JP3439702B2 - Gaming machine - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [0001] TECHNICAL FIELD The present invention relates to a pachinko game machine and the like.
Play represented by coin gaming machines or slot machines
Related to technical equipmentAndFor details, the display state can be changedpluralYes
Including a variable display device having a variable display unit,pluralvariable
A specific display mode in which the display result of the display unit is predetermined.Tona
Game value can be given ifRelated to gaming machines
I do. [0002] 2. Description of the Related Art This type of gaming machine has been generally used
Known, for example, multiple types of designs, etc.
Variable display unit that can variably display identification information consisting ofMultipleYes
Including a variable display device,pluralDisplay of variable display
The result is displayed in a predetermined display mode (for example, 77
7), A given game value can be givenYo
There was something that was configured like this. [0003] On the other hand, this type of conventional
In gaming machines, after the variable display section is variably displayed
Once the display result is derived and displayed, such as when it is stopped and displayed
Then the display result is determined and the display result is specified
If the display mode is other than the display mode of
Had the disadvantage of feeling unsatisfactory. [0004] The present invention has been devised in view of such circumstances.
The purpose is to display the result in one variable display operation.
Prevents players from being unsatisfactory due to finalization
To provide a gaming machine capable of variable display
And [0005] The present invention according to claim 1 is provided.
Can change the display stateA plurality of first variable display units and
Variable display unit capable of changing the display stateVariable with
Display deviceAnd the plurality of firstThe display result of the variable display
It became a predetermined specific display modeSometimes prescribed play
Value-adding control means for giving a skill valueA gaming machine
The aboveMultiple firstDetermine the display result of the variable display section
Display result determining means, and display by the display result determining means.
When the result is determined to be the specific display mode
ToThe plurality of first variable display units and the second variable display unit
After starting the display unit variably,SaidMultiple firstVariable display
Part to temporarily display a deviated display mode other than the specific display mode.
DerivedDisplayA first control, and after the first control,
Configuring the specific display mode among the number of first variable display units
No display contents of the first variable display unit and the second variable display
By replacing the display contents of the variable display section of
A second control for starting the variable display section of the first variable again.
Deriving the display result of the first variable display unit after the second control
And displaying the display results of the plurality of first variable display units.
Whether to perform third control to set a specific display modeDecide whether or not
Re-variation control determining means, and the display result determining means
According to the determined content and the determined content of the re-variation control determining means.
AboveFirst and secondVariable display that controls the variable display section
And control means. [0006] [0007] According to the first aspect of the present invention, the display result is determined.
By the function of the setting means,Multiple firstTable of variable display section
An indication result is determined.By the action of the re-variation control decision means
The display result is displayed by the display result determination means in the specific table.
If it is determined that the plurality of first modes are to be used,
The variable display section and the second variable display section are variably started.
After that, the plurality of first variable display units display the specific
First to temporarily derive and display a deviated display mode other than the display mode
And the plurality of first variable displays after the first control
First variable table that does not constitute the specific display mode of the section
Display contents of the display unit and display of the second variable display unit during variable display
The first variable display section is re-exchanged by exchanging the contents.
Second control for starting the variable degree, and after the second control,
Deriving and displaying the display result of the first variable display unit, and
The display result of the first variable display section is set to the specific display mode.
It is determined whether or not to perform the third control.Variable display
By the operation of the control means, the determination of the display result determining means is performed.
And according to the content determined by the re-variation control determining means.
First and secondThe variable display is controlled. [0008] [0009] BRIEF DESCRIPTION OF THE DRAWINGS FIG.
It will be described in detail based on. In this embodiment,
As an example of pachinko gaming machines,
As will be described, the present invention is not limited to this.
Multiple types of identification information, such as
A variable display device having a plurality of variable display units capable of variable display
The display result when the variable display device is
When a combination of specified specific identification information is
Includes all gaming machines that can provide a fixed gaming value
I will. FIG. 1 shows a pachinko gaming machine as an example of a gaming machine.
It is the whole front view shown. In the front frame 24 of the pachinko gaming machine 1
Is provided with the metal frame 18 and the game area 2
A door frame 19 that covers the front surface is provided. pachinko
In the lower right corner of the gaming machine 1, a hit ball operated by a player
A handle 22 is provided.
Is rotated by the player, so that the ball
Pachinko balls stored in the game area 2 one by one
The game can be played by firing. In the game area 2, a plurality of types of identification information are stored.
The variable display device 3 capable of variably displaying is provided.
In the first state, which is advantageous for the player, and for the player,
A variable winning ball device 4 that can be changed to the disadvantageous second state is provided.
Have been killed. Furthermore, a hit ball wins in the game area 2.
Possible start winning openings 10a, 10b, 10c are provided
There are pachinko balls and these start winning ports 10a, 10b, 1
0c wins the prize ball.
Detected by the moving prize ball detectors 11a, 11b, 11c.
And the variable display device 3 starts variably based on the detected output.
Is done. Then, a table at the time when the variable display device 3 is variably stopped.
The indication result is a combination of predetermined specific identification information (for example,
For example, if it is 777), a big hit state occurs and a variable winning
The solenoid 13 for opening the ball device 4 is excited.
The opening / closing plate 6 is opened, and the ball can enter the winning opening 5
It will be in a operable first state. In the winning opening 5 of the variable winning ball device 4, there is a special
Fixed winning opening (V pocket) 7 and other normal winning areas
Is provided, and a specific winning ball that has won the specific winning opening 7
Is detected by the specific winning ball detector 8. In addition, winning opening
All the winning balls in the mouth 5 have the winning number detector (1).
0 count detector) 9. Jackpot and
In the event that the opening / closing plate 6 has become
Period or a predetermined number of pachinko balls (for example, 10
) Wins, whichever comes first
The opening / closing plate 6 is closed when the earlier condition is satisfied.
