JP3899295B2 - 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, or a slot machine.Update display of multiple types of identification information according to a predetermined update orderA specific display having a variable display device capable of displaying a predetermined display result of the variable display deviceResults andbecameWhenThe present invention relates to a gaming machine that can be given a predetermined gaming value.
[0002]
[Prior art]
In this type of gaming machine, for example, a variable display device capable of variably displaying a plurality of types of identification information made up of symbols, etc., is provided to what is conventionally known, and the variable display device is variably started. After that, the display result is derived and displayed by, for example, stop control, and when the display result is in a predetermined display mode (for example, 777), a predetermined game value can be given. There was something that was done.
[0003]
[Problems to be solved by the invention]
However, in this type of conventional gaming machine, since a predetermined specific display mode by the variable display device is displayed without any warning, before the display result of the variable display of the variable display device is derived and displayed Therefore, the player's expectation cannot be increased so much, and despite the fact that the variable display device is provided, the fun of the variable display device cannot be sufficiently produced.
[0004]
The present invention has been conceived in view of such circumstances, and provides a gaming machine that can sufficiently produce the fun of variable display by a variable display device and can further improve the player's expectation. It is.
[0005]
[Means for Solving the Problems]
  The present invention described in claim 1Update display of multiple types of identification information according to a predetermined update orderA specific display having a variable display device capable of displaying a predetermined display result of the variable display deviceresultBecameWhenA gaming machine that can be given a predetermined gaming value,
  Variable display control means for performing control for deriving and displaying a display result after the variable display device starts updating display;
  When a variable start condition for variably starting the variable display device is satisfied, the number of times the variable start condition is satisfied is stored within a range of a predetermined upper limit value, and the variable display is performed according to the satisfaction of the variable start condition. Variable start condition storage means for subtracting and updating the stored number every time control is executed;
  By determining whether or not the extracted value extracted from the random counter matches the predetermined determination value when the variable start condition is satisfied, the display result content of the variable display device is changed to the specific display result. Display result content pre-determining means for predetermining for each storage of the variable start condition storage means from the stage of establishment of the variable start condition stored in the variable start condition storage means,
  When the display result content predetermining means determines that the display result content of the variable display device is to be the specific display result, the specific display is determined by determining an extracted value extracted from a random counter. Notice notification determining means for determining whether or not to notify the player that the result is displayed;
  Means for determining the notice notification mode according to the number of stored specific display results when the variable start condition storage means is determined to be the specific display result, A notice notification mode determining means for determining a display result to be derived and displayed after the reach state is established by the variable display device, as the notice notification mode;
  The notice notification mode determining means is configured to compare the identification information displayed after the reach state is established with the identification information constituting the reach state on condition that the number of stored specific display results is determined. Among a plurality of types of display results with different numbers of identification information in relation to a predetermined update order, a plurality of types of display results as advance notices to be displayed on the variable display device are determined in advance,
  The variable display control means includesWhen the advance notice determining means decides to make the advance notice, a plurality of times before the execution of variable display control in which the display result content becomes the specific display result according to the determined content of the advance notice mode determining means. In each of the variable display controls, when the reach state is forcibly generated by the variable display device and the reach state is established in two or more variable display controls of the plurality of variable display controls, each variable display control is performed. The relationship between the display results in a specific relationship that results in a type of display result in which the number of deviations of the identification information decreases step by step for each of the multiple variable display controls,
  The notice notification mode determining means determines that the specific display result is determined according to the specific display result determination time storage number on the condition that the specific display result determination time storage number is plural. In the multiple-time variable display control, the number of deviations of the identification information in the display result derived and displayed in each of the multiple-time variable display control at the stage of establishment of the variable start condition is in the specific relationship. A plurality of types of display results as modes of the notice to be performed are determined in advanceIt is characterized by that.
[0007]
[Action]
  According to the first aspect of the present invention, after the variable display device starts variable display, the display result is derived and displayed by the function of the variable display control means.When a variable start condition for variably starting the variable display device is satisfied by the function of the variable start condition storage means, the number of times the variable start condition is satisfied is stored within a predetermined upper limit range, and the variable start condition Each time variable display control is executed in accordance with the establishment of, the stored number is subtracted and updated. The display of the variable display device is performed by determining whether or not the extracted value extracted from the random counter matches the predetermined determination value when the variable start condition is satisfied by the function of the display result content prior determination means. Whether the content of the result is a specific display result is determined in advance for each storage of the variable start condition storage means from the stage of establishment of the variable start condition stored in the variable start condition storage means. The extracted value extracted from the random counter is determined when the display result content prior determination means determines that the display result content of the variable display device is to be a specific display result by the function of the advance notice determination means. Thus, it is determined whether or not to notify the player that a specific display result is displayed. By the function of the notice notification mode determination means for determining the notice notification mode according to the specific display result determination time storage number that is the number of storage of the variable start condition storage means at the time when it is determined to be a specific display result, A display result to be derived and displayed after the reach state is established by the variable display device is determined as a notice notification mode.
  Then, the notice notification mode determining means is a predetermined when comparing the identification information displayed after the reach state is established with the identification information constituting the reach state on condition that the number of stored specific display results is determined. From among a plurality of types of display results having different numbers of discriminating identification information in relation to the update order, a plurality of types of display results as a notice of notice to be displayed on the variable display device are determined in advance. The variable display control means, when the notice notification determining means decides to notify the notice, according to the decision contents of the notice notification mode determining means, the display result contents before the execution of the variable display control that becomes the specific display result. When the reach state is forcibly generated by the variable display device in each of the plurality of variable display controls and the reach state is established in two or more of the plurality of variable display controls, The relationship between the display results in the display control is set to a specific relationship that results in a display result of a type in which the number of deviations of the identification information decreases step by step for each of a plurality of variable display controls. The notice notification mode determining means establishes the variable start condition that is determined to be a specific display result according to the specific display result determination time storage number, on condition that there are a plurality of specific display result determination time storage numbers. In the stage, the notice notification mode performed in the multiple variable display control so that the number of deviations of the identification information in the display result derived and displayed in each of the multiple variable display controls is in the specific relationship. A plurality of display result types are determined in advance.
[0009]
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 a coin gaming machine, a slot machine, or the like, and the display state can be changed. A predetermined game value is given when a plurality of display results displayed by the variable display unit include any one of a predetermined display mode including a variable display device having a variable display unit. Any game machine that can be used can be applied.
[0010]
FIG. 1 is a front view showing a configuration of a gaming board surface of a pachinko gaming machine as an example of the gaming machine according to the present invention. A game area 3 is formed on the front surface of the game board 1 of the pachinko gaming machine. The pachinko gaming machine is provided with a hitting ball operation handle (not shown) for the player to hit the ball, and the player can fire the pachinko balls one by one by operating the hit ball operation handle. it can. The fired pachinko balls are guided into the game area 3 through the partition rails 2.
