.
[0074]
The basic circuit 53 outputs a predetermined lamp control command to the lamp control board 35 based on occurrence of a big hit or winning. On the lamp control board 35, lighting control of the electrical decorative component is performed based on the lamp control command.
[0075]
The basic circuit 53 outputs a predetermined voice control command to the voice control board 70 based on occurrence of a big hit or winning. The sound control board 70 performs control to output a predetermined sound effect from the speaker 27 based on the sound control command.
[0076]
The basic circuit 53 pays out a predetermined number of prize balls based on the detection signal of the winning ball detection switch 99, the detection signal of the start port switch 17, the detection signal of the V count switch 22, and the detection signal of the count switch 23. A prize ball signal is output to the prize ball substrate 37. The prize ball substrate 37 controls the ball dispensing device based on the outputted prize ball signal to perform a control for dispensing a predetermined number of prize balls.
[0077]
More specifically, for example, 15 prize balls are paid out for each winning ball for the winning ball that has won the big winning gate of the variable winning ball apparatus 19, and one for the winning ball that has won the starting winning port 14. For example, 6 prize balls are paid out for each winning ball, and for the other winning balls 24 awarded to the winning opening 24, for example, 10 prize balls are paid out for each winning ball.
[0078]
The game control board 31 performs the following control operation in order to control the payout of such three types of prize balls. When a detection signal from the start port switch 17, the V count switch 22 or the count switch 23 is input, the detection signal is used as a payout number determination data used when determining the payout number of the award balls. The number of payouts is temporarily stored internally. Thereafter, if a detection signal from the winning ball detection switch 99 is input, it is determined by referring to the payout number determination data whether there is a detection signal from the start port switch 17 before the input. The game control board 31 outputs a prize ball command signal for instructing the prize ball board 37 to pay out the number of prize balls “6”. On the other hand, when there is a detection signal from the winning ball detection switch 99 and there is a detection signal from the V count switch 22 or the count switch 23 before that, the game control board 31 has a prize ball of “15”. A number of prize ball command signals are output to the prize ball substrate 37. Further, when there is a detection signal from the winning ball detection switch 99, if no detection signal has been input from any of the start port switch 17, V switch 22 and count switch 23 before that, game control is performed. The board 31 outputs a prize ball command signal to the prize ball board 37 for giving a command of paying out the number of prize balls of “10”.
[0079]
The prize ball number signal sent from the game control board 31 to the prize ball board 37 is received by a payout control microcomputer (not shown) provided on the prize ball board 37. The payout control microcomputer drives the ball payout device 97 to perform control for paying out the number of prize balls specified by the prize ball number signal.
[0080]
FIG. 3 is a block diagram showing a circuit configuration of the display control board 80 and its control target device. The display control CPU 101 incorporating the RAM 101a operates according to a control program stored in the control data ROM 102, and displays a display control signal INT (split signal) as a strobe signal from the game control board 31 via the input buffer 105a in the input buffer circuit 105. The display control CPU 101 enters an interrupt operation state and takes in display control command data. Then, in order to perform a special symbol variation display according to the captured display control command data, the drum motors 900a to 900c are controlled to rotate, and the rotary drums 90a to 90c of the left to right variable display portions 9a to 9c described above are rotated. The special symbols displayed on the left to right variable display sections 9a to 9c are controlled to be displayed. The control data ROM 102 stores various display control data such as data related to the display pattern of the variable display, and the display control CPU 101 executes display control stored in the control data ROM 102 in accordance with the execution of the control program. The special symbol corresponding to the display pattern specified by the display control command data is subjected to the variable display control by reading out the data for use in the control.
[0081]
The drum motor 900a is a stepping motor and is an electrical drive source that drives the rotary drum 90a corresponding to the left variable display portion 9a. The drum motor 900b is a stepping motor and is an electrical drive source that drives the rotary drum 90b corresponding to the middle variable display portion 9b. The drum motor 900c is a stepping motor and is an electric drive source that drives the rotary drum 90c corresponding to the right variable display portion 9c.
[0082]
In addition, drum position sensors 91a to 91c are provided corresponding to the rotating drums 90a to 90c in order to optically detect the drum position. The detection outputs of the drum position sensors 91a to 91c are given to the display control CPU 101. Thereby, the display control CPU 101 recognizes the drum position of each rotating drum. In each rotating drum, the relationship between the drum position and the display symbol is determined in advance, and the display control CPU 101 recognizes which symbol is currently on the effective line based on the recognized drum position.
[0083]
The drum motors 900 a to 900 c are connected to the motor drive circuit 104 and are driven to rotate based on a drive control signal (including a drive current) supplied from the motor drive circuit 104. The drum lamps 41 to 49 described above are connected to the drum lamp circuit 108, respectively, and are controlled to be turned on, blinking, or turned off based on a control signal from the drum lamp circuit 108.
[0084]
Specifically, the display control CPU 101 gives a motor control signal to the motor drive circuit 104 via the output buffer circuit 103 in the display control board 80 in order to perform variable display control according to the display control command data. The motor drive circuit 104 receives electric power for driving the drum motor from the motor power supply circuit 106, gives drive control signals to the drum motors 900a to 900c in accordance with the motor control signals received from the display control CPU 101, and the drum motors 900a to 900c. Is driven in a state corresponding to the motor control signal received from the display control CPU 101.
[0085]
When the special symbol variation display is performed, the display control CPU 101 reads the display control data corresponding to the variation pattern specified by the display control command data from the control data ROM 102, and the special symbol variation display time according to the display control data. Rotating drums 90a to 90c are driven so that the scheduled stop symbol can be stopped at the end timing of. Such special symbol variation display control is performed while confirming the positions of the rotating drums 90a to 90c, that is, the displayed symbols, based on the detection outputs of the drum position sensors 91a to 91c. The stop symbol is stopped and displayed on the active line.
[0086]
Further, the display control CPU 101 gives a lamp control signal to the drum lamp circuit 108 via the output buffer circuit 103 in the display control board 80 in order to perform variable display control according to the display control command data. The drum lamp circuit 108 receives power for driving the drum lamp from the lamp power supply circuit 107, energizes the drum lamps 41 to 49 according to the lamp control signal received from the display control CPU 101, and controls the display of the drum lamps 41 to 49. The state is set in accordance with the lamp control signal received from the CPU 101.
[0087]
The display control CPU 101 has a built-in RAM 101a for storing display control command data, which will be described later. When a display control command is received from the game control board 31, the effect display control determined in advance in each variation pattern. Also do. In the variable display device 8, a big hit announcement is also made, but these are controlled independently by the display control CPU 101.
[0088]
The input buffer circuit 105 to which a display control command is input on the display control board 80 side allows signal transmission only in the direction from the game control board 31 to the display control board 80, but game control is performed from the display control board 80 side. This is an irreversible input means that does not transmit a signal toward the substrate 31 side. As the input buffer 105a constituting the input buffer circuit 105, for example, a general-purpose CMOS-IC 74HC244 is used in two chips. A low level (GND level) is always applied to the enable terminal of the input buffer 105a. According to such a configuration, the possibility that a signal is given from the display control board 80 to the game control board 31 can be reliably eliminated. Accordingly, there is no room for signals to be transmitted from the display control board 80 side to the game control board 31 side, and even if unauthorized modification is added to the transmission path of the display control command, the signal output by the unauthorized modification is sent to the game control board 31 side. There is no transmission. For this reason, one-way communication between the game control board 31 and the display control board 80 is secured, and an illegal signal (data) is input to the game control board 31 via the transmission path of the display control command. Therefore, it is possible to reliably prevent an illegal act that causes a proper control operation. Further, since the irreversible input means is composed of a buffer IC circuit, it is possible to prevent illegal information from being input to the game control means relatively easily. Note that other circuit elements such as individual transistors may be provided as the irreversible input means.
[0089]
Similarly, the output buffer circuit 63 from which the display control command is output on the game control board 31 side permits signal transmission only in the direction from the game control board 31 to the display control board 80, but from the display control board 80 side. This is an output interface having irreversibility that does not transmit a signal toward the game control board 31 side. Accordingly, there is no room for signals to be transmitted from the display control board 80 side to the game control board 31 side, and even if unauthorized modification is added to the transmission path of the display control command, the signal output by the unauthorized modification is sent to the game control board 31 side. There is no transmission.
[0090]
FIG. 4 is a diagram showing various random counters used by the basic circuit 53 on the game control board 31 side for game control. FIG. 4 shows five types of random counters C_RND1, C_RND_L, C_RND_C, C_RND_R, and C_RND_RACT.
[0091]
C_RND1 is a jackpot determination (judgment) used to determine whether or not the result of variable symbol special display based on the start winning memory is a big hit when there is a start winning memory (also referred to as a start memory). It is a random counter. This random counter is incremented and incremented by 1 every timer interrupt (specifically every 0.002 seconds), incremented and updated from 0 to the upper limit of 299, and then incremented and updated again from 0. The
[0092]
C_RND_L, C_RND_C, and C_RND_R are random counters used to determine the type (scheduled stop symbol) of the stop symbol (definite symbol) that is finally stopped and displayed in the symbol display area 9.
[0093]
C_RND_L is for determining the left symbol. When C_RND_L is added from 0 and added to 11 which is the upper limit, C_RND_L is added again from 0. C_RND_L is incremented by 1 every timer interrupt, that is, every 0.002 seconds. In the case of a big hit, the middle symbol and the right symbol are determined based on the C_RND_L and are aligned with the same symbol as the left symbol.
[0094]
C_RND_C is a random counter for medium symbol determination, and is added from 0 again when it is added from 0 and added to 11 which is the upper limit thereof. C_RND_C is incremented by 1 every timer interruption, that is, every 0.002 seconds, and every interruption processing surplus time. Here, the interrupt processing surplus time is the surplus time until the next timer interrupt is generated after the interrupt processing routine of FIG. 19 to be described later is executed, and this surplus time is used. Then, the addition process is executed in an infinite loop according to step S3 of FIG.
[0095]
C_RND_R is a random symbol for determining the right symbol, is added from 0 and is added up to 11 which is the upper limit thereof, and is added again from 0. C_RND_R is incremented from 0 after being added up to 11 which is its upper limit. C_RND_R is incremented by one for each carry of C_RND_C described above.
[0096]
C_RND_RACT is a reach selection random counter for selecting and determining the type of reach effect display when the reach state effect display is performed, and is added from 0 to 119 which is the upper limit thereof, and then 0 again. Is added. C_RND_RACT is incremented by 1 every timer interruption, that is, every 0.002 seconds, and every interruption processing surplus time. Each value of 0 to 119 that can be taken by this C_RND_RACT is associated with one of a plurality of types of reach effect display types (reach 1 to reach 5 described later), and this C_RND_RACT The type of reach effect display corresponding to the extracted value is performed.
[0097]
Next, the arrangement configuration of special symbols displayed in the symbol display area 9 of the variable display device 8 will be described. Each of the special symbols of the left symbol, the middle symbol, and the right symbol is composed of a plurality of types of symbols (12 types in this example), and is variably displayed in a display mode such as scroll display. Each special symbol is stored in the ROM 54 of the basic circuit 53 as symbol data in which a plurality of symbols are arranged in a predetermined order. The special symbols are variably displayed by scrolling in the order according to the arrangement order.
[0098]
The specific configuration of the special symbol design data is as follows. In each of the left, middle, and right symbols, symbol position numbers 0, 1,..., 11 are assigned to the 12 symbols. Such a symbol position number corresponds to each of 0 to 11 counter values that can be extracted from each of C_RND_L, C_RND_C, and C_RND_R described above.
[0099]
When the jackpot is pre-determined based on the extracted value of C_RND1, the symbol where the extracted value of C_RND_L matches the symbol position number is selected and determined as the left, middle, and right scheduled stop symbols. The As a result, when the big hit is determined in advance, the left, middle and right scheduled stop symbols are aligned to the same symbol. On the other hand, when the deviation is determined in advance, the symbols where the extracted values of C_RND_L, C_RND_C, and C_RND_R match the corresponding symbol position numbers are selected and determined as the left, middle, and right scheduled stop symbols. Is done. However, if all of the scheduled stop symbols selected and determined as such match, the middle symbols are shifted by one symbol so that the left, middle and right scheduled stop symbols are not aligned with the same symbol type. As a result, the symbol is forcibly corrected to the symbol.
[0100]
FIG. 5 is a flowchart for explaining a processing procedure for determining whether or not the result of variable display of a special symbol based on the start memory is a big hit when there is a start memory.
[0101]
If there is a start win, the count value of C_RND1 is extracted. The extracted value of C_RND1 is stored in the jackpot determination bank. Here, the big hit determination bank is a storage area for temporarily storing data of the extracted value of C_RND1 extracted according to the start winning, and is provided in the work area of the RAM 55 of the basic circuit 53. Since up to four start winnings are stored, the big hit determination bank is constituted by a shift register having four storage areas of bank 0 to bank 3. In the big hit determination bank, when the start winning is detected, the extracted value data of C_RND1 corresponding to the start win is stored in the order of the big win determination banks 0, 1, 2, and 3.
[0102]
Specifically, the maximum four extracted values of C_RND1 corresponding to the start winning are stored, but the extracted values at the oldest timing are stored in the big hit determination bank 0, and according to the start winning, the banks 1, 2 , 3 are stored in the order of extraction values. The extracted value stored in the bank 0 of the big hit determination banks 0 to 3 is used to determine whether or not to generate a big hit. When the determination of bank 0 is completed, the stored data of bank 0 is cleared and the stored data of banks 1, 2, and 3 are shifted toward bank 0 by one bank. Then, the big hit determination according to the start winning memory is performed by repeatedly executing such a big hit determination and data shift.
[0103]
In addition, the count value of C_RND_L is extracted at the same time when the start winning is detected, and the extracted value is stored in the left symbol determination bank. The left symbol determination bank is also provided in the work area of the RAM 55 of the basic circuit 53 in the same way as the big hit determination bank, and is a shift register having four storage areas of the left symbol determination bank 0 to the left symbol determination bank 3. It is comprised by. In the left symbol determination bank, when the start winning is detected, the extracted value data of C_RND_L corresponding to the start symbol is stored in the order of the left symbol determination banks 0, 1, 2, and 3. go.
[0104]
Next, a jackpot determination value for determining the extracted value stored in the jackpot determination bank is set. Here, in a normal time (normal game state) that is not a high probability time (probability fluctuation state), “7” is set as the jackpot determination value. On the other hand, when the probability is high, five jackpot determination values “3”, “7”, “11”, “17”, and “79” are set.
[0105]
Next, the set big hit determination value and the extracted value are compared. In normal times, it is determined that the big hit is made when the extracted value is “7”, and it is decided that the extracted value is lost. On the other hand, when the extracted value is “3”, “7”, “11”, “17”, “79”, it is determined to be a big hit, and at other times, it is out of place. It is decided to do. As a result, the jackpot probability in the normal state other than the probability variation state is 1/300, whereas in the probability variation state, the jackpot probability is improved to 5 times as 1/60.
[0106]
When it is determined that the jackpot is determined, the value of C_RND_L stored in the left symbol determination bank is referred to, and the jackpot symbol to be stopped at the doublet is determined based on the extracted value. On the other hand, when it is determined to be off, the values of C_RND_L, C_RND_C, and C_RND_R are extracted at the start of the variable display, and the symbol display area 9 is finally stopped based on the extracted values. The symbol is determined. Here, if the determined symbol is accidentally a symbol of a slot, “1” is added to the extracted value of C_RND_C, and the symbol is forcibly set as a symbol.
[0107]
Of the processes described with reference to FIG. 5, processes other than the determination of the off symbol are performed in advance before starting the special symbol variable display. The process of determining the off symbol is performed at the start of the variation of the special symbol.
[0108]
In the case of this pachinko gaming machine 1, when a probability variation state occurs, two types of durations are provided. One type of duration (first duration) is until the next big hit occurs. The other type of duration (second duration) is a period until a predetermined number of changes are displayed after the probability change state occurs. However, in the second continuation period in this case, if the next big hit occurs, the continuation period ends even if the number of times of the variable display has not reached the predetermined number. Such a duration is selectively used according to the type of jackpot symbol.
[0109]
Next, the relationship between the type of jackpot symbol, the probability variation symbol, and the duration will be described. FIG. 6 is a table showing the relationship between the type of jackpot symbol, the probability variation symbol, and the duration. In FIG. 6, (a) shows the setting of the probability variation symbol and duration for the pachinko gaming machine according to this embodiment, and (b) shows the probability variation symbol and duration duration shown in (a). An example in which the setting is changed in accordance with the change of the setting data is shown. Data indicating the correspondence relationship in FIG. 6 is stored in the ROM 54 and is read from the ROM 54 to the RAM 55 for use.
[0110]
First, referring to (a) of FIG. 6, data indicating “no probability change” is set for the big hit symbols of 0, 2, 4, 6, 8, and 10. For the big hit symbols 1, 5, and 9, data indicating the duration of “up to 10,000 fluctuations” is set as the probability variation symbol. In other words, the data of up to 10,000 fluctuations also indicates that it is a probable variation symbol in addition to the duration. For the big hit symbols 3, 7, and 11, data indicating the duration of “until the next big hit” is set as a probability variable symbol. In other words, the data up to the next big hit also indicates that it is a probable variation symbol in addition to the duration.
[0111]
Thus, in the case of the pachinko gaming machine 1 of this embodiment, whether to control to the probability variation state is selected and determined according to the type of jackpot symbol, and, at the same time, the continuation in the case of controlling to the probability variation state The period is selected and determined from two types of durations.
[0112]
When the jackpot symbol becomes a symbol corresponding to the duration of “up to 10,000 fluctuations”, the probability fluctuation state is continued until the number of fluctuation displays after being controlled to the probability fluctuation state reaches 10,000. . However, if a big hit occurs before the number of times of variable display reaches 10,000, counting of the number of times of variable display is forcibly terminated. On the other hand, when the jackpot symbol becomes a symbol corresponding to the duration of “until next jackpot”, the probability variation state is continued until the next jackpot occurs after being controlled to the probability variation state.
[0113]
Here, as shown in FIG. 24 described later, the game control program for performing the control for defining the duration based on the above-described data “up to 10,000 times of change” is up to the number of times of change indicated by the data indicating the number of changes. It is configured to execute processing for continuing the probability variation state. Therefore, by changing the data of the number of times of variation display indicated by the data “up to 10,000 times of variation”, the same game control program can be used to perform control with different processing contents for continuing the probability variation state. .
[0114]
As shown in FIG. 6A, when the duration is set to “until 10,000 fluctuations”, considering that the jackpot probability in the probability fluctuation state is 1/60, the probability theory is 10,000. The probability that at least one big hit will occur when the variable display is executed is as follows. For example, when one fluctuation display is performed in the probability fluctuation state, the probability that a deviation occurs is 59/60. And the probability that such a detachment occurs continuously 10,000 times is (59/60)¹⁰⁰⁰⁰≒ 1.08 × 10^-73It becomes. Considering this from the standpoint of jackpot occurrence, when the fluctuation display is executed 10,000 times by subtracting 1 from the numerical value of the probability of the occurrence of the continuation occurring 10,000 times in this way. The probability that at least one big hit will occur is 1- (59/60)¹⁰⁰⁰⁰≈1 is obtained. In other words, if 10,000 fluctuation displays are executed, a big hit should occur at least once.
[0115]
Since the duration of the probability fluctuation state once ends when the big hit occurs, when the duration of “up to 10,000 fluctuations” is set, the duration of “up to the next big hit” is substantially described above. The setting has the same meaning as the setting of. Therefore, by setting the number of fluctuation displays in this case to the number of fluctuation displays (10000) that is equal to or greater than the reciprocal (60) of the jackpot probability (1/60) in the probability fluctuation state, Since the probability of 2 ("until the change display for 10,000 times" is substantially the same as "until the next big hit", the case where the big hit symbol is 1,3,5,7,9,11 substantially It is the same as the duration of “until next jackpot”, and ½ of the jackpot symbol will be in the state of probability fluctuation in the duration of “until next jackpot”), and will continue until the next jackpot This is substantially the same as the setting for controlling the probability fluctuation state.
[0116]
FIG. 6B is an example in the case where the processing content for continuing the probability variation state is made different based on the data shown in FIG. In the case of (b) in FIG. 6, for jackpot symbols 1, 5, and 9, data indicating the duration of “up to 50 fluctuations” is set as the probability variation symbol. That is, the data indicating 10,000 times is changed to data indicating 50 times. In this way, by changing and setting data without changing the control program, it is possible to easily change the duration defined by the number of variable displays.
[0117]
In the case of (b) of FIG. 6, the data of the number of changes is 50 times, and the number of times of change display is not set equal to or greater than the reciprocal (60) of the big hit probability (1/60) in the probability change state. In the case of (b) in FIG. 6, the probability that at least one jackpot will occur when the variable display is executed 50 times in the same way as in the case of (a) in FIG. 6 is 1− (59/60). )⁵⁰≈0.57. In other words, it is difficult to say that at least one big hit occurs when 50 times of variation display is executed. However, in this case, the duration of “up to 50 fluctuations” cannot be substantially the same as the duration of “up to the next big hit”. Therefore, in the case of FIG. 6B, unlike the case of FIG. 6A, when the probability variation state is reached, the duration defined by the number of variable display times up to 50 variable display times. Then, two types of continuation periods different from the continuation period defined by the occurrence of the big jackpot until the next big jackpot are selectively used.
[0118]
If the duration as shown above is set, the following effects can be obtained. Since the special game state is controlled by selectively using a plurality of types of duration, the range of game contents is widened. Then, the second duration period defined by the number of times of variable display continues the probability fluctuation state until a predetermined number of variable displays are counted in excess of the number corresponding to the reciprocal of the probability of generating the specific gaming state. If this predetermined number of variable displays is performed, the probability that a probability variation state will occur is high in probability theory. Further, the big hit state in the second continuation period is more surely generated as the number of variable displays that define the second continuation period is extremely increased. Therefore, if the number of times of setting the variable display that defines the second continuation period is extremely increased, the big hit state is generated more reliably in the second continuation period. In this case, the second continuation period is the first continuation period. That is, it is substantially the same type of duration as the duration until the next big hit state occurs. On the other hand, if the number of variable displays that define the second continuation period is relatively small, the probability that a big hit state will occur in the second continuation period will be relatively low. The period is a different type of duration from the first duration. Therefore, by selectively using the second duration as the first duration, even in the second duration, depending on the setting of the number of variable displays that define the duration, The duration can be set to either a duration substantially the same as the first duration or a duration different from the first duration. For this reason, on the basis of the simplest possible change, two different types of control content regarding the duration of the probability variation state (the control of the probability variation state using one type of duration “until the next big hit”, and “ A gaming machine capable of selectively realizing two types of control (selectively using two types of continuation periods), “until the next big hit” and “until a predetermined number of fluctuation displays are executed”. Can be provided.
[0119]
In addition, the probability variation state as the special gaming state is an advantageous state for the player who has improved the probability of occurrence of the big hit state, and the player's sense of expectation can be enhanced by controlling the probability variation state. In the case of this second continuation period, the control period in the probability variation state is limited by the number of executions of the variable display. Therefore, depending on the setting of the number of variable displays that define the period, the player in the probability variation state is nervous. A feeling can be provided and a player's interest can be improved in connection with it. In addition, if the control period of the probability variation state is limited by the number of executions of the variable display, if the number is set to be relatively small, the probability variation state does not continue for a long period of time. A game with Rihari can be provided.
[0120]
In this example, the case has been described in which the continuation period defined by the variable display count is set to the same number for all the relevant probability variation symbols. However, the present invention is not limited to this, and a plurality of types of variable display counts may be set for the corresponding probability variation symbol, such as setting the variation display count for each corresponding probability variation symbol.
[0121]
In the example of FIG. 6 (a), the duration defined by the number of times of display of fluctuations is 10000 times of times of change display. In this case, the number of times of change display of the duration is at least the reciprocal of the probability of occurrence of jackpot. You can do it. That is, in this case, it is desirable that the number be 60 times or more which is the reciprocal of 1/60 of the jackpot probability in the probability variation state. The reason for this is that if variable display is performed 60 times in the probability fluctuation state, the probability that a big hit will occur in the probability theory is relatively high, and the big hit will have a probability that the duration will be felt in the same way as the next big hit. This is because it occurs. In this way, when the duration defined by the number of variable display times is made substantially the same as until the next jackpot, if the duration is set to a number equal to or greater than the variable display count corresponding to the reciprocal of the probability of jackpot occurrence. Thus, it is possible to provide a special game state in a manner that makes the player feel that the game state is advantageous to the player.