As a result, the variable winning ball device 4 enters the second state. First
The pachinko that has entered the variable winning ball device 4 in the state
If Kodama wins the special winning opening 7, the first in that round
Waiting for the state of the above to end, the opening and closing plate 6 is opened again.
The first state of the variable winning ball device 4 is repeatedly and continuously controlled.
You. The upper limit number of the repetition continuation control is, for example, 16 times.
Stipulated. Entry that has entered the variable prize ball device 4
The number of prize balls is displayed by the winning number display 14. Further, during the variable display of the variable display device 13,
Again to any of the winning ports 10a, 10b, 10c
If a pachinko ball wins, start the pachinko ball
The winning is stored and the variable display of the variable display device 13 is stopped.
When the variable start is possible again
The variable display device 13 is variably started again based on the information.
The upper limit of the start memory is set to, for example, 4. In the game area 2, a normal winning opening 12 and each
Seed lamp 16 and decorative LED 17 are provided.
In addition, the pachinko balls driven into the winning area 2
If a prize hole or a prize ball device is not won,
An out port 15 for collecting out balls is provided. Ma
In addition, the pachinko balls hit into the game area 2
If a prize is won in the winning opening or the prize ball device, a predetermined number of prize balls
Is dispensed into the hitting ball storage dish 20. In addition, this hit ball storage
The plate 20 emits a sound effect and an alarm sound when an abnormality occurs.
There is provided a speaker 21 for producing the sound. further,
The prize balls paid out in the hit ball storage dish 20 are full.
Surplus balls that cannot be stored any more
23 is paid out. In this embodiment,
The variable display device 13 uses a LED display device.
Multiple types of identification information can be screened using the
The role display is shown.
For example, liquid crystal, 7 segment, electroluminescence, etc.
Using a display device, rotating drum type, or
Various lamps such as multiple lamps that light up and display variably
Things are conceivable. In addition, the variable winning ball device 4
In the embodiment, all the pachinko balls are in the second state.
It was shown that the winning was impossible, but in addition,
In the state of, pachinko balls can win, but it is difficult to win
It may be in a state. FIG. 2 is a front view showing the variable display device 3.
You. The variable display device 3 includes four symbol display LEDs 25a,
25b, 25c, and 25d are provided.
From the pattern display LEDs 25a to 25d, a plurality of variable display units
It is configured. Then, in the lower horizontal row shown in FIG.
One of the arranged symbol display LEDs 25a, 25b, 25c
Thus, a first variable display unit is configured. Also, the pattern
A second variable display section is constituted by the display LED 25d.
I have. Further, the variable display device 3 includes a plurality of lamps 27.
Is provided, and as described later, the symbol display LED 2
The display content of 5c and the display content of the symbol display LED 25d
When they are replaced, their lamps 27 are lit,
Display the word "change" and an arrow indicating exchange
Is configured to be recognized. 26 in the figure
The starting winning prize stored value at the time of the starting winning prize described above is displayed.
It is a starting prize memory display for the. FIG. 3 shows a control circuit used in a pachinko game machine.
It is a block diagram showing a road. Microcomputer 3
5 is a function for controlling the operation of various devices as described below.
Having. For this reason, the microcomputer 35
For example, it is composed of several chips of LSI,
MPU 3 capable of executing control operation in a predetermined procedure
8 and R for storing the operation program data of the MPU 38
OM39 and necessary data can be written and read
And a RAM 40. Further, the microcomputer 35 receives the input
Upon receiving the signal, the input data is given to the MPU 38 and
An input that receives output data from the MPU 38 and outputs it to the outside
An output circuit 36 and a sound source for receiving sound data from the MPU 38
To the MPU 38 when the power is turned on.
A power-on reset circuit 41 for giving a set pulse,
Clock generation circuit 4 for applying a clock signal to MPU 38
2 and the clock signal from the clock generation circuit 42
Reset pulse periodically (for example, every 2 msec)
Frequency dividing circuit (periodic reset circuit)
Route) 43 and the address data from MPU 38 are decoded.
And an address decode circuit 44 for performing the decoding. Whether the address decode circuit 44 is the MPU 38
These address data are decoded and stored in ROM 39, RAM
40, the input / output circuit 36, and the sound generator 37.
A chip select signal is applied. In this embodiment, the ROM 39
Is a rewriting of its contents, that is, if necessary
Is a program for the MPU 38 stored therein.
Programmable R so that data can be changed
OM is used. Then, the MPU 38 controls the ROM 3
9 according to the program data stored in and
In response to the output of each control signal described in
And give a control signal. The microcomputer 35 is
The following signals are given as force signals. First, the pachinko ball is started with a winning prize.
In response to the winning ball detectors 11a to 11c being turned on,
The start winning ball detection signal from the detection circuit 28
Provided to the computer 35. Pachinko ball is a special winning opening
7 (see Fig. 2)
The ball detector 8 is turned on, and in response, the detection circuit 29
From the special winning ball detection signal to the microcomputer 35
Given. Pachinko ball wins in the variable prize ball device 4
As a result, the winning number detector 9 is turned on,
In response, the winning number detection signal is
It is provided to the computer 35. Next, the microcomputer 35 has the following configuration.
Provides control signals to circuits and devices. First, the solenoid
Solenoid drive to solenoid 13 via drive circuit 31
Control signal. As a result, the variable prize ball device is opened.
The closing plate 6 (see Fig. 2) is moved and the pachinko ball wins
Easy first state and pachinko balls are difficult to win or enter
The state changes to the second state in which no prize is won. This microcomputer
Value by the computer 35 and the solenoid drive circuit 31
Control means is configured. Segment / LED drive times
Each of the symbol display LEDs 25a to 25 through the road 32
A symbol display control signal is given to d. Segment / LED
The winning number is displayed on the winning number display 14 via the drive circuit 32.