[0011]
In the center of the game area 3, there is provided a variable display device 4 that can variably display a plurality of types of identification information and change the display state. A variable winning ball apparatus 10 is provided below the variable display device 4. The variable winning ball apparatus 10 includes a first state that is advantageous for a player who can open the opening and closing plate 12 and can hit a ball when the solenoid 27 is excited, and the solenoid 27 is in a non-excited state. As a result, the opening / closing plate 12 is closed, and the ball can be changed to a second state that is disadvantageous for a player who cannot win a ball. When a ball hit into the game area 3 enters the passing port 17, the passing ball is detected by the passing ball detector 20, and the normal symbol display 14 is variably started based on the detection output.
[0012]
The normal symbol display 14 is composed of, for example, 7 segments. If the display result of the normal symbol display 14 becomes predetermined specific identification information (for example, 7), the solenoid 28 is energized, and the pair of left and right movable pieces 24 are opened for a predetermined period, thereby starting the opening 9. Becomes an open state, and the hit ball is more likely to win a prize (small hit). The start winning ball won in the start port 9 is detected by the start ball detector 21, and the variable display device 4 is variably started based on the detection output.
[0013]
The variable display device 4 is composed of, for example, a liquid crystal display device or the like, and is provided with a variable display unit 5. As shown in FIG. 1, the variable display unit 5 is divided into a left variable display unit, a middle variable display unit, and a right variable display unit, and a plurality of variable display units 5 are started by variably starting all the variable display units at the same time. Identification information consisting of various types of symbols, etc. is scrolled from top to bottom. First, the left variable display is controlled to stop, then the right variable display is controlled to stop, and finally the middle variable display is controlled to stop. The
[0014]
When the variable display device 4 is variably stopped, the identification information is a combination of predetermined specific identification information (for example, 777), and the display result is a predetermined specific display mode. When the specific game state is generated, the variable winning ball apparatus 10 is controlled to the first state, and the jackpot state in which a predetermined game value can be given. As described above, the pachinko gaming machine is provided with the normal symbol display 14 as the first symbol display device and the variable display device 4 as the second symbol display device for variably displaying the symbols. ing. Therefore, in this pachinko gaming machine, the first symbol by the normal symbol display 14 and the second symbol by the variable display device 4 are displayed.
[0015]
During such variable display of the variable display device 4, 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 the gaming machine to which a predetermined game value is given in the case of the combination of display modes, the display result that has already been derived and displayed at the stage where a part of the plurality of display results has not yet been derived and displayed. This refers to a display mode that satisfies the conditions for the combination of the specific display modes.
[0016]
The variable winning ball apparatus 10 is provided with a specific winning area, and the specific ball detector 22 detects a winning ball that has won the specific winning area. Also, all winning balls that have won in the variable winning ball apparatus 10 are detected by the winning ball detector 23. When a predetermined number (for example, 10) of hitting balls entering the variable winning ball apparatus 10 in the first state is detected by the winning ball detector 23 or when a predetermined period (for example, 30 seconds) has elapsed. When the earlier condition is satisfied, the first state of the variable winning ball apparatus 10 ends and becomes the second state. The number detected by the winning ball detector 23 is displayed on the number display 13. And if the hit ball which entered during the period when the variable winning ball apparatus 10 is in the first state wins the specific winning area and is detected by the specific ball detector 22, the first state of the time is Waiting for the completion, the repeated continuation control is executed to once enter the second state and place the variable winning ball apparatus 10 in the first state again. The upper limit number of executions of this repeated continuation control is set to 16 times, for example.
[0017]
When the variable display device 4 is variably displayed, if a hit ball is again won at the start port 9 and is detected by the start ball detector 21, the start winning ball is stored, and after the variable display device 4 is variably stopped, it is again. After the variable start is enabled, the variable display device 4 is variably started again based on the start winning memory. The upper limit of the start winning memory is set to “4”, for example. The starting winning memory number at the present time is displayed by the starting memory display 6. A warp inlet 7 is provided in the upper part of the variable display device 4, and the hit ball that has entered the warp inlet 7 flows down through the back side of the variable display device 4 and is played again from the warp outlet 8. Released into region 3. Since the warp outlet 8 is located just above the starting port 9, the hit ball discharged from the warp outlet 8 is relatively easy to win the starting port 9.
[0018]
In the game area 3, if the wind turbine 19, the normal winning holes 11, 15, and the hit balls that are driven into the game area 3 do not win any of the winning areas or the variable winning ball device, the out balls As shown in FIG. Further, the game board 1 is provided with a rail decoration 26, and the rail decoration 26 is provided with a rail decoration lamp 25 that is lit or blinked in accordance with the game state. Further, the game board 1 is provided with side lamps 18 for displaying decorative symbols.
[0019]
In the pachinko gaming machine according to the present embodiment, as a control circuit for controlling the gaming state of the pachinko gaming machine, a ROM as a program storage means for storing a control program, a program stored in the ROM A CPU as a control center means for controlling the operation according to the CPU, a RAM as a game data storage means for storing game data of a game machine controlled by the CPU, an I / O port for consistency of signals with the outside, etc. A game control board is provided.
[0020]
FIG. 2 is a block diagram showing a configuration of a circuit formed on the image control board 29 used in the variable display device 4. The image control board 29 includes a basic circuit 32, a character ROM 33, a VDP (Video Display Processor) 34, a VRAM 35, a work RAM 36, a control ROM 37, an oscillation circuit 38, and a reset circuit 39.
[0021]
The basic circuit 32 is connected to the above-described game control board (not shown) via the connector 30. The basic circuit 32 receives command data DAT1 to DAT7 for displaying images and a strobe signal STRV for command data from the game control board via the connector 30. Further, the basic circuit 32 is supplied with two types of power supply voltages of +12 V and +5 V via the connector 30. The basic circuit 32 incorporates a CPU and controls the entire circuit formed on the image control board.
[0022]
The basic circuit 32 controls the entire circuit formed on the image control board 29 in response to the received command data DAT1 to DAT7. The basic circuit 32 sends an address signal, a data signal, and a control signal to the VDP 34 and the control ROM 37, and transmits / receives a data signal between the VDP 34 and the control ROM 37. The basic circuit 32 controls the entire circuit formed on the image control board 29 using the work RAM 36 as a work area based on the received data. The control ROM 37 stores a control program for controlling the operation of the basic circuit 32 in advance. In response to the address signal and control signal transmitted from the basic circuit 32, the control ROM 37 stores the corresponding control program as a data signal. To the basic circuit 32.