[0122]
In addition, in the case where the duration defined by the number of times of change display is substantially the same as the next big hit, it is set to 300 times or more which is the reciprocal of 1/300 of the big hit probability of the normal state which is a non-stochastic fluctuation state. Then, it is possible to generate a big hit in the special gaming state with a higher probability. In that case, the probability variation type corresponding to each of 1, 5, and 9 of the jackpot symbol shown in FIG. 6 is set to a variation of 300 times. For example, when (a) in FIG. 6 is taken as an example, instead of the data “up to 10000 times fluctuation” corresponding to the jackpot symbols of 1, 5 and 9, data “up to 300 times fluctuation” is stored in the ROM 54. And used as the duration of the probability fluctuation state. Thereby, when the big hit symbol when the big hit occurs is any one of 1, 5 and 9, the pachinko gaming machine 1 is controlled to continue the probability fluctuation state until the execution of the fluctuation display 300 times. As described above, in the embodiment in which the data setting “up to 300 times variation” is made corresponding to the big hit symbols of 1, 5, and 9, at least 1 when 300 times of variation display is executed. 1- (59/60) is the probability that a big hit will occur³⁰⁰≈0.9935 is obtained. In other words, if 300 fluctuation displays are executed, a big hit should occur at least once. Therefore, in this case as well, as in the case where the duration of “up to 10,000 fluctuations” is set, the meaning is substantially the same as the setting of the duration of “up to the next big hit” described above. Setting. Therefore, in this case, when a big hit occurs, the probability of ½ ("up to 300 fluctuations display" is substantially the same as "up to the next big hit". The cases where the symbols are 1, 3, 5, 7, 9, and 11 are all the same as the duration of “until the next big hit”, and ½ of the big hit symbols are the duration of “up to the next big hit” This is substantially the same as the setting for controlling to the probability fluctuation state that continues until the next big hit.
[0123]
In this way, when the duration of the probability variation state is limited by the number of variable display times, when the number of variable display times that define the duration is extremely increased, the second duration defined by the number of fluctuations is set to the next time. The first duration up to the big hit can be made closer to the duration of the same type. In addition, since the occurrence of the specific gaming state becomes one of the end conditions of the second continuation period, it is possible to prevent the specific gaming state from occurring frequently during the second continuation period. You can avoid talking too much.
[0124]
Next, the control timing of the probability variation state as the special gaming state will be described using a timing chart. FIG. 7 is a timing chart showing the control timing of the special gaming state.
[0125]
In FIG. 7, (a) shows an example of a control operation in which a probable big hit has occurred during a special game state when the duration is up to the next big hit. Further, (b) shows an example of a control operation in which an uncertain change big hit occurs during the special game state when the duration is 10,000 times (see (a) of FIG. 6). Further, (c) shows an example of a control operation in which a big hit has not occurred during the special game state when the duration is 50 (see (b) of FIG. 6). Further, (d) shows an example of a control operation in which no big hit occurs during the special game state when the duration is 50 times (see (b) in FIG. 6).
[0126]
Each of (a) to (d) of FIG. 7 shows the operation for the big hit state (at the time of big hit control) and the stop (at the time of non-big hit control), and the operation for the special gaming state (at the time of probability variation control) ) And stop (during non-stochastic fluctuation control).
[0127]
First, referring to FIG. 7A, if a big hit occurs and the big hit symbol at the time of the big hit is “3”, “7”, or “11”, the big hit state is finished. Later, the duration is controlled to a special gaming state (probability variation state) set by the next big hit. In this case, a big hit always occurs in the special gaming state. For example, if the big hit that occurred in the special gaming state is a probabilistic big hit, as shown in the figure, after the big hit, the special gaming state is controlled again.
[0128]
Next, referring to (b) of FIG. 7, when the duration defined by the variable display count is set to 10,000 times, the combination of jackpot symbols at the time of jackpot occurrence is “1”, “ If it is “5” or “9”, the game state is controlled to a special gaming state (probability variation state) that is set up to 10,000 times of variation display after the end of the big hit state. In this case, the continuation period is defined by the number of times of variable display, but since the number of times of variable display is set to 10,000 times, a big hit occurs with a very high probability in the special gaming state. In other words, as described above, when the duration is set up to 10000 times of fluctuation display, the duration is substantially the same as the duration until the next big hit. For example, if the big hit that occurred in the special gaming state is a non-probable big hit (a big hit with a big hit symbol of “0”, “2”, “4”, “6”, “8”, “10”) As shown in FIG. 2, after the big hit, the game is not controlled to the special game state. The duration counting ends when a big hit occurs.
[0129]
Next, referring to (c) of FIG. 7, when the duration defined by the number of variable displays is set to 50 times, a big hit is generated, and the combination of the big hit symbols at the time of occurrence of the big hit When “1”, “5”, or “9” is set, the special game state (probability variation state) in which the duration is set up to 50 times of variation display is controlled. In this case, the probability that a big hit will occur in the special game state is not so high as compared with the case where the duration is set to 10,000 times. In other words, if the duration is set up to 50 times of fluctuation display, theoretically, it is not a case where at least one big hit occurs during the duration, so it is substantially the same as the case of the next big hit. It cannot be said that the duration is similar. In this case, if the big change is displayed 50 times without generating a big hit, the special gaming state is terminated at that time.
[0130]
Next, referring to (d) of FIG. 6, when the duration defined by the number of times of change display is set to 50 times, the duration is set to 50 times based on the occurrence of the big hit as described above. If the special game state (probability variation state) set until the fluctuation display is controlled and then a big hit occurs until 50 fluctuation displays are performed (for example, 40 times), the special game state is changed at that time. finish. And, for example, if the combination of jackpot symbols in the jackpot that occurred in the special gaming state is “1”, “5”, or “9”, a special period with a duration set up to 50 times of variable display The game state (probability variation state) is controlled again. In this example, the case where the second special game state is ended by executing the fluctuation display 50 times is shown.
[0131]
In this embodiment, the case has been described in which the second continuation period defined by the number of variable displays ends due to the occurrence of a big hit during the continuation period. However, the present invention is not limited to this. For the second continuation period, even if a big hit occurs at the time when the predetermined number of times of variable display has not yet been executed, the continuation period does not end, and thereafter The probability variation state may continue for the remaining number of variation displays.
[0132]
Next, the relationship between the special symbol variation display control time in the pachinko gaming machine 1 and the number of interrupt processing executed by the basic circuit 53 will be described. FIG. 8 is a timing chart showing the relationship between the special symbol variation display time and the number of interrupt processing executed by the basic circuit 53 in the pachinko gaming machine 1. FIG. 8A shows the relationship between the special symbol fluctuation table control display time and the interrupt processing count during the special symbol non-shortening control (normal time). FIG. 8B shows the relationship between the special symbol variation display time and the interrupt processing count during the special symbol shortening control.
[0133]
Referring to (a) of FIG. 8, in the normal time that is not the special symbol shortening control, the variable display control is performed in the variable display control time set to, for example, 10522 ms. The variable display time of 10522 ms is a time during which an interrupt with a period of 2 ms is executed a few times (in this example, 5261 times).
[0134]
A fixed interval time is provided for the special symbol variation display, and when the winning display is concentrated and the variation display is continuously performed, this interval time has elapsed after the end of the previous variation display. As a result, the next variable display control is permitted. Therefore, when the variable display is continuously performed, an interval of a predetermined time is provided for each variable display. The variable display control time includes an interval time. Thus, a combination of the time when the special symbol fluctuates and the interval time constitutes one fluctuation display control time.
[0135]
As described above, in the case of this embodiment, one fluctuation display control time, which is a control time obtained by combining one fluctuation display time and an interval time, is executed as a prime number (5261 times) of interrupts with a period of 2 ms. It is set to be the time (10522 ms).
[0136]
Next, with reference to FIG. 8B, the relationship between the variable display time and the interrupt processing count during special symbol shortening control will be described. In the shortening control, the variable display control time is uniformly shortened by 6020 ms compared to the non-shortening control. In this case, the variable display control time is set to 4502 ms, which is a time during which a prime number (1751 times) of interruption is executed. In this case, the interval time is set to the same fixed time as in the non-shortening control.
[0137]
In the case of this embodiment, the relationship between the variable display control time and the number of interruption processes described above is applied at least to the normal variable display that is a variable display in which reach effect display is not performed. That is, as shown in FIG. 13, at least for the normal variation display, the variation display control time is set to a time at which a number of interruptions are performed for both non-shortening and shortening.
[0138]
The following effects can be obtained by performing an interrupt of prime number in such a single variable display control time.
[0139]
The operations of the game-related devices including the variable display device 8, various lamps, and the speaker 27 are controlled in accordance with commands of the basic circuit 53 that periodically and repeatedly executes the control program to control the gaming state. Then, at a timing related to the variable display operation such as when the variable control is started in the variable display device 8 according to the start winning prize, a predetermined related to a game such as a lottery of a special symbol scheduled stop symbol using a random counter. The lottery will be held. Since the interrupt processing by the basic circuit 53 for controlling the gaming state of the pachinko gaming machine 1 is executed a number of prime times that is a number having no common divisor in one variable display control time in the variable display device 8, it has been described above. In the lottery, the same lottery result is repeatedly output and the lottery execution timing is synchronized. For example, the lottery is repeatedly performed at regular time intervals as when the variable display is continuously performed. However, it is possible to make it difficult for periodicity to occur in the lottery result performed at the timing related to the variable display operation. Thereby, it is possible to make it difficult for periodicity to occur in the control contents of the game-related devices including the variable display device 8 performed in connection with such a lottery.
[0140]
In particular, it is possible to make it difficult for periodicity to occur in the control content (particularly the stop symbol) of the variable display in the normal variable display (variable display excluding the fluctuation in the reach state), which generally has a high appearance rate.
[0141]
Further, in the pachinko gaming machine 1, the scheduled stop symbol (display result) of the variable display device 8 is selectively determined at the start of the fluctuation based on the numerical data that is periodically updated. Since the interrupt processing is executed a number of times during the variable display control time required for control of the random number, the update period of the numerical data of the random counter used for determining the scheduled stop symbol and the execution of such a variable display control period Since it becomes difficult to synchronize with the cycle, it becomes possible to make the periodicity of the display result of the variable display device 8 less likely to occur, and the randomness of the display result can be improved.
[0142]
In addition, since the symbol of the display result that is selectively determined by the random counters C_RND_L, C_RND_C, and C_RND_R for determining the symbols at the beginning of the variable control time in which the interruption is performed a number of times is an outlier symbol, a big hit state occurs It is possible to make it difficult for periodicity to occur in the display result that is not performed, and it is possible to make it difficult for bias to occur in the display result of the off symbol.
[0143]
Further, as described above, since the variable display control period in which the interruption is performed a few times includes the interval time, the variable display is continuously performed when the interval time is provided between the continuous variable displays. Even in this case, due to the execution of the prime number of control processes in one variation display control period, it is possible to make it difficult to generate periodicity in the display result of the special symbol in the continuous variation display.
[0144]
In this embodiment, only the outlier symbol is selected and determined based on the data extraction at the variation start stage. However, the present invention is not limited to this, and the jackpot symbol is also selected based on the data extraction at the variation start phase. Selection may be made. In this way, since the display result determined by the display result determining means at the start of the variable display control in which the interruption is performed several times is a big hit symbol, the big hit symbol is less likely to have periodicity. Therefore, it is possible to make it difficult for bias to occur in the display result of the big hit symbol.
[0145]
In this embodiment, the case has been described in which the variable display control period of all the variable display patterns is set to a time at which a prime number of interruptions are performed. The variable display control period, the variable display period when reaching reach, the variable display control period when hitting big hits, etc., or a combination of the predetermined variable display patterns Only the time may be set to a time at which prime interruptions are performed.
[0146]
Next, a display control command transmitted from the game control board 31 to the display control board 80 will be described in detail.
[0147]
FIG. 9 is a diagram showing display control command data transmitted from the game control board 31 to the display control board 80 by one-way communication. The display control command data is composed of 8-bit data of CD0 to CD7, and each bit data is transferred in parallel as shown in FIG. Further, a display control signal INT (interrupt signal) as a strobe signal is transmitted from the game control board 31 to the display control board 80. When the interrupt signal is input to the display control board 80, the display control CPU 101 enters an interrupt state, and performs an operation of fetching the command data CD0 to CD7. Further, + 12V and + 5V DC voltages are supplied from the game control board 31 to the display control board 80, and the ground line GND is connected.
[0148]
FIG. 10 is a timing chart showing an example of the transmission timing of the display control command given from the game control board 31 to the display control board 80. In this example, the 2-byte display control data CMD1 and CMD2 constituting the display control command are sent for every 2 ms cycle interrupt. Here, the 1-byte display control data CMD1 output first is the MODE data described above, and the 1-byte display control data CMD2 output later is the EXT data described above.
[0149]
Then, a strobe signal (display control signal INT) is output in synchronization with each display control data. The display control CPU 101 is interrupted at the rising edge of the strobe signal, and the display control command is taken into the display control CPU 101 as received data by the interrupt processing program.
[0150]
FIG. 11 is a diagram showing the setting contents of the control related to the reach state in a table format. In FIG. 11, in the case of big hit (win in the figure), -2 frame lose, -1 frame lose, +1 frame lose, +2 frame lose, and large lose, A possible reach type, a range in which each reach is selected based on the extracted value of C_RND_RACT, and a selection rate (a rate selected based on the value of C_RND_RACT) when execution of each reach is selected are shown. Here, -2 to +2 frame loss is a kind of display result of out-of-range, and indicates how many frames the stop symbol of the middle symbol is shifted from the reach symbol (left, middle symbol). The number of frames in this case is the number of symbols, and one symbol of the symbol difference between the reach symbol and the middle symbol (the difference in symbol position on the symbol arrangement described above) is represented as one frame. Then, the symbol position number of the schedule designation symbol of the reach symbol is regarded as the reference value “0”, the direction in which the number decreases from the symbol position number serving as the reference value is represented by “−”, and the direction in which the number increases It is represented by “+”. Therefore, for example, +2 frame loss refers to a state in which the stop symbol of the middle symbol is shifted by +2 frames from the reach symbol. Further, the large loss refers to a state in which the stop symbol of the middle symbol is displaced from the reach symbol by more than ± 2 frames.
[0151]
Referring to FIG. 11, reach always appears in the case of a big hit. In the case of a big hit, all types of reach from reach 1 to reach 5 can occur. The reach 5 is a full rotation reach that can be displayed only in the case of a big hit. Here, the full rotation reach means a special reach state in which scrolling display is performed in a state where the left, middle and right symbols all match. In the case of the reach 5, the number of symbols to be scrolled in a state where all symbols are matched is set to be selectable in 5 types of 10 to 14 frames. When such reach 5 is displayed, the player can know in advance that a big hit will occur, so the player's expectation during variable display can be greatly improved, and the interest of the game is improved. Can be made. In addition, the player can recognize that there is a high possibility of being lost when reach 1 is displayed, and can recognize that there is a high possibility that a big hit will occur when reach 5 is displayed. Depending on the type of reach that has been made, it is possible to grasp the likelihood of a big hit.
[0152]
The relationship between the extracted value of C_RND_RACT and the type of reach selected in the case of jackpot is as follows. When the extracted value of C_RND_RACT is 0 to 5, reach 1 is selected. That is, in the case of big hit, reach 1 is selected with a probability of 6/120. When the extracted value of C_RND_RACT is 6 to 17, reach 2 is selected. That is, in the case of big hit, reach 2 is selected with a probability of 12/120. When the extracted value of C_RND_RACT is 18 to 35, reach 3 is selected. That is, in the case of big hit, reach 3 is selected with a probability of 18/120. When the extracted value of C_RND_RACT is 36 to 71, reach 4 is selected. That is, in the case of big hit, reach 4 is selected with a probability of 36/120.
[0153]
Further, when the extracted value of C_RND_RACT is 72 to 81, the reach 5 of 10 frames is selected. When the extracted value of C_RND_RACT is 82 to 91, the reach 5 of 11 frames is selected. When the extracted value of C_RND_RACT is 92 to 101, the reach 5 of 12 frames is selected. That is, each of the reach 5 of 10 frames to 12 frames is selected with a probability of 10/120. When the extracted value of C_RND_RACT is 102 to 110, the reach 5 of 13 frames is selected. When the extracted value of C_RND_RACT is 111 to 119, the reach 5 of 14 frames is selected. That is, each of the 13 frames and 14 frames reach 5 is selected with a probability of 9/120.
[0154]
Next, in the case of -2 frame loss, it appears at an appearance rate of 1/12 in the out of reach state. In this case, since the number of symbols of the special symbol (the number of symbol types) is 12, the appearance probability in this case is 1/12 in the sense that one of the 12 symbols is selected. In the case of -2 frame loss, reach types of reach 1 and reach 2 may occur according to the extracted value of C_RND_RACT. When the extraction value is 0 to 23, reach 1 is selected. That is, in the case of -2 frame loss, reach 1 is selected with a probability of 24/120. When the extracted value is 24 to 119, reach 2 is selected. That is, in the case of -2 frame loss, reach 2 is selected with a probability of 96/120.
[0155]
Next, in the case of -1 frame loss, it appears at an appearance rate of 1/12 in the out of reach state. In the case of −1 frame loss, reach types of reach 1 to reach 3 may occur according to the extracted value of C_RND_RACT. When the extracted value is 0 to 11, reach 1 is selected. That is, in the case of −1 frame loss, reach 1 is selected with a probability of 12/120. When the extraction value is 12 to 47, reach 2 is selected. That is, in the case of −1 frame loss, reach 2 is selected with a probability of 36/120. When the extracted value is 48 to 119, reach 3 is selected. That is, in the case of −1 frame loss, reach 3 is selected with a probability of 72/120.
[0156]
Next, in the case of +1 frame loss, there is a case where it becomes +1 frame loss at random, and there is a case where it becomes +1 frame loss due to correction processing from the big hit symbol, so in the outreach reach state, the appearance rate is 2/12 Appear. In the case of +1 frame loss, reach types of reach 1 to reach 3 may occur according to the extracted value of C_RND_RACT. In the case of +1 frame loss, reach 1 to reach 3 are selected at the same selection rate as in the case of −1 frame loss.
[0157]
Next, in the case of +2 frame loss, it appears at an appearance rate of 1/12 in the out of reach state. In the case of -2 frame loss, reach types of reach 1 and reach 2 may occur according to the extracted value of C_RND_RACT. When the extraction value is 0 to 23, reach 1 is selected. That is, in the case of +2 frame loss, reach 1 and reach 2 are selected at the same selection rate as in the case of −2 frame loss.
[0158]
Next, in the case of a large loss, it appears at an appearance rate of 7/12 in the outlier reach state. In the case of a large loss, reach types of reach 1 and reach 4 may occur according to the extracted value of C_RND_RACT. When the extracted value is 0 to 95, reach 1 is selected. That is, in the case of a large loss, reach 1 is selected with a probability of 96/120. When the extracted value is 96 to 119, reach 4 is selected. That is, in the case of large loss, reach 4 is selected with a probability of 24/120.
[0159]
Next, the individual appearance rates for reach 1 to reach 5 when the control related to the reach state as shown in FIG. 11 is set will be described. FIG. 12 is a diagram showing the individual appearance rates for reach 1 to reach 5 in a table format.
[0160]
Referring to FIG. 12, in the case of jackpot, the appearance rate for each of reach 1 to reach 4 is as described above, and the appearance rate for reach 5 is the sum of the appearance rates in all cases of 10 to 14 frames. 48/120 obtained. That is, in the case of a big hit, the appearance rate has a relationship such as reach 1 <reach 2 <reach 3 <reach 4 <reach 5.
[0161]
On the other hand, the appearance rate of each reach in the case of losing is calculated by calculating the appearance rate × selection rate for each state of −2 frame losing to +2 frame losing and large losing, and the sum of the calculation results in each state is the appearance of each reach Become a rate. For example, in the case of reach 3, “(1/12) × (72/120) + (2/12) × (72/120) = 18/120” occurs due to occurrence of −1 frame losing and +1 frame losing. Appearance rate is obtained. Specifically, in the case of a loss, the appearance rate of reach 1 is 63/120, the appearance rate of reach 2 is 25/120, the appearance rate of reach 3 is 8/120, the appearance rate of reach 4 is 14/120, reach 4 The appearance rate is 0 and the tendency of the appearance rate is opposite to that of the big hit, and the appearance rate is in the relationship of reach 1> reach 2> reach 3> reach 4> reach 5.
[0162]
As shown above, for reach 1 to reach 5, the appearance rate is different between the big hit and the lost case, so when the reach state that is likely to appear in the big hit is displayed, A player's expectation can be improved.
[0163]
Next, a variation start command table in which variation start commands including variation pattern command data are stored in the ROM 54 in a table format will be described. This variation start command table is used when outputting variation start command data, and the data of this variation start command table is used for setting a variation start command that specifies a variation pattern. This variation start command table is divided into a shortened time table used during the above-described variable time reduction control and a normal time table used during normal times other than during the variable time reduction control. It is selectively used according to the game control status whether or not the time reduction control is performed.
[0164]
FIG. 13 is a diagram showing the change start command table in a table format. In FIG. 13, (a) shows a normal time table, and (b) shows a shortened time table.
[0165]
With reference to each of FIGS. 13A and 13B, the value “80H” of the data CMD1 of the first byte specifies that it is data of a change start command. Then, the operation content of the variation pattern is designated by the value of the data CMD2 of the second byte. The second byte data of “00H” to “15H” is the fluctuation pattern data at the normal time other than the fluctuation time reduction control, and is stored in the normal time table of (a). On the other hand, data in which the second byte data is “16H” to “2BH” is variation pattern data at the time of variation time reduction control, and is stored in the reduction time table of (b). Thus, the data of the change start command is data in which the value of CMD1 is “80H” and the value of CMD2 is in the range of “00H” to “2BH”.
[0166]
As the operation content specified by the second byte data of the change start command, the special symbol change display control time (the time from the start of change to the end of the interval time after the stop of all symbols) is specified. For example, in the case of the normal time table, the specified variation pattern is set to the variation display control time within the range of 10522 ms to 23122 ms. The variable display control time specified in this way includes the variable display control time itself, the type of fluctuation (normal fluctuation and reach 1 to reach 5), and the presence or absence of reduction (normal fluctuation, normal fluctuation reduction, reach 1, reach 1). Various operation contents such as a shortening and the like, and a type of hit loss state (-2 to +2 frames lost, large lost, 10 frames to 14 frames) are also shown. This is because the variable display control time indicated by the command data is set so that there is no overlapping setting at the same time in each of the variable time shortening control and the normal time. In the control data ROM 102, the variation pattern corresponding to each variation display control time designated by the variation pattern command is divided into the variation time reduction control time and the normal time (specifically, the operation described above). This is because the operation content of the variation pattern is determined on a one-to-one basis based on the variation display control time designated by the variation pattern command. Therefore, specifying the variable display control time also specifies the other operation contents as described above.
[0167]
In the case of the shortening table, variation patterns for variation time shortening control corresponding to all variation patterns stored in the normal time table are stored. In this case, as a variation pattern of the variation time shortening control, a variation pattern obtained by uniformly shortening the variation time of each variation pattern by 6020 ms is stored in the shortening time table. Therefore, the number of data of the variation pattern stored in the normal time table and the number of data of the variation pattern stored in the shortened time table are the same number of data (22 in this case). For example, in this case, “reach n” and “reach n shortening” are the variation display of the same variation pattern, and the pattern displayed as shortened and the pattern not displayed differ only in the variation display control time. As a specific example, for example, in the normal time table, the fluctuation display control time is 10522 ms. Corresponding to the fluctuation pattern at the time of loss, the fluctuation display control time is 4502 ms. Is stored in the shortening table. In addition, in the normal time table, the reach 1 is shortened when the variable display control time is 5102 ms, and the change pattern when the −2 frame is lost is shortened, corresponding to the change pattern when the reach display time is 1122 ms and the variable display control time is 11122 ms. Is stored in the time table.
[0168]
As described above, since the data number of the variation pattern stored in the normal time table is the same as the data number of the variation pattern stored in the shortening table, the variation pattern of the shortening table is set. In this case, since the correspondence relationship with the fluctuation pattern of the normal time table is easy to take, the fluctuation pattern of the shortened time table can be easily set corresponding to the fluctuation pattern of the normal time table.