Giving a display control signal and starting the start winning memory display 26
A winning memory display control signal is given, and the decoration LED 17 is LE
Apply a D drive control signal. Via the lamp drive circuit 33
A lamp lighting control signal is applied to each of the lamps 16 and 27.
give. For generating sound to the speaker 21 via the amplifier 34
Give control signal. In addition, the various devices and the control circuit
Is supplied with a predetermined direct current from the power supply circuit 45. FIG. 4 shows the change of the variable display state of the variable display device.
FIG. 7 is an operation explanatory diagram for explaining the conversion. All variable tables
After the indicating units 25a to 25d are variably started, first the first
The leftmost variable display unit 25a in the variable display unit is stopped.
Then, the central variable display section 25b is controlled to stop.
It is. The stage whose central variable display section 25b is controlled to stop.
The display state of the floor is shown in FIG. In this (a)
Is when the variable display of the first variable display units 25a and 25b is stopped.
In which the result of the display is a combination of the specific identification information of 777.
So-called reach status that meets the requirements,
In this state, when the variable display section 25c at a predetermined position is variably stopped,
If the display result is “7”, the combination of the specific identification information is successful.
A predetermined game value can be given upright. However,
As shown in (b), the variable stop of the first variable display unit 25c
If the display result at stop is “4”, at this stage
Does not display the combination of 777 specific identification information
State. However, in this case, as shown in FIG.
The display contents of the second variable display section 25d during the change and the first
The display contents of the variable display section 25c are exchanged, and "4"
The symbol is displayed on the variable display section 25d, and the variable display section 25d
The display contents variably displayed by the first variable display unit 25
The variable display is continued by c. This display position
When replacing the player, the lamp 27 is turned on,
The word "change" and an arrow indicating the exchange of the display position
Lights up. Then, as shown in (d), the first
"7" is displayed when the variable display section 25c is variably stopped.
Then, the combination of 777 specific identification information is the first possible
Will be displayed by the variable display sections 25a to 25c,
A big hit state occurs and a predetermined game value can be given
You. FIGS. 5 to 10 show the control circuit shown in FIG.
It is a flowchart for demonstrating operation | movement of a road. FIG.
Indicates a main routine, which is executed once every 2 mec, for example.
Is performed. First, according to step S (hereinafter simply referred to as S) 1
And it is determined whether or not there is a RAM error.
In this case, proceed to S3, but when the program runs away or power is turned on
And the like, the determination of YES is made, the process proceeds to S2, and the initial data
Goes to S3 after is set. Switch check in S3
A lock process is performed.
Control processing is performed, and the process proceeds to S5, where the solenoid control is performed.
Troll processing is performed, and the program proceeds to S6, where the symbol LED control is performed.
Roll processing is performed, and the flow advances to S7 to execute steps S3 to S6.
Processing to output the data set by the processing of
In step S8, the counter for determining the hit and miss is set to "1".
Increment processing is performed. This main route
Each time the program is executed, for example, every 2 msec,
The hit / miss determination counter is incremented by "1"
Is done. The upper limit of this hit / miss determination counter is, for example,
For example, it is set to “214”. Then go to S9 and hit
Determining whether the departure determination counter has reached "215"
If not, the process proceeds to S11.
If it has reached, the process proceeds to S10, where the collision
After clearing the counter to "0", the process proceeds to S12. this
, The hit / miss decision counter counts from "0"
It is cleared when it reaches 215 and it is cleared again from 0
Count up again. And the decision to hit
A big hit when the counter for the game is "191"
Stipulated. As a result, large
The probability of occurrence per hit is 1/215. On the other hand, a big hit
The pattern to be generated is the symbol display LED 25 as described above.
a, 25b, 25c (see FIG. 2)
When two symbols match, or symbol display LED2
5a, 25b, 25d (see FIG. 2)
This is the case when three symbols match, and the type of symbol is
Because there are 20 types, the apparent probability of a jackpot is
2 × 20/20^Three= 1/200. Next, at S11, the symbol display counter is set to 1
A process of adding “13” to the digit is performed. Symbol display
Is a counter that stores values corresponding to the 20 types of symbols.
The first digit is the left symbol display LED2
5a (see FIG. 2). Ma
The second digit shown below is the middle symbol display LED 25b,
The third digit is the right symbol display LED 25c, and the fourth digit is the second
It corresponds to the symbol display LED 25d. And that figure
A pattern corresponding to the value of the pattern display counter is displayed.
It is stipulated that Then, the program proceeds to S12, in which the symbol display cowl is displayed.
It is not determined whether the first digit of the number is “20” or more.
If not, the process proceeds to S11 again, and the symbol
The process of adding "13" to the first digit of the counter is performed.
You. On the other hand, if the first digit is equal to or greater than “20” in S12,
If it is determined, the process proceeds to S13, where the first digit count value is set.
The process of subtracting "20" from is performed and the symbol table
The process of adding "1" to the second digit of the display counter is performed.
You. Next, proceeding to S14, the second digit of the symbol display counter is
It is determined whether it is "20" or not, and it is not "20"
In this case, the process returns to S11 again.
Proceed to S15 to clear the second digit count value
To add "1" to the third digit of the symbol display counter
Is performed. Next, the process proceeds to S16, where the third digit is “20”.
It is determined whether or not
Returns to S11, but if yes, goes to S17,
Clear the third digit count value and save
A process of adding "1" to the fourth digit of the counter is performed.
Next, proceed to S18, whether or not the fourth digit is “20”
Is determined, and if not, the process returns to S11.
, If it has, go to S19 and clear the fourth digit
After that, the process returns to S11. The processing in S11 to S19 is
It remains after performing the processing from S1 to S10.
It is performed repeatedly during the reset wait time
Reset pulse from the pulse dividing circuit 43 (see FIG. 4)
Are output, the processing of S11 to S19 is terminated.