[0023]
The VDP 34 operates in response to the clock signal supplied from the oscillation circuit 38, and the operation is reset in response to the reset signal supplied from the reset circuit 39. The VDP 34 generates image data in response to a control signal from the basic circuit 32. The VDP 34 transmits signals such as a VRAM address signal, a VRAM data signal, and a VRAM control signal to the VRAM 35. A signal such as a VRAM data signal is returned from the VRAM 35 to the VDP 34. The VDP 34 transmits a character ROM address signal, a character ROM data signal, and a character ROM control signal to the character ROM 33. A signal such as a character ROM data signal is returned from the character ROM 33 to the VDP 34.
[0024]
In response to the control signal output from the basic circuit 32, the VDP 34 generates image data for constituting an image displayed on the variable display unit 5. The VRAM 35 temporarily stores the image data generated by the VDP 34. The image data generated by the VDP 34 and stored in the VRAM 35 is a character identification number with a set of a predetermined number of dots as a unit.
[0025]
The image data includes the identification numbers of a plurality of characters according to the displayed arrangement relationship. This is called map data. The identification number of each character is stored in the control ROM 37 in advance. Character identification numbers necessary for configuring the screen displayed on the variable display unit 5 are read from the control ROM 37 and stored in the VRAM 35 as map data for indicating the positional relationship of the characters on the display screen by the VDP 34. .
[0026]
The character ROM 33 stores dot data corresponding to the character identification number in advance. The VDP 34 reads the map data from the VRAM 35 at a predetermined timing, and reads the dot data of each character based on the identification number of each character included in the map data. The VDP 34 generates an RGB signal (RED, GREN, BLUE) signal based on the read dot data.
[0027]
The VDP 34 transmits the generated RGB signal to the LCD module (not shown) via the connector 31. Further, the VDP 34 supplies the decoding synchronization signal SYNC and the power supply voltage of +12 V to the LCD module via the connector 31. The LCD module displays an image on the variable display unit 5 based on the transmitted RGB signal and decoded synchronization signal SYNC. The variable display unit 5 of the variable display device 4 shown in FIG. 1 is an image display surface included in the LCD module.
[0028]
FIG. 3 is an explanatory diagram for explaining various random counters used for variable display control of the variable display device 4. C RND1 is used to pre-determine whether or not to generate a big hit, and is configured to count up from 0, count up to its upper limit 219, and count up from 0 again. This incrementing update is performed by adding CRND1 by 1 for each interrupt process. The CPU provided on the aforementioned game control board receives a reset signal from a periodic reset circuit periodically (for example, every 2 msec), and after executing the program from the beginning to the end, is in a waiting state for resetting. The game state of the gaming machine can be controlled by repeatedly executing the program again from the beginning when the reset signal is input, and repeatedly executing the program from the beginning to the end every time the reset signal is input. It is configured. For example, every time a reset pulse is input every 2 msec, C RND1 is incremented and updated by “1”.
[0029]
C RND ZU1 is used to determine the type of scheduled stop symbol that is scheduled to be displayed when the left variable display unit of the variable display device 4 is stopped when it is preliminarily determined to be off. After counting up to the upper limit of 14, the count is recounted from 0 again. The count-up is updated by adding C RND ZU1 by “2” by an infinite loop using the interrupt processing surplus time. The CPU adds “2” to the value of C RND ZU1 by an infinite loop using the remaining interrupt processing time until the reset signal is input when the CPU is executed from the beginning to the end of the program. In the case where the upper limit “14” is exceeded as a result of the addition, a process of adding and updating two from “0” is performed again.
[0030]
Next, C RND ZU2 is used for predetermining a scheduled stop symbol to be stopped and displayed on the middle variable display portion of the variable display device 4 when it is determined to be out, and is counted up from zero. After counting up to 14 which is the upper limit, it is counted up again from 0. This count-up update is performed by adding C RND ZU2 by “1” by one when the C RND ZU1 is carried. That is, when the value of C RND ZU1 changes from “14” to “0”, this C RND ZU2 is added and updated by “1”.
[0031]
Next, C RND ZU3 is for predetermining a scheduled stop symbol that is scheduled to be stopped and displayed on the right variable display portion of the variable display device 4 when it is determined to be off. After counting up to the upper limit of 14, it is counted up again from 0. This count-up update is performed by adding C RND ZU3 by “1” when the C RND ZU2 is carried. That is, when the value of C RND ZU2 changes from “14” to “0”, C RND ZU3 is added and updated by “1”.
[0032]
Next, C RND RCH is used to determine the type of reach, and is counted up from 0 and counted up to 10 which is the upper limit thereof, and then counted up again from 0. The count-up is updated by adding C RND RCH by “1” when C RND ZU3 is carried. That is, when the value of C RND ZU3 changes from “14” to “0”, C RND RCH is added and updated by “1”.
[0033]
Next, C RND2 is used for determining the big hit notice, counts up from 0, counts up to 1 which is the upper limit thereof, and then counts up again from 0. In this increment update, C RND RCH is carried, that is, when the value of C RND RCH changes from “10” to “0”, C RND2 is incremented by “1”. When the extracted value of C RND2 is “0”, it is determined in advance that no jackpot notice will be given, and when the extracted value is “1”, it is decided in advance that a jackpot notice will be given.
[0034]
FIG. 4 is a flowchart showing a first example of variable display control of the variable display device 4. In this first example, a description will be given of an example in which a jackpot notice is performed by continuously displaying a reach state, and a variable display control operation is performed in which the stop symbols in each reach state gradually approach the jackpot state.
[0035]
If the hit ball is won at the start port 9 and detected by the start ball detector 21, the value of CRND1 at that time is extracted, and when the extracted value is other than “3”, the deviation is determined in advance. In that case, the planned stop symbol of the left variable display unit is determined by the extracted value of C RND ZU1, the planned stop symbol of the middle variable display unit is determined by the extracted value of C RND ZU2, and the extracted value of C RND ZU3 The scheduled stop symbol of the right variable display part is determined.
[0036]
In addition, when the scheduled stop symbol is determined based on the extracted values of these three random counters, if the determined content coincides, for example, and the symbol combination for generating a big hit coincides, the C RND ZU2 “1” is added to the extracted value, and control is performed so as to forcibly result in a pattern that is out of place.
[0037]
On the other hand, when the extracted value of C RND1 is “3”, it is determined in advance that a big hit will be generated. If it is determined in advance that the jackpot will be generated, the design of the jackpot will be determined, the reach symbol for the jackpot notice, and the middle stop symbol for the jackpot notice will be determined as follows. The
[0038]
The symbol that is a big hit is determined by the extracted value of C RND ZU1. Furthermore, the determination of the reach symbol for the jackpot notice is made as follows when the extracted value of CRND2 becomes “1”.
[0039]
In other words, when there are two start winning memories before it is determined in advance that a big hit will be generated, in order to force reach display in the variable display corresponding to each start winning memory, C in each variable display The value of RND ZU3 is matched to the extracted value of C RNDZU1. For example, assuming that the start winning memorized value is “3”, in the first variable display, the operation of matching the value of C RND ZU3 with the value of C RND ZU1 extracted along with the first variable display is performed. At the same time, in the second variable display, the operation of matching the value of C RND ZU3 with the value of C RND ZU1 extracted along with the second variable display is performed. As a result, the left stop symbol (stop symbol of the left variable display unit) and the right stop symbol (stop symbol of the right variable display unit) are continuously performed twice before the combination of identification information that is actually a big hit is displayed. And become the same type of symbols, forcing reach display.