[0169]
In addition, each variation pattern in the shortened time table has the same time difference from the variation display control time in the corresponding variation pattern in the normal time table. The fluctuation pattern in is uniformly shortened. Thereby, the variable display control time in the time shortening display can be surely shortened.
[0170]
In this example, the fluctuation display control time of the fluctuation pattern in the normal time is set to a time at which prime interrupts are executed in many patterns, but due to a uniform time difference between the normal fluctuation and the shortening fluctuation, The variable display control time at the time of shortening is not set to the time at which a number of interrupts are executed. Further, the variable display control time may be set to a time when a prime number of interrupts are executed as long as it is at least a variable pattern in which a reach state does not occur. This is because a fluctuation pattern that does not generate a reach state has a much higher display appearance rate than a fluctuation pattern that generates a reach state and is likely to be displayed continuously. This is because it is necessary to set a variable display control time in which interrupts are performed once so that periodicity is less likely to occur in a special symbol stop display result in continuous variable display.
[0171]
Further, by providing the shortening variation pattern, the following effects can be obtained. A short symbol variation time means that the variation is completed in a short period of time, so the start winning memory is quickly reduced. In other words, when the variation display with the shortened variation pattern is performed, the possibility that the start winning memory reaches the upper limit is reduced, and an advantageous situation for the player can be provided.
[0172]
In this example, the shortened variation patterns of the variation display patterns (normal variation and reach 1 to 5) are set. However, the present invention is not limited to this, and one portion of the variation display patterns is displayed. A plurality of variable display patterns (in this example, a display pattern with a reduced variation time and a display pattern with no variation display control time reduced) may be set corresponding to one variation display pattern only for the pattern. In this case, it is desirable to set a shortened variation pattern for a variation display pattern in which the variation display control time is set relatively short among a plurality of types of variation display patterns. As described above, when setting a shortened variation pattern for only one variation display pattern among all the variation display patterns, the display control command is compared with setting a shortened variation pattern for all variation display patterns. The number can be reduced. In addition, in this way, when the shortened variation pattern is obtained by shortening the variation display control time of the variation display pattern having a relatively short variation time, the average variation display control when non-shortened variation display is performed. Since the average variation display control time when the shortened variation display is performed with respect to the time is extremely short, the start winning memory is digested in a shorter average period when the shortened variation display is performed. Therefore, it is possible to provide a game that is advantageous to the player.
[0173]
FIG. 14 is a diagram showing a left stop symbol command as a display control command for designating a stop symbol related to the left symbol in a table format. As shown in FIG. 14, 12 types of left stop symbols (“0” to “11”) can be designated by a display control command composed of 2-byte display control data CMD1 and CMD2. In these designations, the value of the display control data CMD1 in the first byte is “8B (H)”, and the value of the display control data CMD2 in the second byte is “00 (H)” to “8B (H). ) "In the range.
[0174]
FIG. 15 is a diagram showing a medium stop symbol command as a display control command for designating a stop symbol related to the medium symbol in a table format. As shown in FIG. 15, 12 types of medium stop symbols (“0” to “11”) can be designated by a display control command composed of 2-byte display control data CMD1 and CMD2. In these designations, the value of the display control data CMD1 in the first byte is “8G (H)”, and the value of the display control data CMD2 in the second byte is “00 (H)” to “8B (H). ) "In the range.
[0175]
FIG. 16 is a diagram showing a right stop symbol command as a display control command for designating a stop symbol related to the right symbol in a table format. As shown in FIG. 16, 12 types of right stop symbols (“0” to “11”) can be designated by a display control command composed of 2-byte display control data CMD1 and CMD2. In these designations, the value of the display control data CMD1 in the first byte is “8D (H)”, and the value of the display control data CMD2 in the second byte is “00 (H)” to “8B (H). ) "In the range.
[0176]
FIG. 17 is a diagram showing an all symbols stop command as a display control command for designating the end of variable display. As shown in FIG. 17, the stop of all symbols is designated by a display control command composed of 2-byte display control data CMD1 and CMD2. In the designation, the value of the display control data CMD1 in the first byte is “8E (H)”, and the value of the display control data CMD2 in the second byte is “00 (H)”.
[0177]
When a specific display time (variable display period) is specified by a change start command, the display time itself may be specified as a command instead of specifying by EXT data. For example, when the variable display period is 10 seconds, “0AH” that specifies the time may be used as the EXT data.
[0178]
FIG. 18 is a timing chart showing the display timing of display control commands related to the variable display transmitted from the game control board 31 to the display control board 80 between the start of change and the end of change. As shown in FIG. 18, in this embodiment, at the start of symbol variation, a variation start command for designating “variation start” is sent, including designation of a variation display pattern. The change start command is one of the commands [80H, 00H] to [80H, 2BH] shown in FIG. That is, it is a command indicating a variation display pattern of the entire variation of one time. Next, display control commands (left stop symbol command, middle stop symbol command, right stop symbol command) indicating the stop symbol of the left middle right symbol are sequentially transmitted. Then, at the end of the special symbol variation display (when the symbol is stopped), an all symbol stop command ([8EH, 00H]) for instructing “stop all symbols” is transmitted.
[0179]
In this embodiment, when the display control CPU 101 on the display control board 80 receives a change start command, that is, a command indicating a change display pattern, display of a change pattern including a predetermined change time corresponding to the command. The drum motors 900a to 900c are controlled according to the control data to drive the rotating drums 90a to 90c, and variable display control of the left middle right symbol is performed. That is, each variable display pattern is displayed on the basis of the display control data stored in the control data ROM 102 so that the display result is derived and displayed when a predetermined variable display time has passed for each pattern. The schedule is determined in advance, and the variable display is performed according to the schedule.
[0180]
For this reason, when the CPU 101 for display control receives a change start command, the display control CPU 101 recognizes in advance the scheduled display result of the display result based on the change display control time specified based on the command (change display control). (Recognize timing that goes back by the interval time (constant) from the end timing of the time as the timing of the fixed display schedule) The drum motors 900a to 900c are controlled so that the rotating drums 90a to 90c can be displayed so that the stop symbols specified by the left, middle, and right stop symbol commands can be displayed in response to reception of all symbol stop commands. Drive and display special symbols according to the symbol display order (arrangement order) That.
[0181]
Then, at the end of the symbol variation time (when the variation is stopped), the stop symbol becomes the stop symbol of the left middle right symbol specified by the left, middle and right stop symbol commands from the game control board 31. For example, display control or the like in a variation mode other than scrolling such as shaking display is also performed. Here, shaking fluctuation display (also called shaking display) is a kind of temporary stop state (a display result has been derived, but a stop display result has not yet been finalized), and the derived symbol is a symbol. The display shown in such a manner as to alternately swing in the forward and reverse directions of the scroll. Such shaking fluctuation display shifts to a fixed display upon receipt of all symbol stop commands. When the display control CPU 101 receives all the symbol stop commands transmitted during the symbol variation stop in the variation display control time, the variation display stops accordingly.
[0182]
In this way, the basic circuit 53 of the game control board 31 does not continuously output the same display control command data to the display control board 80, but provides display control by providing a predetermined waiting time. In consideration of the data reception performance on the substrate 80 side, the display control command data is output only once in a manner that the display control substrate 80 side can recognize. Thereby, the processing load when the basic circuit 53 outputs the display control command data to the display control board 80 can be reduced.
[0183]
FIG. 19 is a timing chart showing an example of a variable display pattern. (A) shows a non-shortening variation pattern that is not a shortening variation pattern, and (b) shows a variation shortening pattern. Both have the same variation pattern, but only the variation time is different.
[0184]
One fluctuation display includes acceleration fluctuation, high speed fluctuation, medium speed fluctuation, low speed fluctuation, and shaking display. In order to vary the variation time, for example, the high-speed variation period is shortened. Other periods are the same. In FIG. 19, a relatively simple variation pattern is illustrated. However, even if a variation pattern such as a reverse variation is included, a variable display pattern and a shortened variation that are not shortened variation patterns in the same variation pattern. With the pattern, for example, the length of the variation time is determined by the difference in the length of the high-speed variation time at the beginning of variation. Alternatively, the medium speed fluctuation period or the low speed fluctuation period (see FIG. 19) during the fluctuation period may be increased or decreased.
[0185]
Next, the jackpot notice display performed in the symbol display area 9 of the variable display device 8 will be described. Also, the jackpot notice means notifying that there is a possibility that a jackpot will occur before the jackpot occurs. In the case of this embodiment, when a reach state occurs, a jackpot notice can be displayed.
[0186]
In the symbol display area 9, the nine drum lamps 41 to 49 can be freely turned on, blinked, or turned off. The big hit announcement is performed by operating the drum lamps 41 to 49 in a state that is not normally performed.
[0187]
FIG. 20 is a timing chart showing the display control operation of the jackpot notice display performed in the symbol display area 9 of the variable display device 8. Referring to FIG. 20, in this case, the variable display is started in response to the display control CPU 101 receiving the variable start command for designating the reach state. The display control CPU 101 sequentially receives a left stop symbol command, a middle stop symbol command, and a right stop symbol command. At this time, the display control CPU 101 performs a lottery to determine whether or not to make a big hit notice. Details of the lottery will be described later.
[0188]
At the beginning of the change, the left, middle and right special symbols are displayed (the left and right symbols are not shown), and all the drum lamps are turned off. Of the left, middle, and right symbols, the left and right symbols stop sequentially (including temporary stops such as shaking display) as time elapses after the fluctuation starts. When a reach state occurs in which only the middle symbols are scrolling, if the decision to display the big hit announcement is made by the above-mentioned lottery, the pattern for the big hit announcement (for example, on the left and right variable display portions) The drum lamp in the notice A pattern in which the corresponding drum lamps 41 to 43, 47 to 49 blink, or the drum lamp 44 to 46 corresponding to the middle variable display section blinks, for example. It works and this pattern gives a big hit notice. As shown in the figure, the middle symbol stops, for example, through an acceleration fluctuation a, a constant speed fluctuation b, a constant speed fluctuation d after deceleration, a constant speed fluctuation b, and a fluctuation fluctuation c in this order. A reach state is reached at a time between the speed fluctuation d and the constant speed fluctuation b, and a big hit announcement is made.
[0189]
Next, the configuration of the ROM 54 of the basic circuit 53 will be described. FIG. 21 is a data area diagram showing the configuration of the ROM 54 of the basic circuit 53.
[0190]
Referring to FIG. 21, the storage area of ROM 54 is divided into a program management area 541, a ROM comment area 542, a data area 543, unused areas 544 and 546, a program code area 545, and an interrupt vector address area 547. Yes.
[0191]
The game control program as described above is stored (stored) in the program code area 545, read into the RAM 55, and executed. Further, the data indicating the relationship between the type of jackpot symbol, the probability variation symbol, and the duration as described above is stored (stored) in the data area 543, read out to the RAM 55, and used for controlling the duration. Specifically, the game control program includes a program for executing processing for continuing the probability variation state up to the number of variations indicated by the data indicating the number of variations for the duration period stored in the data area 543. . Therefore, if the data indicating the number of fluctuations for stipulating the duration period stored in the data area 543 is changed, it is possible to perform control with different processing contents for continuing the probability fluctuation state using the same control program. It is.
[0192]
Further, since the probability variation state is controlled using the continuation period specified based on the data stored in the data area 543, the second change is made not by changing the program but by changing the data. You can change the duration setting. For this reason, if the control for continuing the probability variation state based on the stored data in the data area 543 is performed, two different types of control contents relating to the duration of the probability variation state are compared with the case of changing the program. It becomes extremely easy to realize selectively.
[0193]
Next, a part of the processing executed by the basic circuit 53 will be described with reference to a flowchart.
[0194]
FIG. 22 is a flowchart showing game control main processing and interrupt processing executed by the basic circuit 53. In FIG. 22, (a) shows a game control main process, and (b) shows an interrupt process.
[0195]
Referring to (a) of FIG. 22, in the game control main process, first, a stack setting process for setting a designated address of the stack pointer is performed (S1). Next, initialization processing is performed (S2). In the initialization process, it is determined whether or not an error is included in the RAM 55. If an error is included, the RAM 55 is initialized and various flags are initialized. Further, in the initialization process, a process of setting a timer interrupt time (for example, 0.002 seconds) that defines timing for executing an interrupt process, which will be described later, in the CPU 56 is performed. As a result, the timing for defining the execution timing of the first interrupt processing after reset due to power-on or the like is started.
[0196]
Next, a display random number update process for determining a stop symbol is performed (S3). In the pachinko gaming machine 1, the stop symbol of the special symbol in the variable display of the variable display device 8 is determined based on the random number (counter value of the random counter). In S3, the display random number for determining a part of the special symbols is updated. The display random number update process continues to be repeatedly executed by an infinite loop. However, when an interrupt process described later is started, the display random number update process is temporarily stopped at the execution position in the program constituting the display random number update process. When the interrupt processing is completed, execution is resumed from the position of the suspended program.
[0197]
Next, referring to (b) of FIG. 22, the interrupt process is performed each time the timer value for the timer interrupt managed by the CPU 56 reaches the set value (the timer interrupt time set in S2 or S13). Execution starts.
[0198]
In the interruption process, first, a process for transmitting a predetermined command for controlling sound generation and LED lighting to the lamp control board 35 and the sound control board 70 is performed, and a hall management computer is provided via the information output circuit 64. Data output processing for transmitting data such as jackpot information, start-up information, probability variation information is performed (S4). Next, various abnormality diagnosis is performed by the self-diagnosis function provided in the pachinko gaming machine 1, and error processing is performed to generate an alarm if necessary according to the result (S5). Next, determination random number update processing for updating each random counter indicating various determination random numbers used for game control is performed (S6).
[0199]
Next, a special symbol process is performed (S7). In the special symbol process, one of a plurality of types of processing is selected and executed according to the value of the special symbol process flag. The value of the special symbol process flag is updated during each process according to the gaming state. Next, a normal symbol process is performed (S8). In the normal symbol process, a corresponding process is selected and executed in accordance with a normal symbol process flag for controlling the normal symbol variable display 10 using the 7-segment LED in a predetermined order. The value of the normal symbol process flag is updated during each process according to the gaming state.
[0200]
Next, switch processing is performed to input the states of the gate switch 12, the start port switch 17, the V count switch 22, the count switch 23, etc., and determine whether or not each winning port or variable winning ball apparatus has been won. (S9). When a start winning is detected by the start port switch 17, a start storage process is executed in this switch process. Specifically, when a start winning is detected by the start switch 17, the counter value of the big hit determination random counter is extracted at that timing, and the extracted value is stored in the start storage big hit determination bank. . Thereby, the start memory (start winning prize memory) is made. As described above, the big hit determination banks for start memory are composed of four banks, bank 0 to bank 3, and a maximum of four start memories can be made by these four banks. Therefore, when a start winning is detected and there is a memory in all the banks, the start winning is invalidated.
[0201]
Next, a display random number update process similar to S3 is performed (S10). Next, winning ball signal processing with the winning ball substrate 37 is performed (S11). That is, when a prize ball number request signal is input from the prize ball board 37, the basic circuit 53 selects a prize ball command (prize ball number designation signal) to be output to the prize ball board 37. Next, a prize ball command output process for outputting the selected prize ball command is performed (S12). The prize ball substrate 37 drives and controls the ball payout device 97 based on the prize ball number designation signal.
[0202]
Next, a timer interrupt time setting process is performed (S13). In S13, a process for setting the timer interruption time (for example, 0.002 seconds) as described above is performed in the same manner as in S2. After S13, this interrupt process ends. As a result, at the end of this interrupt process, the timer interrupt time is set by S13, and the time measurement for defining the execution timing of the next interrupt process is started. Therefore, the time for timer interruption is counted every time the interruption process is completed, and the interruption process is executed every time the timer interruption time elapses thereafter. When this interrupt process is completed, the execution of the main process program described above is resumed from the position where it was temporarily stopped.
[0203]
FIG. 23 is a flowchart for explaining the special symbol process. The special symbol process is a process executed in S7 of FIG. In this special symbol process, after any one of S300 to S307 is executed according to the value of the special symbol process flag, the display control data processing of S308 is executed. By executing the special symbol process, the variation of the special symbol is controlled and the control in the big hit state is performed. Here, the special symbol process flag is a flag that specifies a process to be executed when variable display of each special symbol is executed.
[0204]
In FIG. 23, special symbol process flag values are shown as PF1 to PF8 on the left shoulders of steps S300 to S307. The special symbol variable display operation is divided into a plurality of processes, and is controlled to a state corresponding to the process designated by the data of the special symbol process flag.
[0205]
The special symbol variation waiting process (S300) determines whether or not there is a start prize (whether or not there is a start memory). If there is no start prize, each variable display section 9a to 9c in the symbol display area 9 is determined. This is a process for setting command information for changing the state to a waiting state for waiting for a customer, and updating the special symbol process flag when there is a start winning so as to be able to shift to a special symbol determination process.
[0206]
The special symbol determination process (S301) is a process of extracting data related to the start memory and determining in advance whether or not to make a big hit. Details will be described later with reference to FIG. The symbol variation setting process (S302) is a process for setting a stop symbol and a variation pattern. Details will be described later with reference to FIG. The symbol determination setting process (S303) is a process of outputting a symbol determination command for ending the variable display (to end the special symbol change) to the display control board 80. Details will be described later with reference to FIG.
[0207]
The big hit start process (S304) is a process for outputting a command for starting the first round to the display control board 80. Details will be described later with reference to FIG. The big hit middle process (S305) is a process for outputting a command for starting the second round and thereafter to the display control board 80. The big hit end process (S306) is a process executed when the big hit state is ended.
[0208]
The probability variation lottery process (S307) is a process for setting lottery data that can specify whether or not the probability variation lottery effect result is a certain probability change. The lottery data set in the probability variation lottery process is output to the display control board 80 in advance before the display control of the probability variation lottery effect. Details will be described later with reference to FIG.
[0209]
The display control data process (S308) is a process for outputting the display control command data set in the various processes (S300 to S307) to the display control board 80. This display control data processing (S308) is always executed when the special symbol process is executed regardless of the value of the special symbol process flag. Details of the display control data processing will be described later with reference to FIG.
[0210]
FIG. 24 is a flowchart for explaining the special symbol determination process. In the special symbol determination process, it is first determined whether or not it is the start time of the special symbol variation display (SA0). When it is determined that it is not the time of starting the variable display, this special symbol determination process is executed. On the other hand, when it is determined that it is the time of starting the variable display, the processing after SA1 of this special symbol determination processing is executed. As described above, the special symbol determination process is a process executed at the start of the special symbol variation display.
[0211]
If it is determined that it is at the start of the fluctuation display, the process proceeds to SA1 and whether the probability fluctuation flag 1 or 2 is turned on, that is, whether the pachinko gaming machine 1 is being controlled to the probability fluctuation state. Is determined (SA1). Hereinafter, for the purpose of distinguishing whether or not the state is a probability variation state, the probability variation state is referred to as a high probability state or a high probability state, and the normal state that is a non-probability variation state is referred to as a low probability state or a low probability state. There is a case.
[0212]
Here, the probability variation flag refers to a flag indicating whether or not the state is controlled to the probability variation state. When the probability variation flag is turned on, the probability variation state is controlled and the state is turned off. In this case, it indicates that the probability fluctuation state is not controlled. The probability variation flag 1 is a flag indicating a probability variation state when the duration is set until the next jackpot occurs (first duration), and the probability variation flag 2 has a duration of This is a flag indicating the probability variation state when the variation display is performed a predetermined number of times (second duration). Details of the probability variation flag 1 or 2 will be described later. In the case of being controlled to a high probability state, processing for setting the jackpot determination value data at the time of high probability, that is, in the probability variation state, is performed as the jackpot determination data (SA3). Specifically, the jackpot determination value data in the probability variation state is “3”, “7”, “11”, “17”, “79”.
[0213]
On the other hand, when not controlled to the high probability state, the special symbol determination value data at the time of low probability, that is, not in the high probability state is set as big hit determination data (SA2). Specifically, the special symbol determination value data at the normal time is “7”.
[0214]
After SA2 or SA3, processing for clearing the big hit flag is performed (SA4). As a result, the memory of the previous big hit state is cleared. Next, it is determined whether or not the jackpot determination random number stored in the jackpot determination bank 0 matches the jackpot determination value data set in SA2 or SA3 (SA5). In SA5, when the determination is made based on the high probability big hit determination value data, one determination is performed using one selected big hit determination value data among the plurality of big hit determination values. Each of the plurality of jackpot determination values constituting the high-probability jackpot determination value data has a predetermined order used for determination, and is used for determination in SA5 in order from the first jackpot determination value. The jackpot determination value used for the determination in SA5 is sequentially updated by the process of SA7 described later, whereby determination for all of the high probability jackpot determination value data is performed.
[0215]
If it is determined by SA5 that the data stored in C_RND1 of the big-hit determination bank 0 matches the big-hit determination value, a big-hit is generated, and the process proceeds to SA6 described later. On the other hand, if it is determined by SA5 that the data stored in C_RND1 of the big hit determination bank 0 is not the big hit determination value, the next big hit determination value data is set as the big hit determination value used for the determination at SA5. Processing is performed (SA7). Here, each of the low probability big hit determination value data and the high probability big hit determination value data includes data called a determination end code in addition to the big hit determination value. If the low probability big hit determination value data is set for determination at SA5, the determination end code is always set at SA7. On the other hand, when the big probability big hit judgment value data is set for the judgment in SA5, after the judgment using the big hit judgment value in the last order is made in SA5, the judgment end code is set in SA7. Is done.
[0216]
After SA7, it is determined whether or not the big hit determination value data set in SA7 is a determination end code (SA8). If it is determined that it is not a determination end code, the big hit determination value set by SA7 is used to determine the big hit, and the process returns to SA5. Thereby, in the case of a high probability, the big hit determination by a plurality of big hit determination values is repeatedly performed.
[0217]
If it is determined by SA5 that the data stored in C_RND1 of the big hit determination bank 0 matches the big hit determination value, a big hit flag is set to generate a big hit (SA6). Next, processing for setting a reach flag is performed (SA11). Here, the reach flag is a flag set when the reach state is displayed. When the reach flag is set, the reach state is displayed before the final display result is derived and displayed.
[0218]
If it is determined by SA8 that the determination is an end code, it is determined that all jackpot determinations using the jackpot determination value are completed and that the jackpot determination is to be made off. Then, count values of C_RND_L, C_RND_C, and C_RND_R are extracted and stored in order to determine the off symbol.
[0219]
Then, based on determining whether or not the extracted values of C_RND_L and C_RND_R among the extracted values at SA9 match, a reach state in which the left stop symbol and the right stop symbol match is generated. It is determined whether or not to perform (SA10).
[0220]
If it is determined by SA10 that a reach state will occur, processing for setting a reach flag is performed as in the case of the big hit described above (SA11). After the reach flag is set in SA11 or NO is determined in SA10, the value of the special symbol process flag is updated to a value that can be transferred to the symbol variation process (SA12), and this special symbol determination process is completed. .
[0221]
FIG. 25 is a flowchart for explaining the symbol variation setting process. In this symbol variation setting process, first, it is determined whether or not the output timer has been set (SC1). The output timer is set in SC11, which will be described later, after command data specifying a special symbol variation pattern (such as variable display control time) is set in the output data storage area. If the output timer is not set, it is determined whether or not a variation shortening condition that is a condition for performing variation shortening variation is satisfied (SC2). This embodiment is established when the current start winning memorized number stored in the RAM 54 is “4”.
[0222]
When it is determined by SC2 that the fluctuation shortening condition is not satisfied, a process (SC3) for setting to use the normal time table shown in FIG. 13A for outputting the fluctuation pattern command is performed. Thereafter, the process proceeds to SC5 described later. On the other hand, if it is determined by SC2 that the variation shortening condition is satisfied, a process (SC4) for setting to use the shortening table shown in FIG. 13B for outputting the variation pattern command is performed. After that, the process proceeds to SC5 described later. In this way, first, a table for outputting a variation pattern command is set according to whether or not the variation time reduction control is performed.