Return to S1. In the case of the present embodiment, 2 msec
Since a reset pulse is output every time,
Remaining after subtracting the processing time from S1 to S10
The processing of S11 to S19 is repeated using time.
Will be Next, the switch check shown in S3 is performed.
Flowchart showing the subroutine program for
Will be described with reference to FIG. First by S20
Check processing of the count switch (winning number detector 9)
Is performed, and the V switch (specific winning ball detection
The check processing of the device 8) is performed, and the star
Check switch A (start winning ball detector 11a)
The start switch B (starting
Check processing of the winning ball detector 11b) is performed, and S2
4, the start switch C (start winning ball detector 11)
The check processing of c) is performed and the subroutine program is executed.
The program ends. Start switch A check shown in S22
The specific processing content of the processing will be described with reference to FIG.
You. First, in S25, the start switch A is turned on.
A determination is made as to whether the And pachinko balls
If the player wins the starting winning port 10a (see FIG. 1), the process proceeds to S25.
Then, the determination of YES is made, and the process proceeds to S27 and the start
It is determined whether or not the switch A check counter is at the maximum.
You. This start switch A check counter is
Start switch A check subroutine program
"1" is added by S28 every time it is executed
And the maximum value is, for example, “255”. Soshi
If the maximum has not been reached yet, the process proceeds to S28,
Check switch A check counter is incremented by “1”
The process proceeds to S29 and the start switch A check card
A determination is made as to whether the counter is "2". And
If it has not yet reached "2", it is just a subroutine
Chin program ends, but when it reaches "2"
Proceeds to S30 to determine whether the start storage counter is "4"
Is determined. The upper limit value of the start memory counter is "4"
Has already reached its upper limit of "4"
In that case, the subroutine program ends
However, if it has not yet reached “4”, S31
And start memory counseling associated with the occurrence of the start prize
The addition process of "1" is performed. Next, proceed to S32.
The count value of the hit / miss determination counter is “191”.
A determination is made as to whether or not it is. This counsel for determining whether to hit
Is incremented by "1" at S8 and cleared at S10
It is a thing. And the hit / miss decision counter is
If it is "191", the process proceeds to S34, and the starting storage cow
Jackpot data in the data storage area corresponding to the
Then, the subroutine program ends. The result
As a result, the jackpot in which the variable winning ball device 4 is controlled to the first state
Control is started. On the other hand,
If it is not "191", the process proceeds to S33 and the start is stored.
The data stored in the data storage area corresponding to the value of the counter
And the subroutine program ends. Was
For example, if the start memory counter is "1", the data
Big hit data or missed data in area 1 of the storage area
Is stored, and when the start storage counter is "2",
Jackpot data or missed data in area 2 of the data storage area.
If the start storage counter is "3",
In the rear 3, if the start memory counter is "4", area 4
Respectively. Next, in step S25, the start switch A is
If it is determined that the switch is not ON, the process proceeds to S26.
Only, clear the start switch A check counter
The subroutine program ends as it is. After all, this
Start switch A check subroutine program
Is executed twice and the start switch is turned ON both times
Only if the answer is YES, the determination in S27 is YES.
And the processing after S28 is performed.
The start switch is momentarily
Even if it becomes N, the processing after S28 is performed immediately.
To prevent malfunctions due to noise as much as possible.
It is configured as follows. In FIG. 6B,
The check processing for the start switch A is shown.
However, start switch B and start switch C
Since the same processing as start switch A is performed,
Now, processing of start switch B and start switch C
Illustration and explanation of flowcharts showing programs are omitted.
Abbreviate. FIG. 7 shows the symbol LED controller shown in S6.
A flowchart showing a subroutine program for roll processing
It is. First, through S35 to S38,
Whether the D symbol stop flag is set or not, the C symbol stop
Whether the stop flag is set or not, the B symbol stop flag
Is set, A symbol stop flag is set
It is determined whether or not all symbols are stopped.
When the lag is not set, the process proceeds to S39. This D
The symbol stop flag is determined by the second symbol display LED 25d.
This is a stop flag related to the symbol to be displayed.
Set by S86 and cleared by S94. C
The symbol stop flag is determined by the first symbol display LED 25c.
This is a stop flag related to the symbol to be displayed.
Set by S71 and cleared by S84. B
The symbol stop flag is determined by the first symbol display LED 25b.
This is a stop flag related to the symbol to be displayed.
Set by S63 and cleared by S71. A
The symbol stop flag is determined by the first symbol display LED 25a.
This is a stop flag related to the symbol to be displayed.
Set by S56 and cleared by S63. Next, in S39, the big hit flag is set.
A determination is made as to whether or not they have been performed. This jackpot flag
Is set in S82 described later. So
If the big hit flag is set
The subroutine program ends, but the jackpot flag is
If it is not set, the process proceeds to S40 and the start memory
It is determined whether the counter is "0" or not.
In some cases, the subroutine program ends
However, if it is not "0", the process proceeds to S41. In S41
Determines whether the missed interval timer has expired.
Done. This departure interval timer will be described later.
Measure the short time of about 0.6 seconds set by S83
This is a timer that stops when the display result of the variable display
Necessary in order to allow the player to see the fact
It is what becomes. This miss interval timer expires
If not, the subroutine program
It ends, but when it ends, it advances to S42, displays the symbol
A process for calling the current value of the application counter is performed. This figure
The pattern display counter is determined by S11 to S19 described above.
It is controlled so that the count value changes repeatedly.
And the current symbol display counter is counted by S42.
The value is called. Next, the process proceeds to S43, where the data storage area
Processing for calling data in area 1 (see S33 and S34)
Is performed. Next, proceeding to S44, the start memory counter is set.
One is subtracted, and the process proceeds to S45, where the data stored in the data storage area is stored.