[0040]
The player visually recognizes such a continuous reach display and feels that a big hit will occur. In some rare cases, the reach display is performed continuously by chance, but in that case, no big hit actually occurs.
[0041]
When the big hit is determined in advance and the big hit announcement is made, the first big hit announcement table in FIG. 8 described later is further enforced as described above according to the number of start winning memories when the big hit is decided in advance. The middle stop symbol for each reach display generated automatically is determined. These middle stop symbols are determined in advance by the first jackpot notice table so that the left, middle, and right stop symbols become symbols that gradually approach the jackpot state.
[0042]
Further, when the gaming state is a probability improvement state (high probability state) described later, it is determined in advance that the jackpot is generated when the extracted value of CRND is 3, 5, 7, 11, 13; Sometimes the gap is predetermined.
[0043]
Here, the probability improvement state will be described. The probability improvement state is a state in which the probability of occurrence of a big hit is improved. In this probability improvement state, the following control is performed. When the display result of the variable display device 4 at the time of occurrence of the big hit state is a combination of specific identification information, it is controlled to a high probability state in which the probability of subsequent big hits is improved. And in this high probability, the probability of displaying a combination of specific identification information (specific display mode) predetermined to be a big hit displayed by the variable display device 4 is improved. When the combination of specific identification information is displayed by the variable display device 4, the big hit control is started again. Further, in this probability improvement state, the normal symbol display 14 is controlled so that the probability of occurrence of a small hit is increased. Further, in that case, control for shortening the fluctuation time of the symbol (first symbol) on the normal symbol display 14 is also performed. By performing such control, the frequency with which the movable piece 24 opens is increased, and as a result, the hitting ball becomes easy to start and at the same time it is difficult to reduce the number of balls.
[0044]
FIG. 5 is a flowchart showing a second example of variable display control of the variable display device 4. In this second example, the big hit notification is performed by continuously displaying the reach state, and the relationship between the reach indications is set to a predetermined specific correlation that makes it possible to predict the occurrence of the big hit state. An example of performing the variable display control operation will be described.
[0045]
The variable display control in FIG. 5 is different from that in FIG. 4 in the determination contents when it is determined in advance that a big hit will be generated when the extracted value of CRND1 is “3”. That is, in the second example of the variable display control, when it is determined in advance that the jackpot will be generated, as in the first example shown in FIG. The determination of the reach for the big hit is made, but the middle stop design for the big hit is not determined as in the first example, but the type of the reach for the big hit is determined.
[0046]
In the determination of the reach type, the type of reach for each reach display that is forcibly generated is determined in advance using a second jackpot notice table shown in FIG. The type of reach determined in advance is set to a predetermined specific correlation in the second jackpot notice table so that the player can predict the occurrence of the jackpot.
[0047]
The player can predict that a big hit will occur by visually recognizing the continuous reach display and visually confirming that the reach display has a predetermined correlation.
[0048]
FIG. 6 is an explanatory diagram showing the arrangement of symbols variably displayed on the variable display device 4. A plurality of types of symbols (second symbols) shown in FIG. 6 are defined as 15 types of 1 to F in the left, middle, and right variable display sections. The symbol arrangement is the same for the left, middle, and right symbols. Symbol positions corresponding to those symbols are allocated from 00 to 14. Then, the symbol where the extracted values of C RND ZU1, 2, 3 match the symbol position number is selected and determined as the scheduled stop symbol.
[0049]
Next, a specific procedure for controlling the variable display of symbols in the variable display device 4 will be described.
[0050]
FIG. 7 is an explanatory diagram for explaining the types of symbol variation states in the variable display device 4. There are six types of variation states (variation patterns) A to F in the variation state of the symbols.
[0051]
In the variable display device 4, the symbols are basically changed by scroll-displaying the symbols. In the fluctuation state A, the fluctuation speed of the symbol is gradually accelerated and then is made constant. In the fluctuation state B, the fluctuation speed of the symbol is gradually reduced, and then the symbol is stopped. In the fluctuation state C, the symbol is changed at a constant high speed and then suddenly stopped. In the fluctuation state D, the symbol is changed at a constant low speed, then temporarily stopped, further changed again, and then stopped again. In the fluctuation state E, the symbols are displayed in a certain place without scrolling, and the symbols are switched on the spot. In the fluctuation state F, a slow change is made from the two symbols before the big hit object until the symbol that is the big hit object passes, and a fast fluctuation is made in other cases.
[0052]
The selection of such a variation state is performed according to the extracted value of C RND RCH. That is, the relationship between the extracted value and the fluctuation state is determined in advance, and the fluctuation pattern in the reach display is determined according to the extracted value. However, in the second example of variable display control, when the big hit is determined in advance, the variation pattern is determined based on the second big hit notice table.
[0053]
Next, the contents of the jackpot notice table used in each of the first and second examples of variable display control described in FIGS. 4 and 5 will be described in detail.
[0054]
FIG. 8 is an explanatory diagram showing the contents of the first jackpot notice table. In the first jackpot notice table shown in FIG. 8, the “big hit notice processing content” in the case of making a jackpot notice is the number of start winning memories stored when it is determined in advance that a big hit will be generated. It is determined in advance according to the “starting memory number at the time of big hit determination”.
[0055]
The details of the jackpot notice process will be described in detail as follows. When the number of starting memories at the time of the big hit determination is “1”, in the first variable display, the middle stop symbol is set to the symbol three symbols before the reach symbol. In the second variable display, a big hit is generated. When the number of start memories at the time of the big hit determination is “2”, the middle stop symbol is set to the symbol three symbols before the reach symbol in the first variable display. In the second variable display, the middle stop symbol is set to the symbol one symbol before the reach symbol. Then, a big hit is generated in the third variable display. When the number of starting memories at the time of the big hit determination is “3”, the middle stop symbol is set to the symbol five symbols before the reach symbol in the first variable display. Then, in the second variable display, the middle stop symbol is set to the symbol three symbols before the reach symbol. In the third variable display, the middle stop symbol is set to the symbol one symbol before the reach symbol. Then, a big hit is generated in the fourth variable display.
[0056]
A specific example of the stop symbols of the left, middle, and right variable display units obtained based on the contents of the jackpot notice process set in the first jackpot notice table is as follows. For example, assuming that the number of starting memories at the time of jackpot determination is “2” and a jackpot notice is made and the left, middle and right jackpot symbols are “777”, “414” in each variable display. , “545”, “777”. This is just an example. Thus, in the first jackpot notice table, as the variable display times approach the variable display times for which the jackpot is determined in advance, the middle stop symbol is such that the stop symbol at the time of reach display approaches the jackpot. Is set.