[0223]
When the process proceeds to SC5, it is determined whether or not the aforementioned big hit flag is set (ON). When it is determined that the big hit flag is not set, the command of the variation pattern in the case of a loss is set, and the process proceeds to SC6 described later. On the other hand, when it is determined that the big hit flag is set, this is a case where the command of the variation pattern in the case of the big win is set, the process proceeds to SC6 and the following processing is performed. That is, the type of reach corresponding to the extracted value of C_RND_RACT is selected using the correlation data between C_RND_RACT and the type of reach at the big hit shown in FIG. The command data corresponding to the type of reach selected by C_RND_RACT is selected and read with reference to the normal time table or the shortened time table set according to the current situation by SC3 or SC4, and the command data Is set as a variation pattern command to be output as display control command data. Through the above processing, in SC6, the variation pattern command is set according to the value of C_RND_RACT using the correlation data at the time of the big hit. Thereafter, the process proceeds to SC10 described later.
[0224]
If it is determined by SC5 that the big hit flag is not set and the process proceeds to SC7, it is determined whether or not the reach flag is set. When it is determined by SC7 that the reach flag is not set, the reach state is not generated, and the process proceeds to SC9 described later. On the other hand, if it is determined by SC7 that the reach flag is set, it is a case where a reach state (reach reach) is generated, and the process proceeds to SC8 and the following processing is performed. That is, according to the number of lost frames obtained from the difference in design between the scheduled stop symbol of the left symbol based on the extracted value of C_RND_L and the planned stop symbol of the middle symbol based on the extracted value of C_RND_C, the number of C_RND_RACT and reach shown in FIG. Correlation data (either -2 frame loss or +2 frame loss or large loss) is selected, and the type of reach corresponding to the extracted value of C_RND_RACT is selected using the selected correlation data. The command data corresponding to the type of reach selected by C_RND_RACT is selected and read with reference to the normal time table or the shortened time table set according to the current situation by SC3 or SC4, and the command data Is set as a variation pattern command to be output as display control command data. With the above processing, in SC8, the variation pattern command is set according to the value of C_RND_RACT using the correlation data corresponding to the symbol difference at the time of loss. Then, it progresses to SC10 mentioned later.
[0225]
Further, when it is determined by SC7 that the reach flag is not set and the process proceeds to SC9, the normal variation in which the display result is derived without causing the reach state is performed. A variation pattern command for selecting and reading out command data corresponding to normal variation and outputting the command data as display control command data with reference to a normal time table or a shortened time table set according to the current situation by SC4 Set as. Then, it progresses to SC10 mentioned later.
[0226]
As described above, when the variation time reduction control is performed, the variation pattern command is selected based on the shortening time table which is the data table in which the average variable display time of the variation pattern is set shorter. For this reason, when performing variable time shortening control, it can be ensured that display with the variable display control time shortened is actually performed. Further, at the time of inspection of the control operation related to the variation display of the gaming machine, it is confirmed on the basic circuit 53 side that the selection of the variation command data is selected based on the shortened time table in which the average variation display time is set shorter. By doing so, it is possible to confirm that the time reduction display is actually performed.
[0227]
The variation pattern set in the basic circuit 53 of the game control board 31 does not specifically specify the display aspect, but simply specifies whether or not the variable display period and the reach state need to be displayed. . When the display control board 80 receives this variation pattern, the display control board 80 uniquely determines an effect mode corresponding to the variation pattern.
[0228]
When the process proceeds to SC10, the variation pattern data that can specify the variation pattern set as described above is set in the output data storage area. The output data storage area is an area for storing command data output to the display control board 80. The command data set in the output data storage area is output to the display control board 80 as a change start command in the display control data processing shown in S308 of FIG.
[0229]
Next, an output timer corresponding to the variation pattern is set (SC11). For example, when the variation display control time specified by the variation pattern is 10522 ms, the time from the symbol variation start to the symbol variation stop is set as an output timer corresponding to the variation display control time. The game control board 31 starts subtraction update of the output timer from the time when the variation pattern data set in the output data storage area is output to the display control board 80, and the timer value of the output timer becomes 0. At that time, the process flag is updated by SC17 described later, and the process proceeds to a big hit start process or a special symbol variation waiting process.
[0230]
Next, a process of setting the confirmed symbol (scheduled stop symbol) data of the special symbol in the output data storage area is performed (SC12). Specifically, in SC12, when the big hit flag is set, the confirmed symbol (big hit symbol) is based on the extracted value of C_RND_L already stored in the left symbol judgment bank 0 and the special symbol table. The symbol data is determined and set in the output data storage area. Here, the special symbol table is a table that defines the correspondence between the count values of the left, middle, and right stop symbol determination random counters (C_RND_L, C_RND_C, and C_RND_R) and the types of special symbols. When the big hit flag is set, the scheduled stop symbols of all symbols of the left, middle, and right are aligned with the symbols corresponding to the extracted value of C_RND_L. On the other hand, if the big hit flag is not set, the left, middle and right special symbols are extracted from the special symbol table based on the respective values of C_RND_L, C_RND_C, and C_RND_R extracted by SA9 of the special symbol determination process described above. Data is extracted and the symbol data is set in the output data storage area.
[0231]
Next, a process of shifting the data of the big hit determination bank and the left symbol determination bank is executed (SC13). That is, the data in bank 0 is discarded and each data in banks 1 to 3 is shifted to the next bank. As a result, in the case of the big hit determination bank, the next data (the extracted value of C_RND1 newly shifted to bank 0) is used for the big hit determination processing.
[0232]
Next, the data stored in the big hit determination bank 3 is cleared (SC14). This is because it is no longer necessary to hold the stored data in the jackpot determination bank 3 before the data shift due to the data shift by the SC 13, so that the extracted value of C_RND1 corresponding to the new start winning prize is determined Can be stored in the bank 3.
[0233]
Next, a process of clearing the stored data of the left symbol determination bank 3 is performed (SC15). This is because it is no longer necessary to hold the stored data of the left symbol determination bank 3 before the data shift due to the data shift by SA13, and thus the extracted value of C_RND_L corresponding to the new start winning is left. It can be stored in the symbol determination bank 3.
[0234]
Next, it is determined whether or not the timer value of the output timer is 0 (SC16). When the timer value of the output timer is not 0, it can be determined that the variation of the special symbol is continued in the variable display device 8 because the variable display period corresponding to the variation pattern has not ended. Therefore, in this case, the symbol variation setting process is terminated without performing the process of updating the process flag. As a result, when the special symbol process (see FIG. 23) is executed again, this symbol variation setting processing is executed again. It is determined that the output timer has been set in SC1, and the output timer is again set in SC16. It is determined whether or not the timer value is zero. If the timer value of the output timer is 0, it can be determined that the condition for deriving and displaying the display result by terminating the variable display of the special symbol in the variable display device 8 is satisfied. Is updated to a value that can execute the symbol determination setting process (SC17).
[0235]
FIG. 26 is a flowchart for explaining the symbol determination setting process. In the symbol determination setting process, first, it is determined whether or not the output timer has been set (SC18). Here, the output timer is a timer that measures a waiting period after a symbol determination command (to be described later) is output to the display control board 80. Since the display control command is not output in the standby period timed by the output timer, the fixed symbol that is stopped and displayed in response to the reception of the symbol determination command is displayed in the symbol display area 9 of the variable display device 8. It is in a state where it is continuously displayed for the period.
[0236]
If the output timer has not been set, the variable display is terminated (the special symbol variation is terminated), and a symbol confirmation command for displaying the confirmed symbol is set in the output data storage area (SC19). The output data storage area is an area for temporarily storing command data output to the display control board 80. The command data set in this output data storage area is output to the display control board 80 in the display control data processing shown in S308 of FIG. Next, a predetermined timer value is set in the output timer (SC20). The timer value set here is a value corresponding to the waiting period.
[0237]
This output timer uses each process (S300 to S307) in order to take timing with display control on the display control board 80 side such as counting the variable display period (fluctuation time) in addition to the above-described continuous display period of the fixed symbol. ) In the required process. Note that the time (update) of the set output timer is performed by display control data processing (S308).
[0238]
Next, it is determined whether or not the timer value of the output timer has become 0 (SC21). If the timer value of the output timer is not 0, the process ends without updating the special symbol process flag. In this case, in the display control data process (S308) executed after the symbol confirmation setting process, the symbol confirmation command set in SC19 is output to the display control board 80, and the output timer is updated. After that, when the process proceeds to the special symbol process process again, the process proceeds to the symbol determination setting process again because the special symbol process flag has not been updated. In such a case, it is determined in SC18 that the output timer has been set, and it is determined again in SC21 whether the timer value of the output timer is 0 or not. If the timer value of the output timer is 0, the fixed symbol continuation display period has ended, so a determination of YES is made in SC21 and the process proceeds to SC21a. In SC21a, a probability variation flag process for managing the duration of the probability variation state is executed. The processing contents of the probability variation flag processing will be described later with reference to FIG.
[0239]
Next, after SC21a, the value of the special symbol process flag is updated to a value “5” at which the jackpot start process can be executed or a value “1” at which the special symbol change waiting process can be executed (SC22). Specifically, when the big hit flag is set, the value of the special symbol process flag is updated to “5”, and when the big hit flag is not set, the value of the special symbol process flag is “1”. Updated to
[0240]
FIG. 27 is a flowchart for explaining the probability variation flag process. In the probability variation flag process, it is first determined whether or not a big hit occurs (Sd0). Specifically, the determination of Sd0 is made based on the determination of whether or not the big hit flag is set. When it is determined that no big hit occurs, the process proceeds to Sd1 described later. On the other hand, when it is determined that a big hit occurs, it is determined whether or not the probability variation flag 1 or 2 is in an on state, that is, indicates a high probability (Sd8). That is, here, it is determined whether or not the present is in a probability fluctuation state. If it is determined by Sd8 that the probability variation flag 1 or 2 has not been turned on, this probability variation flag process ends.
[0241]
On the other hand, when it is determined by Sd8 that the probability variation flag 1 or 2 is in the on state, processing for setting the probability variation flag in the on state to the off state is performed (Sd9). As a result, the probability variation state is terminated. This is because, when the probability variation flag is in the OFF state, the special symbol determination process described above uses the jackpot determination value data at the low probability according to the state of the flag to be used for the jackpot determination. . In other words, when a big hit occurs, both the first continuation period (until the next big hit) and the second continuation period (until the predetermined number of fluctuations display) end at that point, so a big hit occurs. In such a case, the corresponding duration period is ended regardless of the type of duration period.
[0242]
After Sd9, it is determined whether or not the variation counter execution flag is set (Sd10). Here, the variation counter is a counter for counting the number of times the special symbol is displayed during the probability variation state which is the special gaming state. The fluctuation number counter execution flag is a flag for indicating whether or not counting by the fluctuation number counter is being executed. While the above-described second continuation period continues, counting by the fluctuation number counter is being executed, but when the continuation period ends due to occurrence of a big hit, it is necessary to reset the counting by the fluctuation number counter. Therefore, in Sd10, in order to reset the count by such a fluctuation number counter, it is determined whether or not the ended duration period is the second duration period.
[0243]
If it is determined by Sd10 that the variation counter execution flag is not set, this is a case where the first continuation period has ended, and it is not necessary to reset the count by the variation counter. finish. On the other hand, when it is determined by Sd10 that the variation number counter execution flag is set, processing for resetting the count by the variation number counter is performed (Sd7), and this probability variation flag processing is ended.
[0244]
Further, when it is determined that no big hit occurs due to Sd0 and the process proceeds to Sd1, it is determined whether or not the above-described variation counter execution flag is set (Sd1).
[0245]
If it is determined by Sd1 that the variation number counter execution flag is not set, the probability variation flag process is terminated because counting by the variation number counter is not being executed. On the other hand, if it is determined by Sd1 that the variation number counter execution flag is set, since the counting by the variation number counter is being executed, the variation number is determined according to the end of the variation associated with the execution of the symbol determination setting process described above. A process of adding and updating the counter by “1” is performed (Sd2). As a result, the variation counter is added and updated each time the special symbol that is variably displayed stops and the display result is fixed. Next, as described above, a predetermined variation number, which is data of the number of variations for defining the duration period stored in the data area 543 of the ROM 54 (for example, 10,000 times as described above) is loaded, and the variation number is checked. A process for enabling use is performed (Sd3).
[0246]
Next, a process of reading the count value of the current variation counter is performed (Sd4). Next, the count value of the fluctuation number counter read by Sd4 is compared with the predetermined fluctuation number (probable variation limit value) read by Sd3, and the count value of the fluctuation number counter is equal to the predetermined fluctuation number (for example, 10,000 times) described above. It is determined whether or not there is a match (whether or not they match), that is, whether or not a change display of a predetermined change number corresponding to the end timing of the duration of the state has been performed during the probability change state ( Sd5).
[0247]
If it is determined by Sd5 that the number of fluctuations is not the predetermined number, the first probability fluctuation flag process is terminated. On the other hand, if it is determined by Sd5 that the number of fluctuations is the predetermined number, the end condition of the duration period is satisfied by the variable display count during the probability fluctuation state. Processing to turn off the fluctuation flag 2 is performed (Sd6). As a result, the probability variation state is terminated. Thereafter, after the process of resetting the fluctuation number counter execution flag is performed (Sd7), the probability fluctuation flag process ends.
[0248]
FIG. 28 is a flowchart for explaining the big hit starting process. In the big hit starting process, it is first determined whether or not an output timer is set (SF1). The output timer here is a timer that measures the continuous display time of the big hit start screen displayed at the start of the big hit. When it is determined that the output timer has not been set, the jackpot start display data (command data) for instructing the display control board 80 to display the jackpot start screen is displayed in the output data storage area. Set (SF2). Next, an output timer for measuring the continuous display time of the jackpot screen is set (SF3). Next, a big hit flag indicating that the gaming state is a big hit state is set (SF4).
[0249]
Next, it is determined whether or not the timer value of the output timer set in SF3 is 0 (SF6). If the timer value of the output timer is not 0, the process is temporarily terminated. Thus, the display control data processing (S308) shown in FIG. 23 is executed next, and the big hit start display data set in the output data storage area in SF2 is output to the display control board 80. The display control board 80 displays a big hit start screen in the symbol display area 9 based on the outputted big hit start display data. Thereafter, when the special symbol process is executed again, since the process flag is not updated, the process proceeds to the big hit start process again, and it is determined whether or not the output timer has been set (SF1). If the output timer has been set, whether or not the output timer is 0 is again determined by SF6. If the output timer is 0 at this time, YES is determined in SF6 because the continuous display time of the big hit start screen has elapsed. In this case, one round data for instructing the display of the first round is set in the output data storage area (SF7), and then the output timer is set (SF8). Next, in order to excite the solenoid 21 for opening the special winning opening, the special winning opening solenoid ON is set (SF9). Next, the value of the process flag is updated to a value capable of executing the big hit processing (SF10), and the processing ends.
[0250]
FIG. 29 is a flowchart for explaining the probability variation lottery process. In the probability variation lottery process, it is first determined whether or not the present is the end of the big hit (SH0). When it is determined that the big hit is not finished, the probability variation lottery process is finished. On the other hand, when it is determined that the big hit is over, the process after SH1 of this probability variation lottery process is executed. Thus, the probability variation lottery process is a process executed at the end of the big hit. That is, the probability variation state starts at the end of the big hit.
[0251]
If it is determined at the end of jackpot by SH0 described above, it is determined whether or not the jackpot symbol corresponds to any of “3”, “7”, and “11” (SH1). In other words, here, it is determined whether or not the jackpot symbol is a probability variable symbol set with a first duration period until the next jackpot of the probability variable symbols.
[0252]
When it is determined by SH1 that the jackpot symbol is not applicable, the process proceeds to SH3 described later. On the other hand, when it is determined by SH1 that the big hit symbol is applicable, processing for turning on the probability variation flag 1 is performed (SH1). Thereby, it will be controlled to the probability fluctuation state which continues until the next big hit. After SH1, this probability variation lottery process ends.
[0253]
On the other hand, if it is determined by SH1 that the jackpot symbol does not correspond, it is determined whether or not the jackpot symbol corresponds to any one of “1”, “5”, and “9” (SH3). That is, here, it is determined whether or not the big hit symbol is a probability variable symbol in which the second duration defined by the number of times of variable display of the probability variable symbols is set.
[0254]
If it is determined by SH3 that the jackpot symbol is not applicable, the value of the process flag is updated to a value at which the special symbol process flag can be executed (SH7), and the probability variation lottery process is terminated.
[0255]
On the other hand, when it is determined by SH3 that the big hit symbol is applicable, processing for turning on the probability variation flag 2 is performed (SH4). As a result, the probability variation state having a duration defined by the number of times of variation display is controlled. Next, a process of setting the above-described variation number counter to “0” is performed (SH5). That is, the count value of the variation counter is initialized in order to count the number of variation displays from this point. Next, processing for setting the above-described variation counter execution flag is performed (SH6). Thereby, it is indicated that counting by the fluctuation number counter is being executed in response to the occurrence of the probability fluctuation state in which the duration is defined by the fluctuation display count. Thereafter, the process flag is updated so that the value of the special symbol process flag can execute the special symbol variation waiting process (SH7), and the probability variation lottery process ends.
[0256]
FIG. 30 is a flowchart for explaining display control data processing. In the display control data processing, first, an output data storage area is referred to (SX1), and it is determined whether a display control command to be output is stored (SX2). If the display control command to be output is not stored, the process proceeds to SX11 described later.
[0257]
On the other hand, for example, when a display control command such as a change start command is stored in the output data storage area and then the display control data process is performed, a YES determination is made in SX2. Of the stored 2-byte 1-unit command data, the first MODE data of the first byte is set as output command data (SX3). Next, display control data output processing is executed (SX4). By executing the display control data output process, the MODE data set in SX3 is output to the display control board 80. Details of the display control data output process will be described later with reference to FIG.
[0258]
Next, EXT data in the second half of the second byte of command data stored in units of 2 bytes is set as output command data (SX5). Next, an output standby process is executed (SX6). The output waiting process is a process for adjusting the time so that the second byte of EXT data is output after a predetermined period after the output of the first byte of MODE data is completed. This output standby process can be omitted depending on the performance of the display control CPU 101 on the display control board 80 side. That is, the first byte of MODE data and the second byte of EXT data may be continuously transmitted. After the output standby process is completed, a display control data output process (SX7) for outputting the EXT data set in SX5 is executed.
[0259]
Next, the type of the output display control data is determined, and it is determined whether or not the display control data is other than a stop symbol command (SX8). The stop symbol command is a command for designating a confirmed symbol, and is a command set in the output data storage area in the SC12. If the output display control data is other than the stop symbol command, the timer value of the output timer set in any of the special symbol process processing is updated (SX11). Thereby, for example, when the output display control command is a change start command, the timing of the output timer set corresponding to the change pattern in the SC 11 is started, and the change display control on the game control board 31 side is started. Time is measured.
[0260]
On the other hand, when it is determined in SX8 that it is a stop symbol command, it is determined whether or not all stop symbol commands are output (SX9). It is necessary to output a total of three stop symbol commands in order to designate a fixed symbol (scheduled stop symbol) for each of the left, middle, and right symbols. If all three stop symbol commands are output, the process ends after the timer value of the output timer is updated in SX11. If not, a pointer for outputting the next stop symbol command. Is set (SX10), and then the timer value of the output timer is updated in SX11, and then the process ends. In this case, when the process proceeds to the display control data process again, the next stop symbol command is still stored in SX2, and the process of outputting the stop symbol command is executed in SX3 to SX7. Then, when the output of the third stop symbol command is completed, a determination of YES is made in SX9.
[0261]
FIG. 31 is a flowchart for explaining display control data output processing. In the display control data output process, first, output data (output command data) is set in the output port (SY1). Next, the INT signal indicating that the output data signal is valid is set to ON (SY2). Next, an output standby counter is set (SY3). The output standby counter here determines a period for transmitting 1-byte data, that is, a period for maintaining the ON state of the INT signal. The count value of the output standby counter varies depending on the performance of the display control board 80 on the output data receiver side.
[0262]
Next, the value of the output standby counter is subtracted and updated (-1) (SY4). Next, it is determined whether or not the value of the output standby counter is 0 (SY5). If the value of the output standby counter is not 0, the process proceeds to SY4 again. Then, when the value of the output standby counter becomes 0, the INT signal is set to OFF (SY6), and the display control data output process ends.
[0263]
Next, display control executed on the display control board 80 side will be described.
In the display control on the display control board 80 side, for example, as described above, various random counters are used for lottery for determining whether or not to make a big hit notice. Here, as a representative example of the random counter, a random counter for jackpot notice will be described. The jackpot announcement random counter is incremented and incremented by one in the display random number processing shown in FIG. 33, which will be described later, and is incremented and updated from 0 to 24, which is the upper limit, and then incremented and updated again from 0. The value of the jackpot warning random counter is extracted in response to receiving the left, middle and right stop symbol commands, and is used to select the jackpot warning.
[0264]
Next, the relationship between the count value extracted from the jackpot notice random counter and the display pattern of the jackpot notice determined thereby will be described. FIG. 32 is a diagram for explaining, in a tabular form, the relationship between the count value extracted from the jackpot warning random counter and the display pattern of the jackpot warning determined thereby.
[0265]
Referring to FIG. 32, the relationship between the extracted value of the random counter for jackpot warning and the display pattern of the jackpot warning is determined to be out of the case where the jackpot is determined in advance, and to be deviated. It differs depending on the case. When the extracted value is from 0 to 17, no jackpot notice is determined when the loss is determined, and the display of the notice A is determined when the jackpot is determined. In the event that a decision without notice of jackpot is made, no notice of jackpot will be given. When the display of the notice A is determined, the big lamp notice display is performed by blinking the drum lamps of the left and right variable display portions 9a and 9c.
[0266]
Further, when the extracted value is 18 to 22, the display of the notice B is determined both at the time of determining the loss and at the time of determining the big hit. When the display of the advance notice B is determined, unlike the above-described advance notice A, the drum lamp of the middle variable display portion 9b is blinked to perform a big hit advance notice display. When the extracted values are 23 and 24, the display of the notice A is determined when the loss is determined, and no notice is determined when the big hit is determined.
[0267]
In this case, the lottery for the big hit announcement is made on the condition that the reach state has occurred. However, if the big hit announcement is made based on the decision of the announcement A, the probability of a big hit is very high. It is possible to raise the player's expectation and improve the interest of the game. In addition, when a big hit announcement is made based on the decision of the advance notice B, the probability of winning a big hit is lower than in the case of the advance notice A. Can do. In addition, the big hit state may occur without a big hit notice as in the case where the extracted value is 23 or 24. In such a case, the fun of the game is improved by the unexpectedness of the big hit occurrence. Can be made.
[0268]
The data indicating the relationship shown in FIG. 32 is stored in the control data ROM 102 as table data, and is read and used at the time of lottery for the big hit notice.
[0269]
FIG. 33 is a flowchart for explaining a display control main process executed by the display control CPU 101 of the display control board 80. In the display control main process, first, a process of initializing the RAM 101a, I / O, and the like is executed (S701). Then, display control for setting the display state of the symbol display area 9 to the initial state is performed (S702). In the initial state, for example, “1” (left symbol), “2” (middle symbol), and “3” (right symbol) are displayed in the symbol display area 9. Thereafter, in the main process, the display random number update process for updating the random counter such as the above-described random number for notice is repeatedly executed (S703).
[0270]
As will be described later, in this embodiment, the actual display control process is executed by an interrupt process activated by a timer interrupt that occurs periodically.
[0271]
In this embodiment, as described above, actual symbol variation control and the like are performed by timer interrupt processing. A timer interrupt occurs every 2 ms, for example.
[0272]
FIG. 34 is a flowchart showing the contents of timer interrupt processing executed in accordance with the timer interrupt. In the timer interrupt process, the display control CPU 101 executes a display control process process (S711). In the display control process, various display control processes are performed according to the value of the display control process flag.
[0273]
A display control command from the game control board 31 is received by the display control CPU 101 by an IRQ2 interrupt. FIG. 35 is a flowchart showing the IRQ2 interrupt process of the display control CPU 101.
[0274]
In the IRQ2 interrupt process, the display control CPU 101 first checks whether or not the data receiving flag is set (S601). If not set, this interrupt is an interrupt caused by sending the display control data of the first byte in the display control command data. Therefore, the pointer is cleared (S602), and a data receiving flag is set (S603). Then, the process proceeds to S604. The pointer indicates at what byte in the display control command data storage area in the RAM built in the display control CPU 101 the received data is stored.