One by one in the direction from Area 4 to Area 1
Is performed. For example, data storage until now
The hit / miss data stored in area 2 of the area
When the processing of S45 is performed, the area of the data storage area
1 will be stored. Next, the process proceeds to S46, where S
Whether the data called by 43 is big hit data
Is determined, and if the data is a jackpot, S
Go to 47. In S47, the value of B of the calling symbol is an odd number.
It is determined whether or not it is an odd number.
And adjust the values of B and D of the call symbol to the value of A to obtain A = B
= D is stored as the current scheduled stop symbol
After that, the process proceeds to S55. On the other hand, the value of B of the calling symbol is
In the case of an even number, the process proceeds to S49, and the values of B and C of the calling symbol are set.
The planned stop diagram of this time is the value of A = B = C according to the value of A
A process for storing the pattern is performed, and the process proceeds to S55. Toes
If the called data is a big hit, the variable display
The display result at the time of variable stop of 3 is the same type of 3 symbols
The display is controlled so that it becomes a so-called double eye
But the call symbol B, that is, the symbol display LED 25b
If the value corresponding to is odd, A = B = D
Indication of 25a, 25b and 25d of design display LED
First set so that the result is the same kind of design
It is. Then, as described later, the symbol display LED 25
c when the symbol c is stopped, the symbol display LED 25c and the symbol display L
Control for exchanging display contents with the ED 25d is performed.
Finally, by the symbol display LED 25a, 25b, 25c
Control is performed so that symbols of the same type are stopped and displayed. one
On the other hand, if B of the calling symbol is an even number, the symbol is displayed from the beginning
LED 25a, 25b, 25c have the same type of design as stop system
It is set to be controlled. Next, the called data was not a big hit
If yes, go to S50 and check if the calling symbol is A = B = C
If A = B = C is not determined, S
Go to 52. On the other hand, if A = B = C, the process proceeds to S51.
Then, the process of adding "3" to the value of C of the calling symbol is performed.
After that, the process proceeds to S52. That is, the determination of NO is made by S46.
What is done is a table when the variable display device 3 is variably stopped.
It is necessary to control the results to be out of order.
If the occasional call symbol becomes A = B = C, it is controlled as it is.
Control result, the display result at the time of variable stop of variable display 3
Because it becomes a loose zigzag and the display result of the big hit
In S51, only the value of C in the calling symbol is changed.
"3" is added to force the display result of the symbol display LED 25c.
It is controlled so that the eyes are not displaced
It is. Next, in S52, the calling symbol becomes A = B = D.
It is determined whether or not
Proceed to S53 and leave the calling symbol as it is for this scheduled stop symbol
Is stored. On the other hand, A = B = D
If so, the process proceeds to S54, where the value of D of the calling symbol is changed.
The value obtained by adding “1” is stored as the current scheduled stop symbol.
Processing is performed. That is, as a result of the processing of S51, the variable table
Multiple variable display units of the indicating device 3 stop at different stop times
When controlled, the symbol display LEDs 25a and 25b
However, the same type of symbols is controlled to stop and temporarily reach
However, the display result of the symbol display LED 25c is the symbol display L
Species other than the symbols displayed by ED25a and 25b
It becomes a kind of design. As a result, as described later, the symbol display
The display contents of the LED 25c and the symbol display LED 25d are exchanged.
Control is performed, and the calling symbol is A = B = D
In the case of, the result
By each of the pattern display LEDs 25a, 25b, 25c
The stop-displayed pattern becomes the same type of so-called Zoro eyes
The combination of specific identification information that generates a big hit
In order to avoid such a state,
By 54, the value of D of the calling symbol is forcibly shifted by one.
Even if the display position is exchanged, the specific identification information
Is controlled so that the combination of
You. Then, the program proceeds to S55, in which the fluctuation speed control for each symbol is performed.
A process for clearing the counter is performed. For each of these symbols
The dynamic speed control counter is controlled by a variable display device.
Cowl to adjust the speed of the scroll display of symbols
For example, if the count value is "0",
The pattern changes every 16 msec, and the count value is "1"
In the case of, the design changes every 32 msec and counts
When the value is "2", the pattern changes every 64 msec.
You. These symbol variable speed control counters are described later in S.
60, S66, and S70, "1" is added at a time.
In step S88, "1" is subtracted. Next, proceed to S56.
The basic timer is set, and the A symbol stop flag is set.
And the subroutine program ends. This basic
Timer stops each symbol display LED in order
Basic time until stop of the first symbol display LED when making
The time is set, for example, for about 5 seconds.
Is done. The symbol LED control processing shown in FIG.
In the next execution of the control, the symbol A stop
Since the lag is set, YES in S38
After the determination is made, the process proceeds to S57 shown in FIG. In S57,
A design LED variation process, B design LED variation process, C design
LED fluctuation processing and D symbol LED fluctuation processing are performed, and S5
Proceed to 8. In S58, whether the basic timer has expired or not is determined.
Judgment is made, and if not finished,
The program ends. Meanwhile, the basic timer expires
If so, the process proceeds to S59, and the three scheduled stop symbols in FIG.
A determination is made as to whether it is before the handle. This S59,
Left figure for displaying symbols by symbol display LED 25a
The current address of the pattern LED data is from the scheduled stop pattern
Also determines whether or not the address corresponds to the symbol three places before
By performing this process,
Even when stopping, decelerate before stopping
Can be. And it is 3 symbols before A scheduled stop symbol.
If it is determined that the A symbol fluctuation speed is reached,
After incrementing the control counter by "1", go to S61.
move on. The variable speed control counter for the A symbol is "1" in.
By incrementing, the scrolling of the variable display device
Display speed from 16msec / dot to 32msec
/ Dot and change of symbol of LED25a
Speed slows down. Next, in step S61, the A symbol change becomes slow.
Is determined, and if it is not late,
The subroutine program ends as it is,
If so, proceed to S62, where the A symbol is the scheduled stop symbol
A determination is made as to whether the This S62 is a symbol display L
The current address of the LED data for ED25a is scheduled stop
It is to determine whether the address corresponds to the stop symbol.