[0057]
Therefore, when the variable display control of the first example is performed, the player visually recognizes that the reach display has been performed continuously, and the stop symbol at the time of each reach display approaches the big hit. By visual recognition, it can be predicted that a big hit will occur.
[0058]
FIG. 9 is an explanatory diagram showing the contents of the second jackpot notice table. The second jackpot notice table is different from the first jackpot notice table shown in FIG. 8 in “big hit notice processing content” corresponding to each of the “number of start memories at the time of jackpot determination”. In the second jackpot notice table, the contents of the jackpot notice process are set as follows.
[0059]
Reach 1 to reach 4 shown below each indicate the type of reach display. As a specific example of the type of reach, for example, the type of symbol variation pattern (see FIG. 7) at the time of reach display can be cited. When the symbol variation pattern is set as the type of reach, the types of reach 1 to reach 4 are set to variation patterns that make it easier for the player to predict the occurrence of a big hit in this order. For example, reach 1 is a type of reach display that has a high appearance frequency but is unlikely to be a big hit, and the second setting is a reach display type that has a low appearance frequency but tends to be a big hit as reach 1 reaches reach 4. It is made at the jackpot notice table.
[0060]
In addition, since the player often obtains the discriminating power for predicting a big hit according to the type of reach, the correlation between the types of reach 1 to reach 4 is set to be constant in advance. There may be any correlation as long as it is a specific relationship.
[0061]
The contents of the jackpot notice process of the second jackpot notice table are as follows. When the start memory number at the time of the big hit determination is “1”, reach 2 is executed in the first variable display, and reach 4 is executed in the two variable displays. When the variable display of reach 4 stops, a big hit occurs. When the number of starting winning prizes at the time of the big hit determination is “2”, reach 2 is executed in the first variable display, reach 3 is executed in the second variable display, and further, in the third variable display. Reach 4 is executed. A big hit occurs when the variable display of reach 4 stops. When the start memory number at the time of big hit determination is “3”, reach 1 is executed in the first variable display, reach 2 is executed in the second variable display, and reach 3 is executed in the third variable display. Further, reach 4 is executed in the fourth variable display. The variable display of reach 4 results in a big hit as a result of stopping.
[0062]
As described above, in the second jackpot notice table, the type of reach is set to a type that is likely to become a big hit as the number of times of variable display approaches the time of variable display in which the big hit is determined in advance. That is, in the second jackpot notice table, the type of reach displayed before the jackpot is set to have a correlation. Therefore, the player can foresee that a big hit will occur by visually recognizing that the reach display has been performed continuously and visually confirming that there is a specific correlation between the types of reach display. Can do.
[0063]
Next, with reference to FIGS. 10-14, the procedure of the variable display of the variable display apparatus 4 is demonstrated. In each figure, the time marked with * is the time with high probability.
[0064]
FIG. 10 is a timing chart showing a variable display control procedure of the variable display device 4 at normal time when no big hit is generated and reach is not established. The hitting ball wins the variable winning ball apparatus 10, and the winning ball is detected by the starting ball detector 21 (see FIG. 1). At the timing when the detection pulse rises, the value of CRND1 is extracted by the CPU and stored in the RAM. The CPU then detects the value of CRND1 stored in the RAM at the falling edge of the detection pulse after 0.002 seconds have elapsed after the start winning of the hitting ball to the start port 9 is detected. Read and judge. At the same time, the CPU extracts the value of CRND2. In this case, the CPU determines to be out of the range based on the value of CRND1, and controls variable display of the variable display device 4 based on the determination result.
[0065]
Then, after 0.216 to 0.230 seconds have elapsed after the start winning, the respective values of CRND ZU1 to C RND ZU and the value of C RNDRCH are extracted, and at the same time, the left side, the center, The variation of the symbols is started simultaneously in each of the variable display portions on the right side.
[0066]
The left variable display unit performs display control of the fluctuation state A for 5.340 seconds after the fluctuation starts. Thereafter, the fluctuation state B is controlled for 1.000 seconds. In this variation state B, first, the symbols 6 symbols before the stop symbol determined by the value of C RND ZU1 are set, and then the variation for 6 symbols is displayed within 1.000 seconds, and finally Then, control is performed so that the variable display stops at a predetermined stop symbol. When the probability is high, the time of the fluctuation state A is 2.840 seconds. This is because the variation time of the second symbol at the time of high probability in the variable display device 4 is shortened for the same reason that the variation time of the first symbol is shortened, and the start memory of the second symbol is stored. This is to ensure that it is digested promptly.
[0067]
In the right variable display section, the change display is controlled in the change state A in 6.340 seconds after the start of change, and then the change display is controlled in the change state B in 0.650 seconds. The display control in the variation state B is performed in the same manner as the left variable display unit described above, after setting the symbols 6 symbols ahead of the predetermined stop symbols, and then varying the 6 symbols for 0.650 seconds. Then, the variable display is controlled to stop with the determined stop symbol. When the probability is high, the time of the fluctuation state A is shortened to 3.840 seconds as in the left side.
[0068]
The middle variable display unit controls the display in the fluctuation state A for 6.990 seconds after starting the fluctuation display, and then controls the fluctuation display in the fluctuation state B for 0.650 seconds. The display control in the fluctuation state B is to display the six symbols in a variable manner for 0.650 seconds after setting the symbols 6 symbols ahead of the predetermined stop symbol, and finally stop the variable display at the determined stop symbol. Let Further, when the probability is high, the time of the fluctuation state A is shortened to 4.490 seconds.
[0069]
FIGS. 11 and 12 are timing charts showing the display control procedure when the big hit is determined in advance when the variable display control operation of the first example shown in FIG. 4 is performed. The display control in this case is performed from FIG. 11 to FIG.
[0070]
The control procedure shown in FIGS. 11 and 12 is a control procedure in the following case. That is, there are four consecutive start prizes, and in the first example of the variable display control operation shown in FIG. 4 at the last fourth start prize, the big hit is predetermined and the first to third start prizes are determined. This is a procedure when the variable display state corresponding to each of the above is forcibly reached for the big hit notice.
[0071]
Four hit balls sequentially win the variable winning ball apparatus 10, and each winning ball is sequentially detected by the start ball detector 21 (see FIG. 1). Then, in response to the detection of the winning balls, detection pulses are sequentially generated (see FIG. 11). At each timing when these detection pulses rise, the value of CRND1 is stored in the RAM by the CPU. In this case, four extracted values are sequentially stored in the RAM.
[0072]
Then, after the start winning of each of the four winning balls to the starting port 9 is detected, the CPU is stored in the RAM at the rising timing of each detection pulse after a lapse of 0.002 seconds. C RND1 values are read and judged. At the same time, the CPU extracts C RND2 corresponding to each starting prize.