[0275]
When the data receiving flag is set, when the strobe signal (display control signal INT) is turned off (S604), the display control CPU 101 inputs data from the input port and is indicated by a pointer in the display control command data storage area. The input data is stored in the stored address (S605).
[0276]
Then, the display control CPU 101 increments the pointer value by 1 (S606). When the pointer value becomes 2 (S607), it means that the reception of the display control command data composed of 2 bytes has been completed. Therefore, the data reception completion flag is set and the data reception flag is set. Is reset (S608, S609). Through the process as described above, the 2-byte display control data CMD1 and CMD2 are received by the display control board 80.
[0277]
FIG. 36 is a flowchart showing the display control process (step S711) in the timer interrupt process shown in FIG. In the display control process, any one of S720, S750, S780, S810, S840, and S870 is performed according to the value of the display control process flag. In each process, the following process is executed.
[0278]
In the fluctuation start command reception waiting process (S720), it is confirmed whether or not a fluctuation start command indicating a fluctuation pattern is received by the IRQ2 interrupt process. In the all symbol variation start process (S780), control is performed so that the variation of the left middle right symbol is started. In the advance notice setting process (S750), when a reach state occurs, a setting process related to the big hit notice is performed. The details of the notice setting process will be described later with reference to FIG. In the symbol variation processing (S810), the switching timing of each variation state (variation speed, etc.) constituting the variation pattern is controlled, and the end of the variation time is monitored. Further, stop control of the left and right symbols is performed.
[0279]
In the symbol stop setting process (S840), at the end of the variation display of the special symbol, control is performed to stop the variation of the symbol and display the final stop symbol (determined symbol). In the big hit display process (S870), after the end of the variable display control time, the control of the probability variable big hit display or the normal big hit display is performed.
[0280]
In this embodiment, when the display control command cannot be received correctly, an error that keeps rotating the rotating drums 90a to 90c even when the special symbol must be stopped and displayed after starting the variable display. When the hour drive control is executed and the drum lamp is in a predetermined error display mode (blink display of the drum lamp 41), an error display by the drum lamp indicating that the display control command has not been correctly received (hereinafter referred to as a drum lamp 41) , Which is called drum lamp error display).
[0281]
FIG. 37 is a flowchart showing the change start command reception waiting process (S720) of the display control process shown in FIG. In the variation start command reception waiting process, the display control CPU 101 first confirms whether or not a two-byte display control command including CMD1 (“80H”) data of the variation start command has been received at this time ( S721). In this embodiment, as shown in FIG. 13, the variation start command indicating the variation pattern is such that CMD1 is “80 (H)” and CMD2 is “00 (H)” to “2B (H)”. It is within the range.
[0282]
If it is confirmed in S721 that it has not been received, the process proceeds to S725 described later. On the other hand, if it is confirmed that it has been received in S721, it is confirmed whether or not the CMD2 of the corresponding command is the data of the CMD2 (“00 (H)” to “2B (H)”) of the change start command ( S722). If it is confirmed in S722 that the change start command is CMD2, the value of the display control process flag is set to a value corresponding to the notice setting process (S723). If an error flag to be set is set as described later, the drum lamp error display is erased (turned off) (S742), and the error flag is cleared. That is, when normal variable display based on reception of a display control command (variation start command) indicating a variation pattern is started, the error display by the drum lamp is deleted. Then, in order to indicate that the rotation of the rotating drums 90a to 90c is starting, the rotation start mode is displayed in which all the drum lamps 41 to 49 are temporarily turned on and then turned off (S742a). The player can recognize that the special symbol variation display is started by the display of the rotation start mode, and even when the rotating drums 90a to 90c continue to rotate by the error-time drive control described above, It can be recognized that a new variable display corresponding to a new start winning is started. Then, a monitoring timer is started (S743), and this process ends. The monitoring timer started in this situation is used to determine whether or not all symbol stop commands have been received at the scheduled reception timing of all symbol stop commands specified by the variation display control time specified by the variation start command. It is done.
[0283]
On the other hand, if it is confirmed in S722 that the change start command is not CMD2, it is determined that the change start command having the correct data contents has not been received, and the error time drive control and the drum lamp error display are performed (S726a). It progresses to S736 mentioned later.
[0284]
If the process proceeds to S725, it is confirmed at this point whether or not a 2-byte display control command including data of the CMD1 (“8BH”) of the left stop symbol command has been received. In this embodiment, as shown in FIG. 14, the left stop symbol command is such that CMD1 is “8B (H)” and CMD2 is within the range of “00 (H)” to “0B (H)”. Is.
[0285]
If it is confirmed in S725 that it has not been received, the process proceeds to S728 described later. On the other hand, if it is confirmed that it has been received in S725, it is confirmed whether or not the CMD2 of the corresponding command is the data of the CMD2 (“00 (H)” to “0B (H)”) of the left stop symbol command. (S726). If the left stop symbol command CMD2 is confirmed in S726, data indicating the left stop symbol corresponding to the command is stored in the left symbol storage area (S727). Then, due to an incorrect reception order of display control commands, error-time drive control and drum lamp error display are performed (S734), and the process proceeds to S735 described later. On the other hand, if it is confirmed in S726 that the command is not CMD2 of the left stop symbol command, it is determined that the left stop symbol command having the correct data contents has not been received, and the error drive control and drum lamp error display are performed (S726a). ), The process proceeds to S736 described later.
[0286]
If the process proceeds to S728, it is confirmed at this point whether or not a 2-byte display control command including CMD1 (“8CH”) data of the middle stop symbol command has been received. In this embodiment, as shown in FIG. 15, the middle stop symbol command is such that CMD1 is “8C (H)” and CMD2 is within the range of “00 (H)” to “0B (H)”. Is.
[0287]
If it is confirmed in S728 that the message has not been received, the process proceeds to S731, which will be described later. On the other hand, if it is confirmed that it has been received in S728, it is confirmed whether or not the CMD2 of the corresponding command is the data of the CMD2 (“00 (H)” to “0B (H)”) of the middle stop symbol command. (S729). If it is confirmed in S729 that the command is the CMD2 of the medium stop symbol command, data indicating the medium stop symbol corresponding to the command is stored in the medium symbol storage area (S730). Then, due to an incorrect reception order of display control commands, error-time drive control and drum lamp error display are performed (S734), and the process proceeds to S735 described later. On the other hand, if it is confirmed in S729 that the command is not CMD2 of the middle stop symbol command, it is determined that the middle stop symbol command of the correct data content has not been received, and the error drive control and the drum lamp error display are performed (S726a). ), The process proceeds to S736 described later.
[0288]
If the process proceeds to S731, it is confirmed at this point whether or not a 2-byte display control command including data of the right stop symbol command CMD1 (“8DH”) has been received. In this embodiment, as shown in FIG. 16, the right stop symbol command is such that CMD1 is “8D (H)” and CMD2 is within the range of “00 (H)” to “0B (H)”. Is.
[0289]
If it is confirmed in S731 that it has not been received, the process proceeds to S736 described later. On the other hand, when it is confirmed in S731 that the right stop symbol command CMD1 has been received, the corresponding command CMD2 is the data of the right stop symbol command CMD2 ("00 (H)" to "0B (H)"). It is confirmed whether or not there is (S732). When it is confirmed in S732 that the command is the CMD2 of the right stop symbol command, data indicating the right stop symbol corresponding to the command is stored in the right symbol storage area (S733). Then, due to an incorrect reception order of display control commands, error-time drive control and drum lamp error display are performed (S734), and the process proceeds to S735 described later. On the other hand, if it is confirmed in S732 that it is not the CMD2 of the middle stop symbol command, it is determined that the middle stop symbol command having the correct data contents has not been received, and the drive control at the time of error and the drum lamp error display are performed (S726a ), The process proceeds to S736 described later. If the process proceeds to S735, the monitoring timer is started (S735), and the process proceeds to S736 described later.
[0290]
As described above, whether or not the left, middle, and right stop symbol commands are received is considered in consideration of the case where the variation start command indicating the variation pattern cannot be received. That is, when the reception of the stop symbol command was confirmed in S725, S726, S728, S729, or S731, S732, the display control command indicating the stop symbol was received without receiving the variation start command indicating the variation pattern. Means that. In other words, the fluctuation start command indicating the fluctuation pattern is not correctly received due to an abnormality cause such as garbled data.
[0291]
Therefore, the display control CPU 101 executes the on-error drive control and the drum lamp error display, and starts a monitoring timer (S735). Note that an error flag is set when error drive control and drum lamp error display are performed. Such an error flag is set in the same manner for error display in other steps. The error flag is referred to in S742 described above (however, at the next fluctuation start time). The monitoring timer in S735 is restarted every time a left, middle, and right stop symbol command is received in order to simplify processing. Therefore, the monitoring timer is actually started when the display control command indicating the stop symbol received last is received. Further, the above-described timeout time of the monitoring timer is, for example, a time in which the longest period among the plurality of variation patterns shown in FIG.
[0292]
When the process proceeds to S736, the display control CPU 101 confirms whether or not a 2-byte display control command including CMD1 (“8EH”) data of all symbol stop commands indicating all symbol stop has been received at this time. . In this embodiment, as shown in FIG. 17, in the right stop symbol command, CMD1 is “8E (H)” and CMD2 is “00 (H)”.
[0293]
If it is confirmed in S736 that the message has not been received, the process proceeds to S737 described later. On the other hand, if it is confirmed that it has been received in S736, it is confirmed whether or not the CMD2 of the corresponding command is the data of CMD2 (“00 (H)”) of all symbols stop command (S738). Here, whether or not the all symbol stop command has been received is confirmed in consideration of the case where the variation start command indicating the variation pattern has not been received but the all symbol stop command has been received. Therefore, when all symbols stop command is received, that is, when it is confirmed that all symbols stop command is CMD2 by S738, the variation start command indicating the variation pattern cannot be received and all symbols stop command is received. After the error-time drive control and drum lamp error display are performed (S739), the value of the display control process flag is set to a value corresponding to all symbol stop processing (S740). Thereafter, this variation start command reception waiting process is terminated. On the other hand, if it is confirmed in S738 that it is not CMD2 of all symbol stop commands, it is determined that all symbol stop commands having correct data contents have not been received, and drive control at error and drum lamp error display are performed (S741). ), The fluctuation start command reception waiting process ends.
[0294]
In S737, if the monitoring timer is activated, it is checked whether or not the monitoring timer started in S753 has timed out. Here, whether or not the monitoring timer has timed out is checked in consideration of the case where neither the change start command nor all symbol stop commands can be received. Here, if the monitoring timer has timed out, after performing error-time drive control and drum lamp error display (S739), the value of the display control process flag is set to a value corresponding to all symbol stop processing ( S740).
[0295]
FIG. 38 is a flowchart showing the advance notice setting process (S750) of the display control process shown in FIG. In the advance notice setting process, it is first determined whether or not it is a case where the change display is performed in the reach state based on the specified content of the received change start command (S758). That is, as shown in FIG. 13, in the change start command, whether or not reach change is specified, and it is determined whether or not the change display in the reach state is to be performed based on the specified content. To do.
[0296]
If it is determined that the variable display in the reach state is not performed, the process proceeds to S762 described later. On the other hand, when it is determined that the variation display is in the reach state, a lottery for lottery notice is performed. Specifically, the value of the above-described jackpot warning random counter is extracted, and based on the extracted value, the presence / absence of the warning and the type of the warning are lottery using the table data shown in FIG. 32 (S759). Next, based on the lottery result in S759, a determination is made as to whether or not it has been decided to make a big hit notice (S760).
[0297]
If it is determined that the big hit notification is not made, the process proceeds to S762 described later. On the other hand, when it is determined that a big hit announcement is to be made, a process for storing the big hit announcement display data in the big hit announcement data storage area is performed (S761). As a result, when reaching the reach state, the big hit announcement is performed based on the data stored in the big hit announcement data storage area. Thereafter, the process proceeds to S762. In S762, the value of the display control process flag is set to a value corresponding to all symbol variation start processing (S735). Thereafter, the advance notice setting process ends.
[0298]
In this way, on the display control CPU 101 side, the lottery in which the determination of the lottery result is independently performed regardless of the command from the basic circuit 53 is executed for the big hit notice. The lottery is performed when a change start command in which reach fluctuation corresponding to the lottery request from the basic circuit 53 is specified is received, but the lottery result is independently determined regardless of a command from the basic circuit 53. And the occurrence of a periodicity in the lottery result for determining the lottery result of the big hit notice by the interruption processing of the prime number in the basic circuit 53 in one variable display time, such a big hit notice It is possible to make it difficult for periodicity to occur in the lottery result.
[0299]
FIG. 39 is a flowchart showing all symbol variation start processing (S780). In the all symbol variation start processing, the display control CPU 101 determines to use a process table corresponding to the variation pattern (S781). Each process table is set with each fluctuation state (variation speed (rotational speed of the rotating drums 90a to 90c), fluctuation period at that speed, etc.) in the fluctuation pattern. Each process table is set in the control data ROM 102.
[0300]
Here, a configuration example of process data will be described. FIG. 40 is an explanatory diagram of a configuration example of the process table. In each process table corresponding to each variation pattern, a variation speed, a variation period at that velocity, a drum lamp operation (lighting, blinking, etc.) timing, voice control data, and the like are set in time series. In addition, a process timer value for determining a fluctuation period at a certain speed is also set. Each process table is composed of a plurality of process data in units of 3 bytes.
[0301]
The display control CPU 101 starts the timer with the process timer value set at the beginning of the process table determined to be used (S782). Further, the display control of the symbol variation control is started based on the data indicating the variation state set in the third byte (S783). Then, the value of the display control process flag is changed to a value corresponding to the symbol changing process (S810) (S784). Thereafter, the entire symbol variation starting process is completed.
[0302]
FIG. 41 is a flowchart showing the symbol variation processing (S810). In the symbol variation processing, the display control CPU 101 checks whether or not the process timer has timed out (S811). If it is confirmed that the process timer has timed out, the process proceeds to S811a described later. On the other hand, if it is confirmed that the process timer has not timed out, it is confirmed at this point whether or not a 2-byte display control command including data of the CMD1 (“8BH”) of the left stop symbol command has been received (S817). ). If it is confirmed in S817 that the message has not been received, the process proceeds to S817a described later.
[0303]
On the other hand, if it is confirmed that it has been received in S817, it is confirmed whether the CMD2 of the corresponding command is the data of the CMD2 of the left stop symbol command ("00 (H)" to "0B (H)") ( S818). When it is confirmed in S818 that the command is the CMD2 of the left stop symbol command, data indicating the left stop symbol corresponding to the command is stored in the left symbol storage area (S819), and this symbol variation processing is ended. On the other hand, if it is confirmed that it is not CMD2 of the left stop symbol command, it is determined that the left stop symbol command having the correct data content has not been received, and drive control at the time of error and drum lamp error display are performed (S820), This process during symbol variation ends.
[0304]
If the process proceeds to S817a, it is confirmed whether the reception timing of the left stop symbol command has ended. More specifically, in S817a, the count value of the process timer started in S782 described above is a timing predetermined as a timing at which reception of the 2-byte left stop symbol command should be completed (for example, a predetermined error is expected in 4 ms). It is determined that the reception timing has been completed. If it is confirmed in S817a that the reception timing has not ended, the process proceeds to S821 described later. On the other hand, if it is confirmed in S817a that the reception timing has ended, it is confirmed whether or not the data indicating the left stop symbol has been stored (S817b). If it is confirmed in S817b that the data indicating the left stop symbol has not been stored, it is determined that the left stop symbol command has not been received at the correct timing, and the error drive control and the drum lamp error display are performed (S817c). ), The process proceeds to S821 described later. On the other hand, if it is confirmed in S817b that the data indicating the left stop symbol has already been stored, it is determined that the left stop symbol command has been received at the correct timing, and the process directly proceeds to S821.
[0305]
If the process proceeds to S821, it is confirmed at this point whether or not a 2-byte display control command including CMD1 (“8CH”) data of the middle stop symbol command has been received. If it is confirmed that the middle stop symbol command CMD1 has not been received, the process proceeds to S821a described later. On the other hand, if it is confirmed that the CMD1 of the medium stop symbol command has been received, is the CMD2 of the corresponding command the data of the CMD2 of the medium stop symbol command (“00 (H)” to “0B (H)”)? It is confirmed whether or not (S822).
[0306]
If it is confirmed in S822 that the command is not CMD2 of the middle stop symbol command, it is determined that the middle stop symbol command of the correct data content has not been received, and the error time drive control and drum lamp error display are performed (S824). This process during symbol variation ends. On the other hand, when it is confirmed in S822 that the command is the CMD2 of the medium stop symbol command, data indicating the medium stop symbol corresponding to the command is stored in the medium symbol storage area (S823). And it is confirmed whether the left stop symbol command is already stored (S825). When it is confirmed that the left stop symbol command is already stored, the display control command reception order is correct, and the symbol variation processing ends. On the other hand, if it is confirmed that the left stop symbol command is not yet stored, it is determined that the display control command reception order is incorrect, and the drive control at error and the drum lamp error display are performed (S826). The changing process is completed.
[0307]
When the process proceeds to S821a, it is confirmed whether or not the reception timing of the middle stop symbol command has ended. Specifically, in S821a, the count value of the process timer started in S782 described above is a predetermined timing as a timing at which reception of the 2-byte medium stop symbol command is to be completed (for example, a predetermined error is expected at 8 ms). It is determined that the reception timing has been completed. If it is confirmed in S821a that the reception timing has not ended, the process proceeds to S827 described later. On the other hand, if it is confirmed in S821a that the reception timing has ended, it is confirmed whether or not the data indicating the above-described medium stop symbol has been stored (S821b). If it is confirmed by S821b that the data indicating the middle stop symbol has not been stored, it is determined that the middle stop symbol command has not been received at the correct timing, and the error drive control and the drum lamp error display are performed (S821c). ), The process proceeds to S827 described later. On the other hand, if it is confirmed in S817b that the data indicating the middle stop symbol has already been stored, it is determined that the middle stop symbol command has been received at the correct timing, and the flow directly proceeds to S827.
[0308]
If the process proceeds to S827, it is confirmed at this point whether or not a 2-byte display control command including the data of the right stop symbol command CMD1 (“8DH”) has been received. If it is confirmed in S827 that the message has not been received, the process proceeds to S827a described later. On the other hand, if it is confirmed that the command is received in S827, it is confirmed whether or not the CMD2 of the corresponding command is the data of the right stop symbol command CMD2 ("00 (H)" to "0B (H)"). (S828). If it is confirmed in S828 that it is not the right stop symbol command CMD2, it is determined that the right stop symbol command having the correct data content has not been received, and an error is displayed (S830), and this symbol variation processing is completed. To do. On the other hand, if it is confirmed in S828 that the CMD2 of the right stop symbol command has been received, the data indicating the right stop symbol corresponding to the command is stored in the right symbol storage area (S829). And it is confirmed whether the middle left stop symbol command is already stored (S831). If it is confirmed that the middle stop symbol command is already stored, the reception order of the display control commands is correct, and the symbol variation processing ends. On the other hand, if it is confirmed that the middle stop symbol command has not yet been stored, it is determined that the display control command reception order is incorrect, and the error time drive control and drum lamp error display are performed (S832). The changing process is completed.
[0309]
When the process proceeds to S827a, it is confirmed whether or not the reception timing of the right stop command has ended. Specifically, in S827a, the count value of the process timer started in S782 described above is a timing that is predetermined as a timing for completing the reception of the 2-byte right stop symbol command (for example, a predetermined error is expected in 12 ms). It is determined that the reception timing has been completed. If it is confirmed in S827a that the reception timing has not ended, this symbol variation processing ends. On the other hand, if it is confirmed in S827a that the reception timing has ended, it is confirmed whether or not the data indicating the right stop symbol has been stored (S827b). If it is confirmed in S827b that the data indicating the right stop symbol has not been stored, it is determined that the right stop symbol command has not been received at the correct timing, and the error drive control and the drum lamp error display are performed (S827c). ), The process during symbol variation ends. On the other hand, if it is confirmed in S827b that the data indicating the middle stop symbol has been stored, it is determined that the middle stop symbol command has been received at the correct timing, and the symbol variation processing is terminated as it is.
[0310]
In this manner, until the process timer times out, processing for storing data of the stop symbols is performed in response to reception of the stop symbol commands of the left, middle, and right.
[0311]
If the process timer has timed out and the process proceeds to S811a, it is confirmed whether all the left, middle, and right stop symbol commands have been received (S811a). If all the stop symbol commands have been received, the process proceeds to S812. On the other hand, if at least one of the stop symbol commands has not been received, it is determined that the three stop symbol commands to be received at this stage have not been correctly received, and the error drive control and drum lamp error display are performed. (S811b), the process proceeds to S812.
[0312]
In S812, the pointer indicating the data in the process table is incremented by 3. Then, it is confirmed whether or not the data in the area indicated by the pointer is an end code (S813). If it is not the end code, the symbol variation control, the background and character display control are changed based on the data indicating the variation state set in the third byte of the process data indicated by the pointer (S814), and 1, 2 bytes. The timer is started with the process timer value set in the eye (S815). Thereafter, the value of the display control process flag is changed to a value corresponding to the all symbol stop processing (S840) (S816), and the symbol variation processing ends.
[0313]
If it is an end code in step S813, the value of the display control process flag is changed to a value corresponding to the all symbol stop processing (S840) (S816), and the symbol variation processing ends.
[0314]
FIG. 42 is a flowchart showing the all symbol stop process (S840). In the all symbol stop process, the display symbol CPU 101 first checks whether or not a 2-byte display control command including the data of all symbol stop commands CMD1 (“8EH”) has been received (S841a). If it is confirmed in S841a that it has not been received, the process proceeds to S846. On the other hand, when it is confirmed that the CMD1 of the all symbols stop command has been received, it is confirmed whether or not the CMD2 of the corresponding command is the data of the CMD2 (“00 (H)”) of the all symbols stop command (S841b). ). If it is confirmed in S841b that it is not the CMD2 for all symbols stop command, it is determined that the correct all symbols stop command has not been received, the error drive control and the drum lamp error display are performed (S841c), and S846 described later. Proceed to
[0315]
On the other hand, when it is confirmed in S841b that all symbols stop command CMD2 is received, all symbols stop command has been received correctly, and stop symbol display processing for stopping and displaying the final display result of special symbols is performed. (S842). This stop symbol display process will be described later with reference to FIG. Then, it is determined whether or not the stop symbol is a symbol combination for displaying a big hit (S843).
[0316]
If it is determined in S843 that the combination is not a big hit symbol, the process proceeds to S845, and after changing the display control process flag to a value corresponding to the variation start command reception waiting process, the all symbol stop process ends. On the other hand, if it is determined in S843 that the combination is a big hit symbol, it is determined whether or not the current operation is in error (during the error operation that performs the above-described error drive control and drum lamp error display). (S843a). If it is determined in S843a that the error operation is not being performed, the display control process flag is updated to a value indicating the big hit display process (S844). On the other hand, if it is determined in S843a that an error operation is being performed, the process proceeds to S845, and after changing the display control process flag to a value corresponding to the variation start command reception waiting process, the all symbol stop process ends. As described above, when the error operation is being performed, the process proceeds to the above-described change start command reception waiting process, and the above-described drive control during error and drum lamp error display are continuously performed.
[0317]
In S846, it is confirmed whether the above-described monitoring timer (started by S743 or S735) has timed out. If the monitoring timer has timed out, it is determined that all symbol stop commands could not be received at the correct timing because all symbol stop commands could not be received within the specified period, and error control and drum lamp error display were displayed. (S844a), and then the process proceeds to S845 where the display control process flag is changed to a value corresponding to the variation start command reception waiting process, and then the entire symbol stop process ends. As described above, when an error operation is performed, the process proceeds to the above-described variation start command reception waiting process, and the above-described drive control during error and drum lamp error display are continuously performed.
[0318]
FIG. 43 is a flowchart showing the stop symbol display process (S842). In the stop symbol display process, the display control CPU 101 first checks whether or not all the left, middle, and right stop symbol commands have been received (S851). Specifically, it is confirmed whether or not information indicating a symbol is stored in the left middle right symbol storage area.
[0319]
If it is confirmed in S851 that at least one of the left, middle, and right stop symbol commands has not been received, the process proceeds to S854, and after performing the above-described error drive control and drum lamp error display, The stop symbol display process ends. On the other hand, if it is confirmed in S851 that all the left, middle, and right stop symbol commands have been received, the reception timing of all symbol stop commands is set to the scheduled timing (the interval from the variation display control time specified by the variation start command). It is determined whether or not it coincides with the end timing of the variable display that can be grasped based on the time obtained by subtracting the time (S851a).