You. And when the A symbol is not the planned stop symbol
The subroutine program ends as it is. And
Subroutine program of this symbol LED control processing
Ram is repeatedly executed, and the determination of S62 is repeatedly performed.
During that time, the symbol display LED 25a fluctuates
When the display symbol becomes the scheduled stop symbol, the process proceeds to step S62.
The determination of YES is made and the process proceeds to S63, where the A symbol stop flag is set.
Is cleared, the B symbol stop flag is set, and
The routine program ends. Sub of next pattern LED control processing
When the routine program is executed,
S37 because the B symbol stop flag is set
Is determined to be YES, the process proceeds to S64, and the B symbol L
ED change process, C design LED change process, D design LED change
Dynamic processing is performed. As a result, A design LED fluctuation processing
Is stopped, the symbol display LED 25a is stopped.
Stop control is performed. Next, proceed to S65 and stop at B
It is determined whether or not it is three symbols before the stop symbol.
If it is determined that the symbol is not in front, the process proceeds to S67,
If it is determined to be three symbols before, proceed to S66,
Increment the variable speed control counter for B symbol by "1"
Then, the process proceeds to S67, and it is determined whether or not the B symbol change has been delayed.
If the power is not delayed,
When the routine program ends, but becomes slow
Proceed to S68. In S68, whether the B symbol is the planned stop symbol
Is determined, and if it is not the scheduled stop symbol,
The subroutine program ends and the scheduled stop symbol
At this stage, the process proceeds to S69, where the scheduled stop symbol is A = B.
A determination is made as to whether or not it is. In other words, this S69
The system determines whether a so-called reach state has been established.
And if the reach state is not established,
Proceeds to S71, but if the reach state is established,
Proceeding to S70, the basic symbol stop C timer is set,
Increment the variable speed control counter for C symbol by "1"
Is performed. This C symbol stop basic timer is
When the reach state is established, the symbol display LED 25c changes.
Movement is performed for a predetermined time.
The time is set to about a second. And C design
Variable speed control counter is incremented by "1"
Therefore, the fluctuation speed of the symbol display LED 25c is 16 msec.
The speed is reduced from c to 32 msec. Next, proceed to S71,
The B symbol stop flag is cleared and the B symbol stop flag is
And the subroutine program ends. The next symbol LED control processing sub
When the routine program is executed,
Since the C symbol stop flag is set, S3
A determination of YES is made through 6 and the process proceeds to S72. S7
In 2, the process of changing the C symbol LED is performed. The result
As a result, the fluctuation process of the A symbol LED and the B symbol LED is performed.
Because there is no, the symbol display LED 25a, 25b is stop control
Is done. Next, the process proceeds to S73, in which the C and D symbol exchange flags
It is determined whether the flag is set. this
The C and D symbol exchange flags are, as described above, symbols.
The stop symbol of the display LED 25c and the symbol display LED 25d
It is necessary to replace the symbol in the variable display with
This flag is set in advance in the event that the
Set by 88 and cleared by S84.
If the C and D symbol exchange flags are set
Proceed to S75, but if not set, proceed to S74.
Proceed to S75 after the D symbol LED fluctuation process
No. In S75, has the basic symbol stop basic timer expired?
A determination is made as to whether or not it is. This C symbol stop basic timer
Is determined in step S7 when YES is determined in step S69.
It is set by 0 and the timer has expired.
If not, the subroutine program ends.
Until this C symbol stop basic timer expires
The value of the variable speed control counter of the display LED 25c is "1"
(See S73), the symbol display LED2
5c is a slow fluctuation speed of 32 msec / dot
Use to change the display symbol. Then, the basic symbol for stopping the C symbol
The process proceeds to S78 when the image is finished. In S78, C diagram
It is determined whether or not the pattern fluctuation speed has become slow.
At step S79, the C symbol becomes the scheduled stop symbol.
It is determined whether or not the process has been completed. In S80, the C and D symbol exchange flags are set.
It is determined whether or not it has been set.
If not, the process proceeds to S85, and the planned stop symbol is A = B =
A determination was made as to whether or not it was C, and a NO determination was made.
In this case, the process proceeds to S87, and whether or not the stop symbol is A = B
Is determined, and if A = B, the process proceeds to S88. Toes
That YES is determined by S87.
Is a table at the time of variable stop of the symbol display LEDs 25a and 25b.
The display result becomes the same type of design, and the design display LE
The scheduled stop symbol of D25c is symbol display LED 25a, 25
b is a different type of stop symbol.
In this case, in S88, the C and D symbol exchange flags are
Set, C and D symbols are exchanged, C symbol
The basic timer for stopping is set, and the variable speed control for the C symbol
The counter is decremented by "1" and the subroutine
Gram ends. By the process of S88, the symbol is displayed.
Symbol (for example, 4) and variable display when the LED 25c is stopped
Is replaced with the variable display symbol of the symbol display LED 25d.
When the stop symbol (for example, 4) of the symbol display LED 25c is
It is displayed on the symbol display LED 25d and
The pattern variably displayed by the pattern display LED 25d is the pattern
That the display is continuously variably displayed by the display LED 25c;
Become. Thus, the determination of YES is made in S87.
The second variable display section is still variably displaying
In the step, the stop display content of the first variable display section is
When the conditions for combination of certain identification information are not satisfied
Variable display that is the identification information that does not satisfy
Of the display of the stop of the unit and the table during the variable display of the second variable display unit
The indication is exchanged. As a result, the first variable display section
It will be variably started again. On the other hand, when the scheduled stop symbol is A = B = C,
Or, if the stop symbols A and B are different,
Proceeding to S86, the C symbol stop flag is cleared
, The D symbol stop flag is set and the subroutine
Gram ends. Further, the judgment of YES is made in S80.