[0073]
In this case, the CPU decides that each of the first to third start winnings will be out of accordance with the value of CRND1, while the fourth start winning will generate a big hit with the value of CRND1. Predetermine what to do. Then, the CPU performs control to forcibly change the variable display corresponding to each of the first to third start winning prizes to reach display for the big hit notice based on the result of the big hit in advance.
[0074]
When the first variable display corresponding to the first start winning is started, the value of C RNDZU1 and the value of C RND RCH are extracted. Then, the variation of symbols is started simultaneously in each of the left, middle, and right variable display portions.
[0075]
In the left variable display section, the display is controlled in the fluctuation state A for 5.340 seconds after the start of the fluctuation, and then the display is controlled in the fluctuation state B for 1.00 seconds. In the fluctuation state B, after the symbols 6 symbols before the stop symbol determined by the value of C RND ZU1 extracted at the start of variable display are set, the symbols are displayed in a variable manner in 1.00 seconds. The display is stopped at the determined stop symbol. Further, when the probability is high, the time of the fluctuation state A is set to 2.840 seconds.
[0076]
In the right variable display section, the display is controlled in the variation state A for 6.340 seconds after the start of the variation display, and then the display is controlled in the variation state B for 0.650 seconds. In Fluctuation State B, after 6 symbols of the stop symbol determined by the value of C RND ZU3 matched with the extracted value of C RND ZU1 are set, the 6 symbols are variably displayed in 0.650 seconds. The display is stopped at the finally determined stop symbol. When the probability is high, the time of the fluctuation state A is shortened to 3.840 seconds as described above.
[0077]
In the middle variable display section, the display is first controlled in the fluctuation state A in 10.540 to 25.500 seconds after the fluctuation display is started, and then corresponds to the reach type determined by the extracted value of C RND RCH. The display is controlled in any of the changing states C, D, or E. In this case, during the period in which the variation state A and any one of the variation states C, D, or E are combined, 39-54 symbols are displayed in a variable manner. Then, in the variation state C, D or E, after 6 symbols before the middle stop symbol determined based on the first jackpot notice table are set at a predetermined timing, the 6 symbols are varied at a predetermined time. Finally, display is stopped at the determined stop symbol.
[0078]
The same operation as the first variable display corresponding to the first start winning as described above is performed in the second to fourth variable displays corresponding to the remaining second to fourth start winnings, respectively. (See FIGS. 11 and 12). However, in the fourth variable display that generates a big hit (see FIG. 12), after setting the symbol 6 symbols before the big hit symbol in any of the fluctuation states C, D or E of the middle symbol, Six symbols are displayed in a variable manner for a predetermined time, and finally the display is stopped at the determined jackpot stop symbol.
[0079]
As described above, in the first example of the variable display control shown in FIGS. 11 and 12, when it is determined in advance that the big hit is generated, the reach display is continuously performed, and the reach display is performed. The display result at the time of reach display is made to approach the jackpot display state step by step. Therefore, the player can visually recognize the occurrence of such a continuous reach and recognize that a big hit will occur by recognizing that the occurrence frequency of the reach state has increased. Furthermore, the player can surely predict that a big hit will occur by visually recognizing the display result in the continuous reach state.
[0080]
FIG. 13 and FIG. 14 are flowcharts showing the display control procedure when the big hit is determined in advance by the variable display control operation of the second example shown in FIG. The display control in this case is performed from FIG. 13 to FIG. The control procedure shown in FIGS. 13 and 14 is a control procedure in the following case. That is, there are four start winnings in succession, and the big win is determined in advance by the variable display control of the second example shown in FIG. 5 at the last fourth starting winning, and starting from the first to the third time This is a control procedure in a case where the variable display state corresponding to each of the winnings is changed to a forced reach display for a big hit notice.
[0081]
The procedure from the start winning for 4 times to the start of the first variable display is the same as the timing of starting the variable display, except that C RND RCH is not extracted and the value of CRND ZU2 is extracted. Since it is the same as that shown in FIG. 11 and FIG. 12, the description thereof is omitted here. In the variable display corresponding to each start winning prize, the variable display control procedure of the left variable display section and the right variable display section does not extract C RND RCH at the timing of starting the variable display, and further, the C RND ZU2 Except for extracting the value, it is the same as the contents shown in FIG. 11 and FIG.
[0082]
A characteristic part of the display control procedure of FIGS. 13 and 14 is the control procedure of the variable display in the middle variable display section. Referring to FIG. 13, first, in the first variable display corresponding to the first start winning, the middle variable display unit first changes the fluctuation state in 10.540 to 25.500 seconds after the variable display is started. The display is controlled by A, and then the display is controlled by the variation state C according to the reach type (reach 1) determined using the second jackpot notice table. In the variation states A and C in this case, 39-54 symbols are varied and displayed. Then, in the fluctuation state C, after the symbols 6 symbols ahead of the stop symbol predetermined by the extracted value of C RND ZU3 are set at a predetermined timing, the 6 symbols are variably displayed at a predetermined time and finally determined. The display is stopped at the stop symbol.
[0083]
In the second variable display corresponding to the second start winning prize, the display is controlled in the variation state D (reach 2) instead of the variation state C performed in the first variable display. Further, referring to FIG. 14, in the third variable display corresponding to the third start winning prize, the display is controlled in the fluctuation state E (reach 3) instead of the fluctuation state D of the second variable display. The In the fourth variable display corresponding to the fourth start winning prize, the display is controlled in the variation state F (reach 4) instead of the variation state E in the third variable display.
[0084]
In this variable display for the fourth time, after 6 symbols before a predetermined stop symbol, which is a jackpot stop symbol, are set at a predetermined timing, the 6 symbols are displayed in a variable manner for a predetermined time. The middle variable display portion is stopped at the determined big hit symbol. Thus, when the fourth variable display is stopped, the big hit state is displayed.
[0085]
As described above, in the second example of the variable display control shown in FIGS. 13 and 14, when it is determined in advance that the big hit is generated, the reach display is continuously performed, and the reach display is performed. The pattern variation pattern (reach type) has a specific correlation. Therefore, the player can predict that a big hit will occur by visually recognizing the occurrence of such continuous reach and recognizing that the occurrence frequency of the reach state has increased. Furthermore, the player can surely predict that a big hit will occur by visually recognizing the correlation of the variation patterns in the continuous reach state.
[0086]
In the above embodiment, a case where one hit line of identification information (symbol) displayed on the variable display unit 5 is set is shown. However, the present invention is not limited to this, and a plurality of hit lines are set. It is also applicable when a hit line is set. That is, when a plurality of hit lines are set in the variable display device 4, the number of reach lines (the number of reach lines) may be controlled to increase every time variable display is performed.