[0320]
In S851a, when it is confirmed that the reception timing of all symbol stop commands does not coincide with the scheduled timing, the process proceeds to S854, and after performing the above-described error drive control and drum lamp error display, the stop symbol display processing is performed. finish. On the other hand, if it is determined in S851a that the reception timing of all symbol stop commands coincides with the scheduled timing, normal reception has been performed, and the process proceeds to S852 as it is, and the processing for displaying the scheduled stop symbols is performed as usual. After being performed, the process proceeds to S853.
[0321]
When the process proceeds to S853, it is confirmed whether or not a display control command indicating a variation pattern has been received at the start of variation and a display control command for designating all symbols has been received. If it is confirmed in S853 that both commands have been received (S853), the stop symbol display process is terminated. On the other hand, if it is confirmed in S853 that either one or both cannot be received, the above-described drive control during error and drum lamp error display are performed (S854). However, the error display may have already been made so far.
[0322]
In each of the variation start command reception processing, symbol variation processing, all symbol stop processing, and stop symbol display processing described above, error-time drive control and drum lamp error display are performed due to the occurrence of a command reception error. Of such error-time drive control and drum lamp error display, the drum lamp error display is erased (turned off) in S742 described above. On the other hand, the error-time drive control is not provided with a step to cancel, but when the next fluctuation display is started, the rotating drum is rotated regardless of whether there is an error. The process is performed.
[0323]
According to the various processes described above, when a command reception error occurs, the rotating drum continues to rotate even at the timing when the rotating drum must be stopped by the on-error drive control. By such an operation, an error notification peculiar to a rotating drum type pachinko gaming machine can be performed. In addition to error-time drive control, drum lamp error display is performed, but such error notification can be further emphasized. In addition, an error notification specific to a rotating drum type pachinko gaming machine provided with a drum lamp can also be performed by a drum lamp error display.
[0324]
FIG. 44 is an explanatory view showing a display example of special symbols. With reference to (a), the example of the left middle right symbol displayed at the time of power activation is shown. The scheduled stop symbol is stopped and displayed on the active line L. In this case, when the power is turned on, the left symbol “1”, the middle symbol “2”, the right symbol are displayed when the power is turned on in advance. The symbol “3” is stopped and displayed on the active line L.
[0325]
Next, (b) shows an example of the above-described drive control during error and drum lamp error display. In the drawing, specific special symbols are shown, but these special symbols are not stopped but are in operation. In this case, the drum lamp error display is a display in which only the drum lamp 41 (the lamp that illuminates the upper stage of the left variable display portion) of the drum lamps 41 to 49 blinks (the other drum lamps are turned off). Since the drum lamp error display in such a display mode is performed only when an abnormal state in which the display control command cannot be received correctly occurs, it is meaningful as a notification display when a command reception error occurs. Further, the rotating drums 9a to 9c in the case of this embodiment have a normal forward rotation (rotation at the time of normal scrolling) as a rotation mode rotating in the downward direction in the figure. As indicated by the arrows in the figure, the rotating drums 9a to 9c are rotated in the reverse direction in the upward direction in the figure, and the rotation is continued in the rotation mode. Therefore, according to such an error time drive control, in addition to the rotation drums 9a to 9c continuing to rotate, it is visually recognized that the rotation directions of the rotation drums 9a to 9c are opposite to the normal direction. By doing so, it is possible to notify that there is a command reception error. In the case of this embodiment, the error drive control and the drum lamp error display are performed at the same time, thereby informing that there is a command reception error in both the rotating drum operation mode and the drum lamp display mode. Therefore, it can be notified with more emphasis that such a command reception error has occurred.
[0326]
Next, (c) shows an example of an error display displayed by the display control CPU 101 when the CPU 56 of the game control board 31 detects an abnormality of the gaming machine and instructs the display control CPU 101 to display an error. Indicates. When the gaming control CPU 56 detects an abnormality in the gaming machine and instructs the display control means to display an error, only the drum lamp 49 (the lamp that illuminates the lower stage of the right variable display section) among the drum lamps 41 to 49 is displayed. Flashes (other drum lamps are off). As shown in FIGS. 44B and 44C, the display based on the error detected by the display control CPU 101 is different from the display based on the gaming machine abnormality detected by the game control CPU 56. Therefore, the player can easily recognize that an error has occurred with respect to the variable display of symbols from the abnormality of the gaming machine.
[0327]
In the case of this embodiment, the sound control board 70 controls sound effects only in response to a command from the game control board 31, and the lamp control board 35 responds only to a command from the game control board 31. The LED and lamp are controlled. The CPU 56 of the game control board 31 may perform an error operation using these sound effects, LEDs (for example, error code display), and lamps when detecting an abnormality of the gaming machine. On the other hand, when a command reception error is detected on the display control board 80 side, the error display drive control and the drum lamp error display as described above are performed in the symbol display area 9, and sound effects, lamps, and LEDs are used. The error operation based on the error detected by the display control CPU 101 and the error operation based on the gaming machine abnormality detected by the game control CPU 56 are also considered from the viewpoint of the difference in the devices used for the error operation. Is different. Therefore, also from the viewpoint of differences in devices that perform such an error operation, the player can easily recognize that an error has occurred with respect to the variable display of symbols by distinguishing it from an abnormality of the gaming machine.
[0328]
Note that the sound control board 70 and the lamp control board 35 as described above are configured to control sound effects, LEDs, and lamps in accordance with command signals from the display control board 80 as well as the game control board 31. It may be. In such a case, the error operation based on the error detected by the display control CPU 101 is an operation (for example, different from the operation of the sound effect, LED, and lamp based on the gaming machine abnormality detected by the game control CPU 56) Different types of sound effects, different types of error codes, and different types of lamp operations).
[0329]
Next, main effects obtained by this embodiment will be described. When variable display control is performed according to relatively few display control commands as in the pachinko gaming machine of this embodiment, if the left, middle, and right stop symbol commands cannot be received correctly, a serious obstacle to variable display control May occur. However, even if the left, middle, and right stop symbol commands are not received correctly, a predetermined notification that can specify that the state has occurred is performed by error drive control and drum lamp error display. It is possible to easily know that such a state has been reached.
[0330]
In addition, a stop command for all symbols is output at a time related to finalizing the display result of the special symbol, and the special symbol confirmation timing is notified to the display control CPU 101 by this command, thereby starting the variation of the special symbol. When the period from display to final display of the display result is inspected, the final display timing of the special symbol display result can be clarified based on the all symbol stop command.
[0331]
37, S726a, S734, S739, S741, S811b, S817c, S820, S821c, S824, S826, S828c, S830, S832 of FIG. 41, S841c, S844a of FIG. 42, and S854 of FIG. If it is determined that the display control command has not been received correctly, an error display or the like is immediately notified at that time. The person who receives the notification can immediately recognize that an abnormality has occurred.
[0332]
Also, as shown in FIG. 44, the notification when an abnormality relating to failure to correctly receive the display control command has occurred, so that it can be distinguished from the notification performed in response to a command from the basic circuit 53. The notification performed by the determination on the display control CPU 101 side when an abnormality occurs in the reception of the display control command can be differentiated from the notification performed by the determination on the basic circuit 53 side. Furthermore, since the error-time drive control and the drum lamp error display are continued until the next variable start as a notification when an abnormality relating to the failure to correctly receive the display control command occurs, the person receiving the notification will be notified Can be notified over a sufficient period of time to recognize. Furthermore, it is possible to perform an enhanced notification due to the length of the notification period.
[0333]
In addition, when there is a display control command that could not be correctly received, notification by error-time drive control and drum lamp error display is performed, so the display of the variable display device that misleads the player is based on the display at the time of abnormality Can be prevented.
[0334]
In addition, when there is a display control command that could not be received correctly, the error symbol drive control is performed so that the special symbol continues to be variably displayed as a display when there is an error. Since it is not obtained, it is possible to prevent the final display of the special symbol that misleads the player.
[0335]
In addition, as a display at the time of abnormality, a drum lamp error display in which a predetermined drum lamp 41 is controlled to blink is performed, but a relatively simple operation control of a drum lamp prepared for another purpose is performed. Since the display at the time of abnormality is performed by the processing, the control burden on the display control CPU 101 when performing the display at the time of abnormality can be reduced.
[0336]
In this embodiment, the display control command has a 2-byte configuration, but the display control command may have any configuration. Further, in this embodiment, regarding the variable display of symbols, a change control command indicating a change pattern, a display control command indicating a stop symbol of the left middle right symbol, and all symbol stops are displayed from the game control board 31 to the display control board 80. The display control command shown is sent out, but the display control command may be sent out at a finer timing (for example, every time the display state changes).
[0337]
Second embodiment
Next, a second embodiment will be described. In the second embodiment, when the display control CPU 101 side receives the all symbol stop command at a timing different from the scheduled display timing of the display result grasped according to the change start command, the special symbol stop display is performed. An example will be described in which delay control is performed to wait until the display symbol first becomes a scheduled stop symbol. In this embodiment, differences from the first embodiment will be mainly described.
[0338]
FIG. 45 is an explanatory diagram for explaining an operation example of display control when a display control command cannot be received. In FIG. 45, a cross indicates that the corresponding command has not been received, and a circle indicates that the corresponding command has been received.
[0339]
As shown in FIG. 45, a display control command (which means a change start command, the same applies to the following) that specifies a fluctuation pattern could not be received, but a display control command (left, middle, If you can receive a right stop symbol command (the same applies to the following) and a display control command indicating all symbols stop (which means the same symbol stop command, the same applies to the following), the shortest fluctuation without any production fluctuation (current Display control that shows the left, middle, and right stop symbols when a display control command that shows all symbols stopped is received from the currently displayed symbol until the scheduled stop symbol is displayed on the active line) The symbol specified by the command is displayed.
[0340]
If the display control command that specifies the fluctuation pattern and the display control command that indicates all symbol stops can be received, but some or all of the display control commands that indicate the left middle right stop symbol cannot be received, it is specified. When the display control command indicating the stop of all symbols is received, the symbol designated by the display control command indicating the stop symbol of the left, middle and right is displayed. However, the symbols that are displayed when the power is turned on are displayed for the symbols that cannot receive the display control command.
[0341]
If some or all of the display control commands that specify the variation pattern and the display control commands that indicate the middle left and right stop symbols could not be received, but the display control command that indicates all symbol stops could be received, When the display control command indicating the stop of all symbols is received, the symbol designated by the display control command indicating the left middle right stop symbol is displayed. However, the symbols that are displayed when the power is turned on are displayed for the symbols that cannot receive the display control command.
[0342]
If the display control command that specifies the variation pattern and the display control command that indicates the left middle right stop symbol can be received, but the display control command that indicates all symbol stops cannot be received, the left of the specified variation pattern The middle right symbol is changed, and the symbol designated by the display control command indicating the left middle right stop symbol is displayed when the monitoring timer started by the display control CPU 101 times out.
[0343]
If a display control command that specifies the fluctuation pattern has been received, but a part or all of the display control command that indicates all symbols stop and the display control command that indicates the left middle right stop symbol cannot be received, it is specified. The left middle right symbol is varied in accordance with the variation pattern, and the symbol designated by the display control command indicating the left middle right stop symbol is displayed when the monitor timer started by the display control CPU 101 times out. However, the symbols that are displayed when the power is turned on are displayed for the symbols that cannot receive the display control command.
[0344]
In all the cases described above, even one of the display control command for specifying the variation pattern, the display control command for indicating the left middle right stop symbol, and the display control command for indicating all symbol stop was not received. In this case, the display control CPU 101 notifies that an error has occurred based on blinking the drum lamp 41 in the symbol display area 9.
[0345]
FIG. 46 is a flowchart showing a change start command reception waiting process of the display control process according to the second embodiment. This variation start command reception waiting process is a process that replaces the above-described variation start command reception waiting process shown in FIG. In FIG. 46, the same steps as those in FIG. 37 are denoted by the same step numbers, and description thereof will not be repeated.
[0346]
The variation start command reception waiting process in FIG. 46 is different from that in FIG. 37 in the following points. In S734b, S726b, S739b, and S741b corresponding to S734, S726a, S739, and S741 in FIG. 37, only the drum lamp error display is performed as the error operation for the command reception error. The monitoring timer started in S735 is used to determine the timing for stopping the symbol when all symbol stop commands cannot be received.
[0347]
FIG. 47 is a flowchart showing a process during symbol variation according to the second embodiment. This symbol changing process is a process that can replace the symbol changing process shown in FIG. In FIG. 47, portions common to those in FIG. 41 are denoted by the same step numbers, and description thereof will not be repeated.
[0348]
47 is different from that in FIG. 41 in the following process. Command reception error in S811d, S817d, S820d, S821d, S824d, S824d, S826d, S830d, and S832d corresponding to S811b, S817c, S820, S821c, S824, S826, S830c, S830, and S832 in FIG. As an operation, only drum lamp error display is performed.
[0349]
FIG. 48 is a flowchart showing all symbol stop processing according to the second embodiment. This all symbol stop process is a process that replaces the all symbol stop process shown in FIG. In FIG. 48, the same step numbers are assigned to portions common to FIG.
[0350]
By S841a and 841b, the same processing as in FIG. 42 described above is executed. If it is confirmed in S841b that it is not the CMD2 for all symbols stop command, it is determined that a correct all symbols stop command has not been received, a drum lamp error is displayed (S841d), and the flow proceeds to S846.
[0351]
On the other hand, if it is confirmed in S841b that all symbols stop command is CMD2, all symbols stop command is received correctly, and stop symbol display processing is performed (S842a). The stop symbol display processing in S842a will be described later with reference to FIG. Then, it is determined whether or not the stop symbol is a symbol combination for displaying a big hit (S843).
[0352]
If it is determined in S843 that the combination is not a big hit symbol, the process proceeds to S847a described later. On the other hand, if it is determined in S843 that the combination is a big hit symbol, it is determined whether or not the symbol adjustment flag is set (S843a). Here, the symbol adjustment flag is a flag that is set during adjustment of the stop display symbol that is performed when the reception timing of all symbol stop commands does not coincide with the scheduled timing (see S851h in FIG. 49). If the symbol adjustment flag is not set, the display control process flag is updated (S844). If the symbol adjustment flag is not set, display control is performed to wait until the stop display symbol adjustment is completed. All symbol stop processing ends without updating the process flag. As a result, all symbol stop processing is continued until the symbol adjustment flag is cleared.
[0353]
In S846, it is confirmed whether or not the above-described monitoring timer (started by S743 or S735) has timed out. If the monitoring timer has timed out, it is determined that all symbol stop commands could not be received at the correct timing due to failure to receive all symbol stop commands within a predetermined period, and a drum lamp error display is performed (S844b). Thereafter, a stop symbol display process is performed (S847). The stop symbol display process in S847 is the same process as the stop symbol display process in S842a described above.
[0354]
After the stop symbol display process in S847 or when it is determined in S843 that the combination is not a big hit symbol, it is determined whether or not a symbol adjustment flag is set (S847a). If the symbol adjustment flag is not set, the display control process flag is changed to a value corresponding to the variation start command reception waiting process (S845), and then the all symbol stop process ends. On the other hand, when the symbol adjustment flag is set, in order to wait until the adjustment of the stop display symbol is completed, the entire symbol stop process is terminated without updating the display control process flag. As a result, all symbol stop processing is continued until the symbol adjustment flag is cleared.
[0355]
FIG. 49 is a flowchart showing stop symbol display processing (S842a, S847) according to the second embodiment. This stop symbol display process is replaced with the stop symbol display process shown in FIG. In the stop symbol display process, the display control CPU 101 first checks whether or not all the left, middle, and right stop symbol commands have been received (S851). Specifically, it is confirmed whether or not information indicating a symbol is stored in the left middle right symbol storage area.
[0356]
If it is confirmed in S851 that all the left, middle, and right stop symbol commands have been received, the reception timing of all symbol stop commands is the scheduled timing (the interval time is calculated from the variation display control time specified by the variation start command). It is determined whether or not it coincides with the end timing of the variable display that can be grasped based on the subtracted time (S851a).
[0357]
If it is determined in S851a that the reception timing of all symbol stop commands coincides with the scheduled timing, normal reception has been performed, so that the process proceeds to S852 and processing for displaying the stop symbols is performed as usual. Then, the process proceeds to S853. On the other hand, when it is determined that the reception timing does not coincide with the scheduled timing, it is a case where abnormal reception is performed, and the current display pattern (display pattern on the effective line) matches the planned stop pattern. It is determined whether or not there is (S851e).
[0358]
If it is determined in S851e that the current display symbol does not match the scheduled stop symbol, if the symbol is stopped and displayed as it is, the stop symbol command will not match. In this case, it is determined whether or not the symbol adjustment flag is set (S851f). If the symbol adjustment flag is not set, the symbol is scrolled at a high speed by setting the symbol variation rate to a variation rate higher than the normal variation rate (S851g). Then, the symbol adjustment flag is set (S851h), and the process proceeds to S853. On the other hand, if the symbol adjustment flag is set, the symbol variation speed increasing process and the symbol adjustment flag setting process have already been performed, and the process proceeds to S853 without performing these processes. When the stop symbol display process is completed while the symbol adjustment flag is set, as described above, the all symbol stop process is executed again, so that the stop symbol display process is also executed again. Thereby, the change display of the symbol by high speed is continued until the display symbol on an active line corresponds with a schedule stop symbol first by S851e. In other words, in the display symbol stop display, delay control is performed to wait until the display symbol first becomes the scheduled stop symbol.
[0359]
On the other hand, if it is determined in S851e that the current display symbol matches the scheduled stop symbol, it is determined whether or not the symbol adjustment flag is set (S851i). When the symbol adjustment flag is not set, it is a case where the current display symbol coincides with the scheduled stop symbol without symbol adjustment, and the process proceeds to S852 as it is, and the display symbol at that time is stopped and displayed. On the other hand, when the symbol adjustment flag is set, it means that the current display symbol matches the scheduled stop symbol by symbol adjustment. After the symbol adjustment flag is cleared (S851j), the procedure proceeds to S852, where symbol adjustment is performed. After the display symbol matched with the scheduled stop symbol is stopped and displayed, the process proceeds to S853.
[0360]
As a result, when it is determined that the current display symbol matches the planned stop symbol, processing for stopping and displaying the planned stop symbol based on the stop symbol command is performed at that time. For this reason, when the symbol adjustment is performed, the symbol stop display is made when the symbol that matches the scheduled stop symbol is displayed for the first time, and for example, there is an abnormality in the reception timing of all symbol stop commands. Even in such a case, if the symbol that can be displayed at the reception timing happens to be a scheduled stop symbol, the symbol is stopped as it is.
[0361]
When the process proceeds to S853, it is confirmed whether or not a display control command indicating a variation pattern has been received at the start of variation and a display control command for designating all symbols has been received. If it is confirmed in S853 that both commands have been received (S853), the process ends. If it is confirmed in S853 that either one or both cannot be received, a drum lamp error is displayed in the image display area 9 (S854). However, the drum lamp error display may already have been made so far.
[0362]
If it is confirmed in S851 that any one of the left, middle, and right stop symbol commands has not been received, the stop symbol that has received the display control command is the corresponding one in the image display area 9. For the stop symbols that have been displayed on the variable display portion and for which the display control command has not been received, the symbols that are displayed when the power is turned on are displayed on the variable display portion (S855). An example of the display is shown in FIG. Then, a drum lamp error display is performed (S854). However, the drum lamp error display may already have been made so far.
[0363]
If the symbols that are displayed when the power is turned on are displayed for the stop symbols for which the display control command cannot be received, if the left middle right symbols are aligned, adjustment is performed so that the left middle right symbols are not aligned. In addition, if the symbols that are displayed when the power is turned on are displayed for the stopped symbols that could not receive the display control command, if the left and right symbols are aligned, the left and right symbols are adjusted so that they are not aligned. It may be. In this embodiment, the symbols that are displayed when the power is turned on are displayed for the symbols that have not received the display control command. However, any one of the display control commands that indicate the symbols of the left middle right symbol is displayed. If even one of them cannot be received, each symbol displayed when the power is turned on may be displayed in all display areas.
[0364]
In this case, the display using the display pattern at the time of power-on in S855 and the drum lamp error display in S854 are continued until the next fluctuation display is performed. As described above, the drum lamp error display is erased when the fluctuation start command is received, and once the special symbol is stopped, the stopped state is maintained until the next fluctuation display is started. Because it is done.
[0365]
In addition, although the example which waits for the stop of a symbol until the display symbol first matches with the scheduled stop symbol is shown here, the present invention is not limited to this. It does not matter whether or not the timing coincides with the stop symbol, and may be the timing coincident with the scheduled stop symbol for a plurality of times.
[0366]
In this embodiment, the symbols that are displayed when the power is turned on are displayed for the symbols that have not received the display control command. However, any one of the display control commands that indicate the symbols of the left middle right symbol is displayed. If even one of them cannot be received, each symbol displayed when the power is turned on may be displayed on all of the left, middle and right display units.
[0367]
FIG. 50 is a diagram showing a display example of symbols upon power-on performed in S855 described above. Referring to FIG. 50, a table in the case where the display control command indicating the stop symbol of the middle symbol (in this example, “9”) can be received, but the display control command indicating the stop symbol of the left and right symbols cannot be received. An example is shown. That is, “1” and “3” displayed when the power is turned on are displayed on the effective line L in the variable display portions 9a, 9b, and 9c of the left and right symbols. The display of the stop symbol at the time of power-on is a display of a symbol that was originally selected from the symbols that are normally used, but if such a display symbol at the time of power-on is displayed every time an abnormality occurs The person who knows such display contents can know that the display control command has not been correctly received based on the display of such a symbol other than when the power is turned on. For this reason, such a display is meaningful as a notification display when an abnormality occurs in which the display control command cannot be received correctly.
[0368]
In the example shown in FIG. 50, the symbols displayed when the power is turned on when the display control command indicating the stop symbol cannot be received (in this example, the symbols on the left, middle, and right are “1”, “2”). ”,“ 3 ”) is displayed, but the present invention is not limited to this, and a predetermined error notification symbol may be displayed.
[0369]
FIG. 51 is a timing chart showing the control operation of the delay control described above by the stop symbol display process of FIG. In FIG. 51, the state of the display control command data, the left symbol, the right symbol, the middle symbol controlled in the scheduled timing (planned in the diagram), and the middle symbol controlled in the timing different from the scheduled timing (delayed in the diagram). Are shown over time.
[0370]
Referring to FIG. 51, display control CPU 101 sequentially receives variation start command A, left stop symbol command B, middle stop symbol command C, and right middle stop symbol command D at the timing related to the start of variation display. Is done. In response to receipt of the change start command A, all left, middle, and right symbols start scrolling at the same time, and then the left and right symbols stop in sequence (if the temporary stop such as shaking fluctuation display) There is also). When the normal all symbol stop command E1 is received at the scheduled timing (the timing corresponding to the end of the variation time specified by the variation start command and recognized on the display control CPU 101 side). In response to the reception, the changing middle symbol is stopped and displayed (when the left and right symbols are temporarily stopped due to fluctuations, all symbols are stopped and displayed). The symbol that is finally stopped is displayed and controlled so that it is displayed on the valid line in accordance with the symbol display order at the end of the variation time specified by the variation start command.
[0371]
However, when an abnormal all symbol stop command E2 is received at a timing different from the scheduled timing as shown in the diagram (a timing not corresponding to the end of the variation control time specified by the variation start command), Due to the display order, the symbols that will eventually stop may not be stopped and displayed on the active line at that time. Therefore, in the stop symbol display process described above, when the all symbol stop command E2 is received at an abnormal timing, the process waits until the planned stop symbol is displayed from that point, and at the time when the planned stop symbol is displayed, Delay control for stopping the stop symbol, that is, control for delaying the symbol stop display timing from the reception of the all symbol stop command E2 until the final stop symbol is displayed. As a result, the symbol designated by the stop symbol command can be stopped and displayed, and the command and the actual display can be matched. During the control, during the period of waiting for the display of the scheduled stop symbol, the symbol is variably displayed at a fluctuation speed b higher than the normal fluctuation speed a. In this way, the time difference between the reception timing of the all symbol stop command E2 and the actual symbol stop timing can be reduced by displaying the variable at high speed during the period of waiting for the scheduled stop symbol display. .