If so, the process proceeds to S81, where the scheduled stop symbol is A = B = C.
It is determined whether or not there is, and if A = B = C is not satisfied,
Proceeding to S83, the miss interval timer is set,
If A = B = C, the process proceeds to S82 and the big hit flag
Is set and the jackpot interval timer is set.
Is set. This jackpot interval timer is variable
After the display device stop result is a combination of big hit symbols
Interval until the variable winning ball device is actually opened
It is for measuring time, for example, about 4 seconds.
The time is set. In this big hit interval time
This can give the player a sense of expectation,
The excitement can be further enhanced. Next, proceed to S84.
Only, the C symbol stop flag is cleared and the C and D symbols are replaced.
Flag is cleared and the subroutine program ends.
I do. Subroutine for the next symbol LED control process
When the routine program is executed,
Since the D symbol stop flag is set, S3
A determination of YES is made through 5 and the routine proceeds to S89. S89
Then, the variation processing of the D symbol LED is performed. The result
Result, fluctuation of A design LED, B design LED, C design LED
Since no processing is performed, the symbol display LEDs 25a, 2
5b and 25c are controlled to stop. Next, proceed to S90,
A determination is made as to whether the D symbol is a scheduled stop symbol,
If it is not a fixed stop symbol, the subroutine program
The ram ends, but if it is a planned stop symbol, S91
Proceed to. In S91, whether or not the stop symbol is A = B = C
Is determined. If A = B = C, go to S93.
The big hit flag is set and the big hit
After the global timer is set, the process proceeds to S94. On the other hand, S
If the determination at 91 is NO, the process proceeds to S92.
After the off interval timer is set,
move on. In S94, after the D symbol stop flag is cleared
The subroutine program ends. FIG. 10 shows steps S57, S64, S72 and S7.
4 shows a subroutine program indicated by S89.
FIG. 9A is a flowchart of the A symbol variation process.
Shows a routine program, and (b) shows a B symbol variation process.
Shows the subroutine program, and (c) shows the C symbol variation
The subroutine program of processing is shown, (d) is a D symbol
Flowchart showing a subroutine program for fluctuation processing
It is. At S89, the A symbol LED timer ends.
A determination is made as to whether the process has been completed. And not finished
In this case, the subroutine program ends and
Upon completion of the determination, YES is determined in S89 and S9
0, according to the value of the variable speed control counter for A symbol
The A symbol LED timer is set and the next data address
Is set. A symbol set by this S90
As described above, the LED timer is used for the A symbol fluctuating speed.
16 m when the count value of the control counter is “0”
s, the timer value is set to 32 ms when the count value is “1”.
Is set. As a result, for example, the variable speed control for the A symbol
If the count value of the counter is "0",
Because it is set, S8 until 16 ms elapses
The determination of NO is repeated by 9 and 16 ms elapses.
At step S89, a determination of YES is made in S89, and
Will set the A symbol LED timer, and the next data
The dress is set. Next data address
Is the current symbol among the addresses of the symbol LED data
Add the LED data for the symbol displayed by the display LED
Address next to the address
You. Next, the process proceeds to S91, where the A symbol LED data is completed.
Is determined, and if it has not been completed yet
Indicates that the subroutine program has been terminated and
At the stage where the LED data is completed, a judgment of YES is made in S91.
Then, the process proceeds to S92. Specifically, the symbol display LE
Figure required to display all kinds of symbols in D
The address of the pattern LED data is 70 in this embodiment.
29 to 729F.
Dress is set, A pattern fluctuates and address is 728
When it becomes 1, the determination of YES is made in S91.
Then, the process proceeds to S92, where the top address (in the present embodiment,
Is set to 7029) and the subroutine program is
finish. This top address indicates the symbol “0”.
The youngest address among the 8 addresses required to indicate
The details will be described later. FIGS. 10 (b), (c), and (d) show that
B design change processing subroutine program, C design change
Dynamic processing subroutine program, D symbol fluctuation processing subroutine
FIG. 10 is a flowchart showing a routine program, and FIG.
Since the processing is the same as the processing (a) of FIG.
Is omitted. It should be noted that the "variation speed control card for C symbol"
Unta "takes three values," 0 "," 1 ", and" 2 ".
Therefore, the set time of the C symbol LED timer is also
16ms, 32ms, 64m depending on the count value
s is set to three types of time. By the above S35 to S104, the first
Variably starting the first variable display section and the second variable display section,
Next, while the second variable display section is variably displaying, the first variable display section performs the first variable display.
Variable display system that derives and displays the display results of the variable display section
Control means are configured. A total of three rows consisting of three columns vertically and three columns horizontally.
It has nine variable display units in three rows and three horizontal rows of three rows.
A total of 5 hit lines, one on the diagonal and two on the diagonal
After all variable display units are started to change,
The variable display in the left column is variably stopped, and then the variable
The display is variably stopped, then the middle row of the right column is variably displayed.
Section is controlled to stop, and finally the upper and lower rows in the right column can be changed
Variable display device configured to control display to stop
It may be. In that case, the left column and the center column are variable
When stopped, on the center horizontal row
Only the condition that the combination of the specific identification information (777) is satisfied
When the display result (for example, 77) is added,
The next stop pattern in the middle row of the right column is
For example, the condition that becomes "4" and becomes a combination of specific identification information
When it is no longer satisfied,
The display contents of the variable display section (for example, 4)
Variable display section during variable display, that is, upper and lower rows in the right column
Swap with any one of the variable display units
You may make it. In this case, the first variable
The display unit is a variable display unit in the left column and the center column, stop control
At the stage where the reach state is established
It means a certain variable display unit. The second variable display unit is the left
Reach state when the variable display part of the row and the center row is stopped
Variable table on hit line other than hit line
Indicates a variable display section that is still a variable display section.
The Rukoto. In the embodiment described above, the first
The display result of the variable display section is not in a specific display mode.