[0087]
Specific examples are as follows. For example, a variable display device in which a plurality of hit lines are set has nine variable display areas of 3 rows × 3 columns divided into three in the left-right direction and three in the vertical direction in the variable display section. In these areas, there are 8 hit lines in total, 3 in the horizontal upper row, 3 in the lower row, 3 in the vertical left column, 3 in the middle row, 2 in the right row, and 2 on the diagonal diagonal line. What is set is an example.
[0088]
When a plurality of hit lines are set as described above, control for increasing the number of reach lines step by step is performed as a big hit notice in a plurality of continuous variable display times. In this way, since the variable display result of a plurality of times from the stage before the variable display of the number of times that is expected to generate a big hit becomes a specific relationship that the number of reach lines increases, the player can By visually confirming that such a specific relationship has been obtained, it can be predicted that a big hit will occur.
[0089]
Further, in the present embodiment, when it is determined in advance that the big hit is generated, the variable display corresponding to all the start winning memories is set to reach display. However, the present invention is not limited to this, and every other start winning memory may be forcibly displayed as a reach, and a predetermined start winning memory location (for example, a second start winning memory) may be used. Reach display may be forcibly performed at the time of variable display corresponding to (memory). Further, in the present embodiment, when it is determined in advance that the big hit will be generated, the variable display corresponding to the start winning memory before the big win is forcibly set to the reach display. The probability of generating the reach state may be increased by a random counter. That is, when it is determined in advance that a big hit will be generated, it is only necessary to perform control that increases the frequency of reach display.
[0090]
Further, in the present embodiment, when it is determined in advance that the jackpot will be generated, the jackpot notice is given by performing a continuous reach display. The reach display may be performed when it is determined in advance that a big hit that can be shifted to a high probability state is generated.
[0091]
The continuous reach display may also be performed in the following two-stage lottery for big hits. In the two-stage lottery, the occurrence of a big hit is determined in two stages using two random counters. Specifically, it has a first random counter for determining jackpots and a second random counter for determining jackpots, the first lottery is performed based on the extracted value of the first random counter, and the result When the first condition is satisfied, the second lottery is performed based on the extracted value of the second random counter, and as a result, the second condition is satisfied, thereby finally generating a big hit Is determined. In such a two-stage lottery, the first lottery allows the second lottery to be made (it is possible to determine whether or not to ultimately generate a big hit. When the state is obtained, continuous reach display as described above may be performed.
[0092]
Further, in the present embodiment, the reach display that is continuously displayed when it is determined in advance that the jackpot will be generated is between the reach display that gradually approaches the jackpot and the stop symbol at the time of the reach display. An example in which a correlated reach display is performed for a jackpot notice has been described. However, the present invention is not limited to this, and the jackpot notice may be made by giving the same kind of reach display continuously when it is determined in advance that the jackpot will be generated, or the reach display. A notice may be given when a sliding display of identification information occurs. Even when such display is performed, the player can foresee the occurrence of a big hit by visually recognizing the variable display state.
[0093]
Next, features and modifications of the embodiment described above are listed below.
(1) Using the circuit formed on the image control board 29 shown in FIG. 2 and the jackpot notice table shown in FIG. 8 or FIG. 9, the variable display device is variably started and then the display result is derived and displayed. In addition, when it is determined that the display result content corresponding to the specific display mode is made by the display result content predetermining means, the variable of the times when the specific display mode is scheduled to be derived and displayed as the display result Variable display control means for performing control to improve the rate at which the reach state by the variable display device is derived and displayed from the stage before display is configured. Further, the flowchart shown in FIG. 4 or FIG. 5 constitutes display result content predetermining means for predetermining the display result content of the variable display device from the stage before the variable display device starts variable.
[0094]
Further, based on the circuit formed on the image control board 29 shown in FIG. 2 and the flowchart shown in FIG. 4 or FIG. 5, the display result content predetermining means determines that the display result content corresponds to a specific display mode. When the display is performed, the variable display result of a plurality of times from the stage before the variable display of the time when the specific display mode is scheduled to be derived and displayed as the display result is set to a predetermined specific relationship. Variable display control means for performing control is configured.
[0095]
Furthermore, the variable display device 4 is configured by a liquid crystal display device capable of variably displaying an image, but may be a display using CRT, plasma display, electroluminescence, or dot matrix display. That is, the variable display device 4 constitutes a variable image display device capable of variably displaying images. In the above embodiment, the variable display device 4 is of the image display type. However, the present invention is not limited to this, and the variable display device may be of the following mechanical type. In other words, (1) rotating drum type, (2) a so-called belt type, (3) leaf type, (4) a plurality of symbols attached, in which the display state changes as a belt with a plurality of symbols circulates. A so-called disk type or the like in which the display state changes as the rotating disk rotates may be used.
[0096]
(2) The specific display mode includes (1) a display mode determined to be a big hit state, (2) a display mode set to be a big hit state for shifting to a probability improvement state, and (3) a special to be described later. It includes a display mode defined so as to be a big hit state for shifting to the gaming state. In addition, the variable display control means may change the variable display result of a plurality of times in a stage before the variable display of the time when a specific display mode is scheduled to be derived and displayed as a display result to a predetermined specific relationship. The specific relationship in the case of (1) is a relationship that leads to a reach display that is likely to cause a big hit in multiple variable displays, and (2) there is a correlation between the final stop symbols in multiple reach states. And (3) a relationship in which the same type of reach display is continued in a plurality of reach displays, and (4) a relationship in which identification information slips or returns in the reach display. Here, “slip” means that the symbol is slid from the predicted stop position immediately before the symbol stops, and “return” means that the symbol is returned to the planned stop position after once passing the planned stop position of the symbol.
[0097]
Further, for the control to improve the ratio that the reach state is derived and displayed by the variable display device, (1) a plurality of stages from the stage before the variable display of the time when a specific display mode is scheduled to be derived as a display result. It is decided to forcibly reach all at the time of variable display, (2) to force reach display every other variable display time, and (3) to perform reach display. Increasing the probability of doing, etc.
[0098]
(3) A plurality of types of specific display modes displayed on the variable display device are determined in advance. In addition to the predetermined game value, the plurality of types of specific display modes include special display modes determined to be in a special gaming state (for example, a probability improvement state) that is advantageous to the player. In the present embodiment, the special game state indicates the probability variation state of the big hit or the small hit. However, the present invention is not limited to this. For example, the special gaming state is a change in the probability of occurrence of only one of the big hit and the small hit. In addition, the movable piece 24 is frequently used by shortening the variable display period of the normal symbol display 14 more than usual without increasing the probability of occurrence of small hits and increasing the number of times of display result display per unit time. The state in which the variable display device 4 starts to change frequently after opening, the opening period of the movable piece 24 is lengthened (for example, 2 seconds to 6 seconds or 1 time to 3 times), and the variable display device 4 frequently Various things are conceivable, such as a state in which the number of prize balls to be paid out increases due to the increase in the number of winning balls as well as the variable start. Further, when a variable start condition for starting the variable display device is variably established during variable display of the variable display device by the CPU, RAM, and ROM of the game control board, the variable start condition is satisfied. Is stored, and variable start condition storage means for causing the variable display device to display the variable display again based on the storage after the variable display device is ready to be variably started again is configured.