[0372]
Moreover, the following can be said about the delay control by the stop symbol display process of FIG. The display control CPU 101 performs control for stopping the driving of the rotating drums 90a to 90c in response to receiving the all symbol stop command output from the basic circuit 53 side, whereby the display specified by the stop symbol command is performed. Control for deriving and displaying the result is performed. Therefore, when the confirmation timing of the display result specified by the display control CPU 101 receiving the all symbols stop command is different from the scheduled decision timing recognized in advance based on the change start command on the display control CPU 101 side. If the display result is confirmed and displayed in response to reception of all symbol stop commands as it is, in most cases, the positions of the rotary drums 90a to 90c are not positions where the scheduled stop symbols can be displayed on the effective line. In some cases, the display result specified by the middle / right stop symbol command cannot be displayed correctly.
[0373]
On the other hand, when the confirmation timing of the display result specified by receiving all the symbol stop commands is different from the scheduled confirmation timing recognized on the display control CPU 101 side, the rotation of the stop timing delay as described above. Control for adjusting the variable display period by the CPU 101 for display control by changing the schedule of drive control of the drums 90a to 90c (control for confirming and displaying a symbol at a timing different from the predetermined schedule timing, ie, control for adjusting the variable display period) As a result of this adjustment, the display result does not have to be fixedly displayed based on the stop of the rotating drums 90a to 90c in response to the reception of all the symbol stop commands, and the display result specified by the stop symbol command is correctly displayed. It becomes possible to make a fixed display. Furthermore, due to a discrepancy between the command on the basic circuit 53 side and the content of control by the display control CPU 101, for example, control other than variable display control such as lamps and sound effects performs control corresponding to the deviation of the display result. Nevertheless, it is possible to prevent as much as possible the misunderstanding regarding the game state of the player that occurs when the variable display device 8 is a big hit display result.
[0374]
Next, a modification of the display at the time of error notification in the symbol display area 9 will be described. FIG. 52 is a flowchart showing a modified example of the stop symbol display process.
[0375]
In the stop symbol display process of FIG. 52, the process of S855 is different from the stop symbol display process shown in FIG. That is, here, when it is confirmed that any one of the left, middle, and right stop symbol commands has not been received, the stop symbol that has received the stop symbol command is stored in the symbol display area 9. An error notification symbol is displayed for the stop symbol of the variable display unit that has been displayed on the variable display unit and the stop symbol command cannot be received (S855A).
[0376]
For example, symbols such as “x”, “x”, “x”, etc. are provided as error notification left, middle, and right symbols, and the symbols are displayed on the effective line. To display. Even in this configuration, when an error occurs in the display control command, the same error notification symbol is always displayed. Therefore, when an error occurs, the player can make an error based on the symbol display. Can be easily recognized. In addition, when any one of the display control commands indicating the stop symbol of the left middle right symbol has not been received, the error notification symbols (for example, the left, middle and right symbols are displayed on all the variable display units). "X", "x", and "x") may be displayed.
[0377]
In this case, the display using the error notification symbol in S855A and the drum lamp error display in S854 are continued until the next fluctuation display is performed as described above.
[0378]
FIG. 53 is an explanatory diagram showing an error notification pattern based on the processing of FIG. In this example, the display control command indicating the stop symbol of the middle symbol ("9" in this example) can be received, but the display control command indicating the stop symbol of the left and right symbols cannot be received. . That is, an error notification “x” is displayed on the effective line L in the variable display portion of the left and right symbols. Since the display of such an error notification symbol is originally a symbol that is not used for normal display, if such a display symbol at power-on is displayed when an abnormality occurs, such a display is displayed. The person who knows the contents can know that the display control command has not been correctly received based on the display of such a symbol. For this reason, such a display is meaningful as a notification display when an abnormality occurs in which the display control command cannot be received correctly.
[0379]
Next, a modification of the display at the time of error notification in the symbol display area 9 will be described. FIG. 54 is a flowchart showing another modification of the stop symbol display process.
[0380]
54 is different from the stop symbol display process shown in FIG. 49 in the stop symbol display process of FIG. That is, here, if it is confirmed that any one of the left, middle, and right stop symbol commands has not been received, a special speed (a speed different from the normal fluctuation speed, for example, in this case) (S855B) is performed to keep the variable display at a lower speed than usual. As a result, in the all symbol stop processing in such a case, the symbol is not stopped, and thereafter, the processing proceeds to the variation start command reception waiting processing (see S845), and therefore, at a special speed until the next variation display is performed. The variable display is continued. In this case, the drum lamp error display in S854 is continued until the next fluctuation display is performed.
[0381]
Such continuation of the fluctuation display at a special speed is a fluctuation display that is different from the normal fluctuation display such as being performed at a fluctuation speed different from the normal, and being performed until the next fluctuation. A person who sees a simple display can easily recognize it from a normal display. For this reason, such a variable display is performed when an abnormality occurs in which the display control command cannot be received correctly, so that a person who knows the display content correctly displays the control command based on such a variable display. It becomes possible to know that it was not received. For this reason, such a display is meaningful as a notification display when an abnormality occurs in which the display control command cannot be received correctly.
[0382]
Next, a modification of the display at the time of error notification in the symbol display area 9 will be described. FIG. 55 is a flowchart showing another modification of the stop symbol display process.
[0383]
In the stop symbol display process of FIG. 55, the process of S855 is different from the stop symbol display process shown in FIG. That is, here, when it is confirmed that any one of the left, middle, and right stop symbol commands has not been received, the stop symbol that has received the stop symbol command is stored in the symbol display area 9. In addition to displaying on the effective line L in the corresponding variable display section, the error notification pattern is displayed by shifting from the effective line L for the stop display of the variable display section that has not received the stop symbol command (S855C).
[0384]
As previously described symbols for error notification, as described above, “x”, “x”, “x”, etc. are used as the left, middle, and right symbols for error notification described above.
[0385]
In addition, when any one of the display control commands indicating the stop symbol of the left middle right symbol has not been received, the error notification symbols (for example, the left, middle and right symbols are displayed on all the variable display units). "X", "x", and "x") may be displayed while being shifted from the effective line L.
[0386]
In this case, the symbol shift display by S855C and the drum lamp error display by S854 are continued until the next variation display is performed.
[0387]
FIG. 56 is an explanatory diagram showing an error notification pattern based on the processing of FIG. In this example, the display control command indicating the stop symbol of the middle symbol ("9" in this example) can be received, but the display control command indicating the stop symbol of the left and right symbols cannot be received. . That is, on the variable display portion of the left and right symbols, “x” for error notification is displayed slightly shifted from the effective line L.
[0388]
Since such a symbol shift display is different from the normal display in which the symbol is stopped on the active line, the person who sees such a display can easily distinguish and recognize it from the normal variation display. Can do. For this reason, when an abnormality occurs in which the display control command cannot be correctly received, such display is performed, so that a person who knows the display content can correctly receive the display control command based on such variable display. It becomes possible to know what did not happen. For this reason, such a display is meaningful as a notification display when an abnormality occurs in which the display control command cannot be received correctly.
[0389]
Note that control contents such as notification when an abnormality in which display control commands cannot be correctly received as shown in FIGS. 49 to 56 occur may be used in combination as appropriate.
[0390]
Next, main effects obtained by this embodiment will be described together.
In this embodiment, when there is a series of display control commands from the basic circuit 53 that cannot be correctly received, the display control CPU 101 does not perform display control of symbols at all. For the received command, display control according to the command is performed. Therefore, it is possible to display as close as possible to the regular variable display as much as possible, and to minimize distrust given to the player. In addition, when at least one of the plurality of display control commands cannot be received correctly, a notification that can specify that the state has occurred is performed using the special symbol display mode and the drum lamp. When an abnormality relating to the failure of the display control CPU 101 to correctly receive the display control command occurs, the player can be prevented from feeling distrust. Furthermore, a player's misunderstanding about the abnormal display state in the variable display apparatus resulting from such a state can also be prevented.
[0390]
Further, for display control commands that could not be received correctly, appropriate predetermined control is performed for each display control command. For example, when a display control command indicating a variation pattern cannot be received, a monitoring timer for determining the timing of the fixed symbol display is started in response to reception of a display control command indicating a left middle right symbol stop symbol. In addition, when the display control command indicating that all symbols are stopped cannot be received, the timing of the determined symbol display is determined by the timeout of the monitoring timer. Further, when a display control command indicating a stop symbol of the left middle right symbol cannot be received, a predetermined symbol determined in advance is displayed.
[0392]
In addition, when variable display control is performed according to relatively few display control commands as in the pachinko gaming machine of this embodiment, it is important for variable display control when the left, middle and right stop symbol commands cannot be received correctly. May cause serious obstacles. However, even if the left, middle, and right stop symbol commands cannot be received correctly, a predetermined notification that can specify that the state has occurred is provided by the special symbol display mode and the drum lamp. You can easily know that
[0393]
In addition, a stop command for all symbols is output at a time related to finalizing the display result of the special symbol, and the special symbol confirmation timing is notified to the display control CPU 101 by this command, thereby starting the variation of the special symbol. When the period from display to final display of the display result is inspected, the final display timing of the special symbol display result can be clarified based on the all symbol stop command.
[0394]
Further, as shown in S726b, S734b, S739b, S741b in FIG. 46, S811d, S817d, S820d, S821d, S821d, S824d, S826d, S828d, S830d, S832d in FIG. 47, S841d, S844d in FIG. When it is determined that the display control command has not been correctly received, a drum lamp error display or the like is immediately notified at that time, resulting in an abnormality in which the display control command could not be received correctly. Sometimes, this can be notified immediately, and the person receiving the notification can immediately recognize that an abnormality has occurred.
[0395]
Also, as shown in FIG. 52, the notification when an abnormality relating to the failure to correctly receive the display control command occurs is made distinguishable from the notification performed in response to the command of the basic circuit 53. Notification when an abnormality occurs in reception of a display control command can be differentiated from notification performed in response to a command on the basic circuit 53 side. In addition, since notification when an abnormality relating to failure to correctly receive the display control command occurs is continued until the next variable start, notification is performed for a period sufficient for the person receiving the notification to recognize the notification content. Can do. Furthermore, it is possible to perform an enhanced notification due to the length of the notification period.
[0396]
Also in the second embodiment, when there is a display control command that could not be received correctly, notification by an abnormal display on a variable display device that is predetermined in response to the command, for example, flashing of only the drum lamp 41 Therefore, the display of the variable display device that misleads the player can be prevented based on the display at the time of abnormality.
[0397]
In addition, when there is a display control command that could not be received correctly, a special display as a display at the time of abnormality is continuously variably displayed at a special speed by S855B in FIG. 52, and a fixed display is performed during that time. Since it is not obtained, it is possible to prevent the final display of the special symbol that misleads the player.
[0398]
Also in the second embodiment, the predetermined drum lamp 41 is controlled to be blinking as a display at the time of abnormality, but it is relatively easy to control the operation of a drum lamp prepared for another purpose. Since the abnormal display is performed by a simple process, the control burden on the display control CPU 101 when performing the abnormal display can be reduced.
[0399]
In addition, when the display control command is not correctly received, notification is performed based on displaying a predetermined special symbol such as a symbol at power-on and an error notification symbol in the variable display device. In the case of notification using a special symbol, it is possible to prevent a display that gives a misunderstanding to the player that the display result of the special symbol becomes a big hit symbol. In addition, even if such a symbol is not a notification-only symbol, if an abnormality frequently occurs, such a symbol is displayed more frequently than the other symbols, so that the player or the like can see such notification. A person can recognize that such a symbol is a symbol for notification.
[0400]
In addition, as a special symbol displayed when the display control command cannot be received correctly, a special symbol displayed when the gaming machine is turned on, which is a display result of a special symbol prepared for another purpose, is displayed. Therefore, a special symbol when the display control command cannot be correctly received can be displayed by a relatively simple process. For this reason, it is possible to reduce the control burden on the display control CPU 101 when performing display at the time of abnormality.
[0401]
Also, as shown in FIG. 56, as a display result of a special symbol displayed when the display control command cannot be received correctly, the special symbol is displayed when the special symbol is shifted from the effective line. Since the display result is displayed, it is possible to make the content of the notification easy to understand for the person receiving the notification. Furthermore, the display of a special symbol when the display control command cannot be correctly received by using such a predetermined display result by a relatively simple process as compared with the case of using the display result of other modes. Can be performed. Thereby, it is possible to reduce the control burden on the display control CPU 101 when the display is performed at the time of abnormality.
[0402]
Also in the second embodiment, the display control command has a 2-byte configuration as in the case of the first embodiment described above, but the display control command may have any configuration. Also in the second embodiment, as in the case of the first embodiment described above, regarding the variable display of symbols, a variation control command indicating a variation pattern, a left middle right symbol, from the game control board 31 to the display control board 80. The display control command indicating the stop symbol and the display control command indicating the stop of all symbols are sent, but the display control command is sent at a finer timing (for example, every time the display state changes). You may be comprised so that.
[0403]
Third embodiment
Next, a third embodiment will be described. In this third embodiment, when the display control CPU 101 side receives all symbol stop commands at a timing different from the scheduled determination timing of the display result grasped according to the change start command, the stop symbol is the scheduled stop symbol. The control for correcting the stop symbol (referred to as correction control) will be described only when it is immediately stopped regardless of whether or not it is, and only when the display control command does not match the point of big hit or miss.
[0404]
FIG. 57 is a flowchart showing a control operation when the correction control according to the third embodiment is performed. 57, the display control command data, the left symbol, the right symbol, the middle symbol controlled in the scheduled timing (planned in the diagram), and the middle symbol controlled in the timing different from the scheduled timing (corrected in the diagram). Are shown over time. About FIG. 57, the overlapping description about the part which is common in FIG. 51 is not repeated, and a difference is mainly demonstrated.
[0405]
Referring to FIG. 57, in the third embodiment, when all symbol stop command E2 is received at an abnormal timing, the symbol displayed at the time of reception is basically stopped and displayed. In other words, as long as the big hit or miss is met, even if the planned stop symbol and the actual stop symbol are different, the stop display is performed. Thereby, the time difference between the reception timing of the all symbols stop command E2 and the actual symbol stop timing can be eliminated as much as possible. However, in the case of such a symbol stoppage, if the big hit and the dissatisfaction are not correct, processing for correcting the symbol to be stopped is performed as shown in the diagram. Specifically, this correction is displayed after the symbol is scrolled at a high speed by rotating the rotating drum at a higher speed than usual until the symbol that is the big hit symbol or the off symbol symbol is displayed from the currently displayed symbol. This is a correction that matches the big hits and misses by stopping and displaying the displayed symbols. By making such corrections, it is possible to match the display control command in terms of big hits and misses, and there is a discrepancy between the display result of the design and the control other than the variable display device. So that the player is not distrusted. Further, since the stop symbol correction control is performed at a high speed, the time difference between the reception timing of the all symbol stop command E2 and the actual symbol stop timing can be reduced.
[0406]
Next, the control content of the correction control as described above will be described. FIG. 58 is a flowchart for explaining stop symbol display processing according to the third embodiment. 58 is replaced with the stop symbol display process of FIG. 49 according to the second embodiment. 58, the description of the parts common to FIG. 49 will not be repeated, and differences from FIG. 49 will be mainly described.
[0407]
The stop symbol display process of FIG. 58 is different from that shown in FIG. 49 in that steps S851m to S851z are added between the step S851a and the step S853.
[0408]
In the case of FIG. 58, if it is determined in S851a that the reception timing of all symbol stop commands coincides with the scheduled timing, normal reception has been performed, and the process directly proceeds to S852. On the other hand, if it is determined in S851a that the reception timing does not coincide with the scheduled timing, it is a case where abnormal reception is performed, and whether the planned stop symbol is a big hit symbol based on the received stop symbol command. It is determined whether or not (S851m).
[0409]
When it is determined that the scheduled stop symbol is a big hit symbol, the process proceeds to S851s described later. On the other hand, when it is determined that the scheduled stop symbol is not a big hit symbol, it is determined whether or not the current display symbol is a big hit symbol (S851n).
[0410]
If it is determined in S851n that the current display symbol is a big hit symbol, the scheduled stop symbol and the current display symbol are different in terms of big hit and deviation, and whether or not the symbol adjustment flag is set. Is determined (S851p). If the symbol adjustment flag is not set, the current display symbol is removed and corrected to the symbol (S851q). Specifically, high-speed scrolling (scrolling at a higher speed than the normal scrolling speed) is performed to correct the middle symbols to symbols in the display order of one symbol. Then, a process of setting a symbol adjustment flag is performed to indicate that the symbol adjustment by such high-speed scroll correction is being executed (S851r), and the process proceeds to S853 described above. On the other hand, if the symbol adjustment flag is set, the symbol correction process is currently being executed, and the symbol adjustment flag has already been set. Therefore, the process proceeds to S853 without performing these processes. Here, when the stop symbol display process ends with the symbol adjustment flag set, in the case of the all symbol stop process of FIG. 48 described above, the all symbol stop process is executed again, so the stop symbol display process is also performed. It will be executed again. Thereby, the correction display of the symbol by the high-speed scroll in this case is continued until it is determined in S851n that the display symbol is out of place.
[0411]
On the other hand, if it is determined in S851n that the current display symbol is a missing symbol, it is determined whether or not the symbol adjustment flag is set (S851w). The symbol adjustment flag in this process is set when the aforementioned stop symbol correction is performed. If the symbol adjustment flag is not set, the current display symbol and the scheduled stop symbol are the big hit and the point of deviation (in this situation, both are symbols that are out of sync) without symbol adjustment. Then, the current display symbol is stopped and displayed as it is (S851z), and the process proceeds to S853 described above. As a result, when the scheduled stop symbol is a miss symbol and the display symbol at the time of command reception is a big hit symbol, the symbol being displayed is corrected to the miss symbol and is stopped and displayed. Further, when the scheduled stop symbol is a missing symbol and the display symbol at the time of command reception is also a missing symbol, the currently displayed symbol is stopped and displayed as it is.
[0412]
By performing such a correction to make the jackpot symbol out of order, the scheduled stop symbol is a symbol that has been missed, but if the display symbol at the time of command reception is a jackpot symbol, the symbol that has been corrected to the symbol is displayed The symbol of is stopped and displayed.
[0413]
If it is determined that the scheduled stop symbol is a big hit symbol and the process proceeds to S851s, it is determined whether or not the current display symbol is an off symbol. A determination is made as to whether or not the current display symbol is a detached symbol.
[0414]
If it is determined in S851s that the current display symbol is a big hit symbol, the scheduled stop symbol and the current display symbol are different in terms of big hit and deviation, and whether or not the symbol adjustment flag is set. Is determined (S851t). If the symbol adjustment flag is not set, a process of correcting the current display symbol to a big hit symbol is performed (S851u).
[0415]
Specifically, high speed scrolling (scrolling at a higher speed than the normal scrolling speed) is performed for correcting according to the symbol display order until the medium symbol becomes the symbol constituting the big hit symbol. Then, a process of setting a symbol adjustment flag is performed to indicate that the symbol adjustment by such high-speed scroll correction is being executed (S851v), and the process proceeds to S853 described above. On the other hand, if the symbol adjustment flag is set, the symbol correction process is being executed, and the symbol adjustment flag has already been set. Therefore, the process proceeds to S853 without performing these processes. In this case, the symbol correction display by high-speed scrolling is continued until it is determined in S851s that the display symbol is a big hit symbol.
[0416]
On the other hand, if it is determined in S851s that the current display symbol is a big hit symbol, it is determined whether or not the symbol adjustment flag is set (S851w). In this case, if the symbol adjustment flag is not set, it means that the current display symbol and the scheduled stop symbol will be in big hit and out of sync without any symbol adjustment (in this situation, both are big hit symbols). In this case, the current display symbol is stopped and displayed as it is (S851z), and the process proceeds to S853 described above. As a result, when the scheduled stop symbol is a big hit symbol and the display symbol at the time of command reception is a missing symbol, the currently displayed symbol is corrected to the big hit symbol and stopped. If the scheduled stop symbol is a big hit symbol and the display symbol at the time of command reception is also a big hit symbol, the currently displayed symbol is stopped and displayed as it is.
[0417]
By performing such a correction that the out-of-line symbol is a big hit symbol, if the scheduled stop symbol is a big hit symbol, but the display symbol at the time of command reception is a negative symbol, the display is being corrected to the big hit symbol. The symbol is stopped and displayed.
[0418]
According to the third embodiment as described above, the following can be said. In the third embodiment, when the confirmation timing of the display result specified by receiving the all symbols stop command is different from the scheduled decision timing recognized on the display control CPU 101 side, it is referred to as symbol correction as described above. Control for adjusting the variable display period by the display control CPU 101 by changing the schedule of the drive control of the rotating drums 90a to 90c (control for confirming and displaying the symbol at a timing different from the predetermined schedule timing, ie, control for adjusting the variable display period Therefore, by this adjustment, the display result does not have to be fixedly displayed based on the stop of the rotary drums 90a to 90c in response to the reception of all the symbol stop commands, and the display result specified by the stop symbol command is displayed. It becomes possible to display correctly. Furthermore, due to a discrepancy between the command on the basic circuit 53 side and the content of control by the display control CPU 101, for example, control other than variable display control such as lamps and sound effects performs control corresponding to the deviation of the display result. Nevertheless, it is possible to prevent as much as possible the misunderstanding regarding the game state of the player that occurs when the variable display device 8 is a big hit display result.
[0419]
Fourth embodiment
Next, a fourth embodiment will be described. In the fourth embodiment, an example will be described in which a planned stop symbol of a big hit symbol when a big hit occurs is determined based on data extracted not at the time of starting winning a prize but at the start of variation of a special symbol. In the fourth embodiment, portions different from the processing for determining the scheduled stop symbol of the jackpot symbol described in the first embodiment will be mainly described.
[0420]
In the case of this fourth embodiment, the counter value of the random symbol C_RND_L for determining the left symbol for determining the jackpot symbol is not extracted at the time of starting winning, but is extracted at the start of variation of the special symbol. Thus, since the counter value is extracted at the start of the variation of the special symbol, it is not necessary to store the counter value in response to the start winning, so the left symbol determination bank as described above is not used. Extraction of the counter value of C_RND_L for determining the big hit symbol scheduled stop symbol is performed by a special symbol determination process.
[0421]
Next, special symbol determination processing according to the fourth embodiment will be described. FIG. 59 is a flowchart for explaining special symbol determination processing according to the fourth embodiment. FIG. 59 replaces the special symbol determination process of FIG. 24 according to the first embodiment. With respect to FIG. 59, the description of the parts common to FIG. 24 will not be repeated, and the differences from FIG. 24 will be mainly described.
[0422]
The content of the special symbol determination process in FIG. 59 is different from that in FIG. 24 in that a step SA6a is provided between SA6 and SA11. In the case of the special symbol determination process according to the fourth embodiment, after the big hit flag is set by SA6, the counter value of the random symbol C_RND_L for determining the left symbol is extracted by SA6a. Get the extracted value. Thereafter, the process proceeds to SA11.
[0423]
Then, when the symbol variation setting process (see FIG. 25) is executed next, when the big hit flag is set in SC12 described above, the extracted value of C_RND_L extracted by SA6a, the special symbol table, Is determined, and the symbol data is determined in the output data storage area. In that case, the scheduled stop symbols of all symbols on the left, middle, and right are aligned with the symbols corresponding to the extracted value of C_RND_L.
[0424]
According to the fourth embodiment, not only the missing symbols but also the big hit symbols are selected and determined based on the data extraction at the fluctuation start stage. For this reason, since the display result of the big hit symbol is determined at the start of the variable display control in which the interruption is performed several times, the periodicity is also less likely to occur with respect to the big hit symbol as in the case of the missed symbol mentioned above. It is possible to make it difficult to make a bias in the display result of the big hit symbol.
[0425]
Next, modifications and feature points of the embodiment described above are listed below.
(1) In this embodiment, the example in which the basic circuit 53 repeatedly executes the game control program a number of times in one variation display control period is shown. In that case, the basic circuit 53 selects and determines the contents of the lamp control and / or sound control at the start of the variation of the special symbol by lottery from a plurality of types of control content in accordance with the variation display of the special symbol. May be adopted. In such a case, a lottery is performed in accordance with the variable display control. By doing so, it is unlikely that the control content of the lamp control and sound control is likely to have periodicity due to the interruption of the prime number of the game control program in one variation display control period, as in the case of the variation display design. Can be.