The display result is displayed on the second variable display
The display result of the variable display device
Is displayed on the second variable display section
Display results (for example, "4")
Check if the place matches the lucky number you decided
And if it matches the lucky number,
Game value such as prize balls acquired by the player due to the occurrence of a hit
A playground that can be used for replays without exchanging prizes
To give a certain privilege to the player
Good. In other words, the playground is today's lucky number
For example, if you decide to "4", exchange the display symbols
By the first variable display unit that has been re-variably stopped after the
If the big hit is displayed and the big hit is displayed, the second
The display symbol displayed by the variable display section of
If it corresponds to the key number, the above-mentioned
Give certain benefits. Also, in the present embodiment, the first
The symbol display LED 25c, which is a variable display section, is re-variably displayed.
When displaying, the symbol table which is the second variable display section in the variable display
The display contents of the display LED 25d are continuously displayed by the design display LED 25
Although the variable display was performed by c, instead of this,
A variable table of the symbol display LED 25d which is a second variable display section
Graphic display of separate variable display contents completely unrelated to display contents
You may make it variably display by LED25c. Further, the variable display device 3 is, for example,
It may be something like displaying a video of a Cushing match.
The video display won by the technician's boxer will be performed
More specifically, the specific display mode may be configured.
No. That is, the variable display device 3 displays a plurality of types of identification information.
Not only switching display or scrolling display,
Also, after the display result is derived and displayed,
The video may continue to move and be variably displayed.
No. The first variable display sections 25a to 25c
Display state can be changedMultiple firstVariable display unit
Has been established.Display state by symbol display LED 25d
The second variable display unit is configured so as to be able to change.Said
S8 to S10, S32, S34, S46 to S49
AboveMultiple firstDetermine the display result of the variable display section
Display result determining means is configured. According to S46 to S48 and S88, the aforementioned
The display result is displayed by the display result determining means in the specific display mode.
If it is determined thatThe plurality of first
Variably starting the variable display section and the second variable display section
AfterSaidMultiple firstThe specific table is displayed by the variable display
Display mode other than the display modeDerivedDisplayFirst
Control, and after the first control, the plurality of first variable display units
First variable display that does not constitute the specific display mode
Display contents of the section and the display of the second variable display section during variable display
The first variable display section is replaced by replacing the
A second control for variably starting, and the second control after the second control.
The display result of the first variable display unit is derived and displayed, and the plurality of first display units are displayed.
The display result of the first variable display unit is set to the specific display mode.
Re-variation control determination for determining whether or not to perform third control
Means are configured.The microcomputer 3
5, display by the segment / LED drive circuit 32
The decision contents of the result decision means and the decision
According to the prescribed contentsFirst and secondControl the variable display
Variable display control means for controlling the display. [0053] According to the first aspect of the present invention,
By the re-variation control decision meansThe first to thirdTake control
If it is decided thatMultiple firstVariable table
After the display mode is once displayed by the indicator, The plurality
Of the first variable display section does not constitute a specific display mode
Display contents of the first variable display section and second variable during variable display
First variable by exchanging the display content of the display unit
The display isRe-variable display, then display specific display mode
To be derived and displayed as a result, try to be a player
For example, after the variable display, the display mode is displayed
It is re-displayed where it was running and finally identified
Display mode is derived and displayed as the display resultBy, Re
Identify at the stage of variable displayDisplay modeHave expectations for
And finally a specific display mode is derived and displayed
Being able to taste great excitement. This allows
The display result is derived and displayed in one variable display operation, and the display result is displayed.
To determine the player's unsatisfactory
The force can be prevented. [0054]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall front view showing a pachinko gaming machine as an example of a gaming machine. FIG. 2 is an overall front view of the variable display device. FIG. 3 is a block diagram showing a control circuit used in the pachinko gaming machine. FIG. 4 is an operation explanatory diagram for explaining a change in a variable display state of the variable display device. FIG. 5 is a flowchart for explaining the operation of the control circuit shown in FIG. 3; FIG. 6 is a flowchart for explaining the operation of the control circuit shown in FIG. 3; FIG. 7 is a flowchart for explaining the operation of the control circuit shown in FIG. 3; FIG. 8 is a flowchart for explaining the operation of the control circuit shown in FIG. 3; FIG. 9 is a flowchart for explaining the operation of the control circuit shown in FIG. 3; FIG. 10 is a flowchart for explaining the operation of the control circuit shown in FIG. 3; [Description of Signs] 3 is a variable display device, 4 is a variable winning ball device, 25a, 25
b, 25c are symbol display LEs constituting the first variable display section
Symbols D and 25d designate a symbol display LE constituting the second variable display section.
D and 27 are lamps, 10a, 10b and 10c are start winning holes, and 35 is a microcomputer.

Claims (1)

(57) [Claims 1] A plurality of first variables whose display state can be changed
A variable display device display and the display state has a second display portion capable of change, when the plurality of first variable display portions of the display result becomes a specific display mode predetermined
And a value giving control means for giving a predetermined game value to the gaming machine. A display result determining means for determining a display result of the plurality of first variable display portions; If it is determined that said specific display mode the display result by means of the plurality of first variable
The variable display section and the second variable display section are variably started.
After a first control to temporarily deriving Show off display mode other than the specific display mode by said plurality of first display portion
Controlling the plurality of first variable display units after the first control.
A first variable display unit that does not constitute the specific display mode
Display contents and display contents of the second variable display section during variable display
The first variable display section is enabled again by exchanging
A second control for starting the change, and the first control after the second control.
The display result of the variable display unit is derived and displayed, and the plurality of first
The display result of the variable display unit of the
3 of the control and the re-variation control determining means for determining whether or not to, the first and second variable display unit and the determined contents according the determined content of the re-change control decision means of the display result determining means A gaming machine comprising: a variable display control means for controlling the game machine.