[0099]
(4) In the embodiment described above, the specific display mode is displayed from the stage before the variable display of the times when the specific display mode is scheduled to be derived and displayed as a display result. In addition to what is shown to the player in advance, in addition to the specific display mode, starting from the stage of variable display of the times when the specific display mode is scheduled to be derived and displayed as a display result, You may make it alert | report to a player beforehand that it is displayed.
[0100]
(5) The first state of the variable winning ball device 10 may be a state in which an open state and a closed state are repeated, and the second state of the variable winning ball device 10 is that a hit ball can be won. However, it may be difficult to win a prize. The gaming machine according to the embodiment described above has random number generating means including a random counter used for determining the display result contents of the variable display device in advance.
[0101]
(6) When the display result of the variable display device 4 is in a specific display mode, as a game value to be given, instead of controlling the variable winning ball device 10 to the first state, Coins may be paid out directly, or when the gaming machine is a slot machine, a bonus game that increases the probability of giving value such as coin payout or score addition is generated, or the bonus A big bonus game that increases the probability of occurrence of the game may be generated. As described above, the gaming machine of the present invention is configured so that the gaming value as described above can be given when the display result of the variable display device 4 is in a specific display mode determined in advance. .
[0102]
【The invention's effect】
  According to the present invention as set forth in claim 1,In a variable display device capable of updating and displaying a plurality of types of identification information according to a predetermined update order,Specific displayThe result is derivedVariable display multiple times from the previous stagecontrolDisplay the reach status, and display results for each reach status, A specific relationship that results in a display result of a type in which the number of identification information shifts in relation to a predetermined update order is reducedControl is doneThe This control is performed when the variable start condition determined to be a specific display result is determined according to the number of stored specific display results at the time when the specific display results are determined. In addition, a plurality of display results as a notice notification mode performed in the plurality of variable display controls so that the number of deviations of the identification information in the display results derived and displayed in each of the plurality of variable display controls has a specific relationship. It is control which determines the kind of.For this reason, the player can foresee that a specific display mode is displayed by visually recognizing the display result. As a result, it is possible to increase the player's expectation from the stage before the variable display of the time when the specific display mode is scheduled to be derived and displayed by the variable display device, and sufficiently produce the fun of variable display. A gaming machine capable of further improving the player's expectation can be provided.
[Brief description of the drawings]
FIG. 1 is a front view of a gaming board surface of a pachinko gaming machine as an example of a gaming machine.
FIG. 2 is a block diagram showing a configuration of a circuit formed on an image control board used in a variable display device.
FIG. 3 is an explanatory diagram for explaining various random counters used for variable display control of the variable display device;
FIG. 4 is a flowchart showing a first example of variable display control of the variable display device.
FIG. 5 is a flowchart showing a second example of variable display control of the variable display device.
FIG. 6 is an explanatory diagram showing an arrangement configuration of symbols variably displayed on the variable display device.
FIG. 7 is an explanatory diagram for explaining types of symbol variation states in the variable display device;
FIG. 8 is an explanatory diagram showing the contents of a first jackpot notice table.
FIG. 9 is an explanatory diagram showing the contents of a second jackpot notice table.
FIG. 10 is a timing chart showing a variable display operation of the variable display device.
FIG. 11 is a timing chart showing a display control procedure when a big hit is determined in advance by the first example of the variable display control operation;
FIG. 12 is a timing chart showing a display control procedure when a big hit is determined in advance by the first example of the variable display control operation;
FIG. 13 is a timing chart showing a display control procedure when a big hit is determined in advance by the second example of the variable display control operation;
FIG. 14 is a timing chart showing a display control procedure when a big hit is determined in advance by the second example of the variable display control operation;
[Explanation of symbols]
1 is a game board, 3 is a game area, 4 is a variable display device, 5 is a variable display unit, 6 is a start memory display, 9 is a start port, 10 is a variable winning ball device, 14 is a normal symbol display, and 18 A side lamp, 20 is a passing ball detector, 21 is a starting ball detector, 22 is a specific ball detector, 23 is a winning ball detector, and 29 is an image control board.

Claims (1)

A variable display device that can update and display a plurality of types of identification information according to a predetermined update order, and a predetermined game value can be given when the display result of the variable display device is a predetermined display result. A gaming machine
Variable display control means for performing control for deriving and displaying a display result after the variable display device starts updating display;
When a variable start condition for variably starting the variable display device is satisfied, the number of times the variable start condition is satisfied is stored within a range of a predetermined upper limit value, and the variable display is performed according to the satisfaction of the variable start condition. Variable start condition storage means for subtracting and updating the stored number every time control is executed;
By determining whether or not the extracted value extracted from the random counter matches the predetermined determination value when the variable start condition is satisfied, the display result content of the variable display device is changed to the specific display result. Display result content pre-determining means for predetermining for each storage of the variable start condition storage means from the stage of establishment of the variable start condition stored in the variable start condition storage means,
When the display result content predetermining means determines that the display result content of the variable display device is to be the specific display result, the specific display is determined by determining an extracted value extracted from a random counter. Notice notification determining means for determining whether or not to notify the player that the result is displayed;
Means for determining the notice notification mode according to the number of stored specific display results when the variable start condition storage means is determined to be the specific display result, A notice notification mode determining means for determining a display result to be derived and displayed after the reach state is established by the variable display device, as the notice notification mode;
The notice notification mode determining means is configured to compare the identification information displayed after the reach state is established with the identification information constituting the reach state on condition that the number of stored specific display results is determined. Among a plurality of types of display results with different numbers of identification information in relation to a predetermined update order, a plurality of types of display results as advance notices to be displayed on the variable display device are determined in advance,
The variable display control means is a variable display control in which the display result content becomes the specific display result according to the determination content of the notification notification mode determination unit when the notification notification determination unit determines to perform the notification notification. The reach state is forcibly generated by the variable display device in each of a plurality of variable display controls before the execution of, and a reach state is established in two or more variable display controls of the plurality of variable display controls. When doing so, the relationship between the display results in each variable display control is a specific relationship that results in a type of display result in which the number of deviations of the identification information decreases step by step for each of a plurality of variable display controls.
The notice notification mode determining means determines that the specific display result is determined according to the specific display result determination time storage number on the condition that the specific display result determination time storage number is plural. In the multiple-time variable display control, the number of deviations of the identification information in the display result derived and displayed in each of the multiple-time variable display control at the stage of establishment of the variable start condition is in the specific relationship. A gaming machine , wherein a plurality of types of display results as modes of the notice to be performed are determined .

Images