[0426]
(2) In this embodiment, for a part of a plurality of types of variation display patterns, the variation time is such that the basic circuit 53 repeatedly executes the game control program several times in one variation display control period. An example of setting was shown. However, the present invention is not limited to this, so that the basic circuit 53 repeatedly executes the game control program several times in one variation display control period for all of the plurality of types of variation display patterns so as to set the variation time. A variable time may be set.
[0427]
(3) In addition to (1) probability variation state, the special game state includes (2) a state where normal symbol variation time reduction control is performed, and (3) normal symbol per occurrence that improves the probability of occurrence of a normal symbol. (4) State in which probability improvement control is performed, (4) State in which special symbol variation time shortening control is performed, (5) Opening frequency increase control for increasing the number of opening times of a pair of opening blade pieces provided at the start port State (6) includes a state in which opening time extension control is performed to extend the opening time of the pair of open blades provided at the start port. Specifically, the special gaming state may be any one of the above-described (1) to (6) or a combination of the (1) to (6).
[0428]
(4) Although the display pattern data is stored in the control data ROM 102 on the display control board 80 side and the display pattern is selected by the display control CPU 101, the game control board is used instead. The display pattern data is stored on the 31 side and the selection of the display pattern is performed by the basic circuit 53 on the game control board 31 side, and a display control command for specifying the selection result is a game control board 31. May be configured to be output to the display control board 80.
[0429]
(5) In the above-described embodiment, a lottery for lottery notice is performed on condition that a reach state has occurred. However, the present invention is not limited to this, and the big hit announcement may be made by lottery regardless of the occurrence of the reach state, and may be performed even when the reach state does not occur. For example, in FIG. 32, when the reach occurs, it is divided into a case where the reach occurs and a case where the reach does not occur. In these cases, the relationship between the value of the random counter and the selection of the notice may be set differently. Specifically, in FIG. 32, when the reach does not occur, the probability of not giving a notice is higher than when the reach occurs, such as by increasing the probability of not giving a notice, whether there is a reach, whether there is a notice. Also, the selection probability of the notice may be made different. In other words, in the lottery for the big hit announcement, in addition to the lottery data distribution based on the big hit or miss, the lottery data may be distributed depending on whether or not reach has occurred.
[0430]
(6) In the above-described embodiment, an example in which a lottery for lottery notice is performed on the display control CPU 101 side is shown. The lottery performed by the control means other than the basic circuit 53 is not limited to the jackpot notice as described above, and either the sound, the lamp, or both control modes are determined by lottery from a plurality of types of control modes. You may make it do. For such lottery, sound control lottery is performed by the control means provided on the voice control board 70, and lamp control lottery is performed by the control means provided on the lamp control board 35. In addition, when a control board that controls sounds and lamps other than these is provided in an integrated manner, a lottery for sound control and a lottery for lamp control are performed by the control means provided on the control board. Also good.
[0431]
(7) In this embodiment, although the case where there is one effective line is shown, the present invention is not limited to this, and a plurality of effective lines may be provided. For example, a total of five display lines including three horizontal lines and two diagonal lines may be effective lines.
[0432]
(8) In this embodiment, when a drum lamp error display related to reception of a display control command is performed using a drum lamp, an example in which a drum lamp error display is performed by blinking some drum lamps is shown. It was. However, the display mode of the error using the drum lamp is not limited to this, and any display mode may be used as long as the display mode is different from the display mode of the drum lamp other than the error display. . For example, as an example, if there is no state where all the drum lamps are lit or flashing at times other than the display of the drum lamp error related to the reception of the display control command, the drum lamp error display is displayed by lighting all the drum lamps or flashing. You may do it. In other words, the drum lamp error display related to the reception of the display control command using the drum lamp may be performed in any display mode as long as the display mode is different from the display mode of the drum lamp other than the drum lamp error display. May be.
[0433]
(9) In this embodiment, when a drum lamp error display related to reception of a display control command is performed using a drum lamp, the operation state (flashing state) of the drum lamp is changed to an operation state other than the error display (for example, The case of changing from the light-off state) has been described. However, the present invention is not limited to this, and the following may be performed. For example, when the drum lamp is configured so that it can selectively emit light in multiple colors, and the drum lamp error display related to the reception of the display control command is performed, the light emission color of the error display is other than the drum lamp error display You may make it change from the color of.
[0434]
(10) In this embodiment, a rotating drum and a drum lamp are used, and an error notification operation related to reception of a display control command is performed using the operating state or display mode of the rotating drum and the display mode of the drum lamp. Although an example has been shown, the present invention is not limited to this, and such error notification uses a display device (for example, an LED display device) other than a special symbol variable display device such as a variable symbol display device 10 for normal symbol display. You may make it perform by a display. In this case, it is assumed that a display device driving circuit such as the lamp / LED circuit 60 performs display according to a command signal from the display control CPU 101 of the display control board 80 in addition to the basic circuit 31. The error notification in the apparatus is displayed in a manner distinguishable from the display based on a direct command from the basic circuit 53. Also, instead of using the combination of the rotating drum and the drum lamp described above to notify the error regarding the reception of the display control command, only the continuation of the rotating drum variation display until the next variation start as described above is displayed as an error. It may be used as In addition, the error display regarding the reception of the display control command includes the operation state of the rotating drum (abnormal continuation of the fluctuation display), the stop display mode of the rotating drum (display of power-on symbol, etc.), the display using the drum lamp, Further, display using a display device other than the above-described special symbol variable display device may be performed individually or in combination.
[0435]
(11) In the above-described embodiment, the case where the variable display device is of the rotating drum type is shown as an example. However, the present invention is not limited to this, and the variable display device may be other machines such as a device that rotates and moves a belt on which a plurality of types of symbols are drawn, and a device that rotates a disk on which a plurality of types of symbols are drawn (rotamint). It may be a variable display device of the type (mechanical type driven by an electric drive source). That is, the present invention has a variable display device capable of variably displaying identification information in response to driving of a movable member provided with a plurality of types of identification information by an electric drive source, and the identification information in the variable display device When the display result is a specific display mode determined in advance, the present invention can be applied to all gaming machines that can be controlled in an advantageous state for the player.
[0436]
(12) The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. 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.
[0437]
[Specific examples of means for solving the problems]
  (1) By the pachinko gaming machine 1 shown in FIG. 1 and the like, movable members (rotary drums 90a to 90c) to which a plurality of types of identification information (special symbols) are attached are electrically driven sources (drum motors 900a to 900c). A variable display device capable of variably displaying the identification information in response to being driven by a specific display mode in which the display result of the identification information in the variable display device is predetermined (a jackpot symbol on the effective line) In this case, a gaming machine that can be controlled in a state advantageous to the player (a big hit state) is configured. 2 is a means for controlling the gaming state of the gaming machine by the basic circuit 53, more specifically, the CPU 56, and a plurality of command information for variably displaying the identification information in the variable display device. Game control means capable of sequentially outputting (display control command data) is configured. The display control CPU 101 shown in FIG. 3 receives the command information output from the game control means, and controls the variable display on the variable display device according to the command information. On the basis of the drive control, variable display control means is configured that can perform control for starting the identification information variably (starting fluctuation) and then deriving and displaying the display result of the identification information (stop display). Yes. The variable display control means includes command information reception determination means and notification means. S722, S725, S726, S728, S729, S732, S732, S736, S738 shown in FIG. 37, S811a, S818, S817b, S822, S825, S821b, S828, S831, S827b shown in FIG. Command information for judging whether or not the plurality of command information sequentially output from the game control means has been correctly received by S841a, S841b, S846 shown in FIG. Reception determination means is configured. S726a, S734, S739, S741 shown in FIG. 37, S811b, S820, S817c, S824, S824, S821c, S830, S832, S827c shown in FIG. 41, S841c, S844a, FIG. 43 shown in FIG. The command information reception determining means determines that the command information has not been received correctly among the plurality of command information by S854 shown in FIG. 6 (including those corresponding to those in the case of the second to fourth embodiments, for example). When there is at least one command information, a notification means capable of performing a predetermined notification (for example, error-time drive control and drum lamp error display) capable of specifying that the state has occurred is configured.As shown in FIG. 45 and the like, when there is the command information that could not be received correctly, the notification means performs notification by display at the time of abnormality in the variable display device that is determined in advance corresponding to the command information. . The drum lamps 41 to 49 shown in FIG. 1 and the like constitute light emitting means included in the variable display device and illuminating the movable member with light. As shown in (b) of FIG. 44, the notification means controls the light emitting means to a predetermined operating state as the abnormal display.
[0438]
  (2) By the pachinko gaming machine 1 shown in FIG. 1 and the like, movable members (rotary drums 90a to 90c) to which a plurality of types of identification information (special symbols) are attached are electrically driven sources (drum motors 900a to 900c). A variable display device capable of variably displaying the identification information in response to being driven by a specific display mode in which the display result of the identification information in the variable display device is predetermined (a jackpot symbol on the effective line) In this case, a gaming machine that can be controlled in a state advantageous to the player (a big hit state) is configured. 2 is a means for controlling the gaming state of the gaming machine by the basic circuit 53, more specifically, the CPU 56, and a plurality of command information for variably displaying the identification information in the variable display device. Game control means capable of sequentially outputting (display control command data) is configured. The display control CPU 101 shown in FIG. 3 receives the command information output from the game control means, and controls the variable display on the variable display device according to the command information. On the basis of the drive control, variable display control means is configured that can perform control for starting the identification information variably (starting fluctuation) and then deriving and displaying the display result of the identification information (stop display). Yes. The variable display control means includes command information reception determination means and notification means. S722, S725, S726, S728, S729, S732, S732, S736, S738 shown in FIG. 37, S811a, S818, S817b, S822, S825, S821b, S828, S831, S827b shown in FIG. Command information for judging whether or not the plurality of command information sequentially output from the game control means has been correctly received by S841a, S841b, S846 shown in FIG. 43, S851, S851a, S853, etc. shown in FIG. Reception determination means is configured. S726a, S734, S739, S741 shown in FIG. 37, S811b, S820, S817c, S824, S824, S821c, S830, S832, S827c shown in FIG. 41, S841c, S844a, FIG. 43 shown in FIG. The command information reception determining means determines that the command information has not been received correctly among the plurality of command information by S854 shown in FIG. 6 (including those corresponding to those in the case of the second to fourth embodiments, for example). When there is at least one command information, a notification means capable of performing a predetermined notification (for example, error-time drive control and drum lamp error display) capable of specifying that the state has occurred is configured. As shown in FIG. 45 and the like, when there is the command information that could not be received correctly, the notification means performs notification by display at the time of abnormality in the variable display device that is determined in advance corresponding to the command information. . As shown in FIG. 56, the identification information displayed at the time of notification by the notification means is displayed shifted from the effective line (effective line L) determined so that the display result is effective in the variable display device. Is done.
  (3As shown in FIG. 18, the game control means, as the command information, at least variable display pattern information (variation start command) that can specify a variable display pattern of the identification information (see FIG. 13), and the identification Outputs display result information (left, middle, and right stop symbol commands) that can specify the information display result.
[0439]
  (418) As shown in FIG. 18 and the like, the game control means, as the command information, displays the display result of the identification information at a time related to finalizing the display result of the identification information (when all symbols are stopped). Further, fixed display information (all symbols stop command) that can specify the fixed display request is output.
[0440]
  (537, FIG. 41, FIG. 42, FIG. 43, and the like (including those corresponding to these in the case of the second to fourth embodiments, for example), the notification means receives the command information correctly. The predetermined notification is performed when the command information reception determination means determines that the command information cannot be received.
[0441]
  (644. As shown in FIG. 44, the notification means performs the predetermined notification (see FIG. 46 (b)) so as to be distinguishable from the notification (see FIG. 46 (c)) performed by the game control means.
[0442]
  (737) As shown in S742 in FIG. 37, S855B in FIG. 54, etc., the notification means continues the predetermined notification until the next variable start of the identification information (in the case of an error in the case of the first embodiment). In the case of drive control, there is no particular drum stop process, but when the next fluctuation display is started, the drum fluctuation display is performed in accordance with the next fluctuation display control. It can be said that notification will continue).
[0450]
[Effects of specific examples of means for solving the problems]
  With respect to claim 1, the following effects can be obtained. When there is at least one command information that could not be received correctly among a plurality of command information, a predetermined notification that can specify that the state has occurred is performed, so that the command information could not be received correctly It is possible to prevent the player from feeling distrust when an abnormality occurs. Furthermore, it is possible to prevent a player from misunderstanding about an abnormal display state caused by such a state.Further, when there is command information that could not be correctly received, a notification is given by display at the time of abnormality in a variable display device determined in advance corresponding to the command information. Can be prevented based on the display when there is an abnormality. Further, as the display at the time of abnormality, the light emitting means is controlled to a predetermined operation state, but the display at the time of abnormality is performed by a relatively simple process of operation control of the light emitting means prepared for another purpose. It is possible to reduce the control burden of the variable display control means when performing an abnormal display.
[0451]
  With respect to claim 2, the following effects can be obtained. When there is at least one command information that could not be received correctly among a plurality of command information, a predetermined notification that can specify that the state has occurred is performed, so that the command information could not be received correctly It is possible to prevent the player from feeling distrust when an abnormality occurs. Furthermore, it is possible to prevent a player from misunderstanding about an abnormal display state caused by such a state. Further, when there is command information that could not be correctly received, a notification is given by display at the time of abnormality in a variable display device determined in advance corresponding to the command information. Can be prevented based on the display when there is an abnormality. Furthermore, since the identification information to be displayed when the display result information is not correctly received is shifted from the effective line and displayed, it is possible for the person receiving the notification to easily understand the notification content.
  Claim3With regard toOr 2In addition to the effects described above, the following effects can be obtained. The variable display control means receives the variable display pattern information in addition to the display result information, and the display of the variable display device is controlled with a pattern according to the variable display pattern specified by the variable display pattern information. When variable display control is performed in accordance with relatively small command information in this way, there is a possibility that a serious failure may occur in variable display control when display result information cannot be received correctly. However, even when the display result information cannot be received correctly, it is possible to easily know that such a state has occurred by performing a predetermined notification that can specify that the state has occurred. .
[0452]
  Claim4With regard toAny of 3In addition to the effects described above, the following effects can be obtained. Since the confirmation display information that can specify the confirmation display request for the identification information display result is further output at the time related to finalizing the display result of the identification information, the confirmation display time of the identification information display result is variably displayed. By notifying the control means, the identification information can be confirmed and displayed more reliably. Further, when the variable display period from the variable start to the final display of the display result is inspected, the final display time of the display result of the identification information can be clarified based on the final display information.
[0453]
  Claim5With respect to claim 14In addition to the effects related to any of the above, the following effects can be obtained. A predetermined notification is made when it is determined that the command information has not been received correctly. Therefore, when an abnormality occurs in which the command information cannot be received correctly, it can be notified immediately.
[0454]
  Claim6With respect to claim 15In addition to the effects related to any of the above, the following effects can be obtained. Since the predetermined notification when an abnormality relating to failure to correctly receive the command information occurs is made distinguishable from the notification performed according to the command of the game control means, an abnormality has occurred in the reception of the command information. The predetermined notification in the case can be differentiated from the notification performed by the game control means. Thereby, the person who received the predetermined notification can immediately recognize the notification content.
[0455]
  Claim7With respect to claim 16In addition to the effects related to any of the above, the following effects can be obtained. Since a predetermined notification when an abnormality relating to failure to correctly receive command information occurs is continued until the next variable start, it is possible for a person receiving the notification to perform notification for a period sufficient to recognize the notification content. it can. Furthermore, it is possible to perform an enhanced notification due to the length of the notification period.
[Brief description of the drawings]
FIG. 1 is an overall front view showing a pachinko gaming machine as an example of a gaming machine adjacent to a card unit.
FIG. 2 is a block diagram showing an example of a circuit configuration in a game control board.
FIG. 3 is a block diagram showing a circuit configuration of a display control board and its control target device.
FIG. 4 is a diagram showing various random counters used by the basic circuit on the game control board side for game control.
FIG. 5 is a flowchart for explaining a processing procedure for determining whether or not to win a result of variable display of a special symbol based on the start memory when there is a start memory;
FIG. 6 is a diagram showing the relationship between the type of jackpot symbol, the probability variation symbol, and the duration in tabular form.
FIG. 7 is a timing chart showing the control timing of the special game state.
FIG. 8 is a timing chart showing the relationship between the special symbol variation display time and the number of interrupt processing executed by the basic circuit in a pachinko gaming machine.
FIG. 9 is a diagram showing display control command data transmitted from the game control board to the display control board by one-way communication;
FIG. 10 is a timing chart showing an example of transmission timing of a display control command given from the game control board to the display control board.
FIG. 11 is a diagram showing, in a tabular form, the setting contents of control related to the reach state.
FIG. 12 is a diagram showing, in a tabular form, individual appearance rates for reach 1 to reach 5;
FIG. 13 is a diagram showing a variation start command table in a table format.
FIG. 14 is a diagram showing a left stop symbol command as a display control command instructing a stop symbol related to the left symbol in a table format.
FIG. 15 is a diagram showing a medium stop symbol command as a display control command for designating a stop symbol related to a medium symbol in a table format.
FIG. 16 is a diagram showing a right stop symbol command as a display control command for designating a stop symbol related to the right symbol in a table format.
FIG. 17 is a diagram showing an all symbols stop command as a display control command for designating the end of variable display.
FIG. 18 is a timing chart showing a display control command sending timing related to a symbol change sent from the game control board to the display control board between the start of change and the end of change.
FIG. 19 is a timing chart showing an example of a variation display pattern.
FIG. 20 is a timing chart showing a display control operation of a big hit announcement display performed using a character in the symbol display area of the variable display device.
FIG. 21 is a data area diagram showing a configuration of a ROM of a basic circuit.
FIG. 22 is a flowchart showing game control main processing and interrupt processing executed by the basic circuit.
FIG. 23 is a flowchart for explaining a special symbol process.
FIG. 24 is a flowchart for explaining special symbol determination processing;
FIG. 25 is a flowchart for explaining symbol variation setting processing;
FIG. 26 is a flowchart for explaining symbol confirmation setting processing;
FIG. 27 is a flowchart for explaining probability variation flag processing;
FIG. 28 is a flowchart for explaining a big hit start process;
FIG. 29 is a flowchart for explaining probability variation lottery processing.
FIG. 30 is a flowchart for explaining display control data processing;
FIG. 31 is a flowchart for explaining display control data output processing;
FIG. 32 is a diagram for explaining, in a tabular form, a relationship between a count value extracted from a jackpot warning random counter and a jackpot warning display pattern determined by the count value.
FIG. 33 is a flowchart for explaining a display control main process executed by the display control CPU of the display control board;
FIG. 34 is a flowchart showing the contents of a timer interrupt process executed in accordance with a timer interrupt.
FIG. 35 is a flowchart showing an IRQ2 interrupt process of the display control CPU.
36 is a flowchart showing display control process processing in the timer interrupt processing shown in FIG. 34. FIG.
FIG. 37 is a flowchart showing a change start command reception waiting process of the display control process shown in FIG. 36;
38 is a flowchart showing a notice setting process of the display control process shown in FIG. 36. FIG.
FIG. 39 is a flowchart showing all symbol variation start processing;
FIG. 40 is an explanatory diagram of a configuration example of a process table.
FIG. 41 is a flowchart showing a process during symbol variation.
FIG. 42 is a flowchart showing all symbol stop processing.
FIG. 43 is a flowchart showing a stop symbol display process.
FIG. 44 is an explanatory diagram showing a display example of special symbols.
FIG. 45 is an explanatory diagram for describing an operation example of display control when a display control command cannot be received;
FIG. 46 is a flowchart showing a variation start command reception wait process according to the second embodiment.
FIG. 47 is a flowchart showing a process during symbol variation according to the second embodiment.
FIG. 48 is a flowchart showing all symbol stop processing according to the second embodiment;
FIG. 49 is a flowchart showing stop symbol display processing according to the second embodiment.
FIG. 50 is a diagram showing a display example of symbols at power-on.
51 is a timing chart showing a control operation of delay control by the stop symbol display process of FIG. 49. FIG.
FIG. 52 is a flowchart showing a modification of the stop symbol display process.
53 is an explanatory diagram showing an error notification design based on the processing of FIG. 52;
FIG. 54 is a flowchart showing another modification of the stop symbol display process.
FIG. 55 is a flowchart showing another modification of the stop symbol display process.
56 is an explanatory diagram showing an error notification design based on the processing of FIG. 55. FIG.
FIG. 57 is a flowchart showing a control operation when correction control is performed according to the third embodiment.
FIG. 58 is a flowchart for explaining stop symbol display processing according to the third embodiment;
FIG. 59 is a flowchart illustrating special symbol determination processing according to the fourth embodiment.
[Explanation of symbols]
1 Pachinko machine, 90a-90c rotating drum, 900a-900c drum motor, 8 variable display device, 9 symbol display area 9, 31 game control board, 53 basic circuit, 56 CPU, 41-49 drum lamp, L effective line.

Claims (7)

A variable display device capable of variably displaying the identification information in response to driving of a movable member to which a plurality of types of identification information is attached by an electric drive source, and a display result of the identification information in the variable display device; A gaming machine that can be controlled in a state advantageous to a player when a predetermined display mode is established,
And means for controlling the Yu technique state of the gaming machine, a game control means capable of sequentially outputting a plurality of command information in order to variably display the identification information in the variable display device,
Means for receiving command information output from the game control means and controlling variable display on the variable display device according to the command information, wherein the identification information is variable based on drive control of the movable member; Variable display control means capable of performing control for deriving and displaying the display result of the identification information after starting,
The variable display control means includes:
Command information reception determining means for determining whether or not the plurality of command information sequentially output from the game control means has been correctly received;
When there is at least one command information determined by the command information reception determination means that the command information is not correctly received among the plurality of command information, a predetermined notification that can specify that the state has occurred is performed. and the possible notification means only including,
The notification means, when there is the command information that could not be received correctly, performs a notification by an abnormal display in the variable display device predetermined corresponding to the command information,
The variable display device further includes light emitting means for illuminating the movable member with light,
The game machine according to claim 1, wherein the notification means controls the light emitting means to a predetermined operation state as the display at the time of abnormality . A variable display device capable of variably displaying the identification information in response to driving of a movable member to which a plurality of types of identification information is attached by an electric drive source, and a display result of the identification information in the variable display device; A gaming machine that can be controlled in a state advantageous to a player when a predetermined display mode is established,
A means for controlling the gaming state of the gaming machine, a game control means capable of sequentially outputting a plurality of command information for variably displaying the identification information in the variable display device;
Means for receiving command information output from the game control means and controlling variable display on the variable display device according to the command information, wherein the identification information is variable based on drive control of the movable member; Variable display control means capable of performing control for deriving and displaying the display result of the identification information after starting,
The variable display control means includes:
Command information reception determining means for determining whether or not the plurality of command information sequentially output from the game control means has been correctly received;
When there is at least one command information determined by the command information reception determination means that the command information is not correctly received among the plurality of command information, a predetermined notification that can specify that the state has occurred is performed. Possible notification means,
The notification means, when there is the command information that could not be received correctly, performs a notification by an abnormal display in the variable display device predetermined corresponding to the command information,
The gaming machine is characterized in that the identification information displayed at the time of notification by the notification means is displayed on the variable display device while being shifted from the effective line determined so that the display result is effective. The game control means outputs, as the command information, at least variable display pattern information capable of specifying a variable display pattern of the identification information and display result information capable of specifying a display result of the identification information. The gaming machine according to claim 1 or 2 . The game control means further outputs, as the command information, fixed display information capable of specifying a fixed display request for the display result of the identification information at a time related to fixing the display result of the identification information. The gaming machine according to any one of claims 1 to 3, wherein the gaming machine is characterized. The notification unit is characterized in that at the time when the instruction information reception determination unit that the command information can not be correctly received is determined performs the predetermined notification, according to any one of claims 1 to 4 Gaming machine. The gaming machine according to any one of claims 1 to 5 , wherein the notification means performs the predetermined notification so that the notification is distinguishable from notification performed in response to a command from the game control means. The notification means is characterized by continuing the predetermined notification until the next variable start of the identification information, gaming machine according to any one of claims 1 to 6.

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