EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described concretely, referring drawings.
Composition of Organic Group 1
First, the structure of an organic group is demonstrated concretely with reference to FIG. 1 is a front view showing an example of the organic group of the present invention, and two organic groups 1 are provided side by side.
The organic group 1 includes one organic group unit 100 and supports the organic group unit 100 by the organic body frame 300. In the organic unit 100, as described later, the organic sphere 500 is fired by the firing operation of the organic atom, and the organic sphere 500 is fired by the fired organic sphere 500.
In addition, a coin inlet 201 into which a coin (for example, 100 yen), which is a predetermined amount of money, is inserted into the organic medium unit 100 in a lower direction, and a ticket is inserted into the organic medium unit 100. Coin return to the coin return 204 when the coin is put in the coin outlet 202, the coin return 204 for returning the coin put into the coin inlet 201, and the coin put into the coin inlet 201 A return lever 205 for returning is provided. When a coin of a predetermined amount (for example, 100 yen) is inserted into the coin inlet 201, the organic sphere is fired at the organic unit unit 100 for a predetermined organic time (for example, 30 seconds). do. And every time the organic sphere 500 enters into any one of the general openings 7, the 1st starting opening 9, the 2nd starting opening 10, and the entrance opening 11 in 1 play abandonment (FIG. 2) One ticket is dispensed at the ticket dispensing outlet 202.
Here, "one-play organic" refers to an organic in which a predetermined input medium is stored and the firing operation of the organic sphere is effective, and the one-play organic is executed until a predetermined end condition is established. In addition, in this embodiment, a predetermined | prescribed induction time (for example, 30 second) passes in this embodiment, and all the lottery drawing of the random drawing value for the special picture determination stored in the reserved memory is also finished, and it is non-winning. It may be a predetermined end condition that simply passes a predetermined time, a predetermined number of organic spheres are fired, or a predetermined number of organic spheres enters an outlet in an embodiment to be described later.
In addition, the ticket dispensing from the ticket dispensing outlet 202 is implemented so that anti-counterfeiting techniques, such as an authentication number and a barcode, are implemented, and it is comprised so that it can be distinguished from the fake ticket.
The ticket dispensing motor 202a and the ticket control board 200 for driving the ticket dispensing motor 202a are provided inside the organic device 1, and at least two tickets are inserted into the ticket dispensing motor 202a. Rollers (not shown) are provided. Each time the ticket dispensing motor 202a rotates in the forward direction for one second, the two rollers also rotate to the ticket dispensing outlet 202, and one ticket is discharged to the ticket dispensing outlet 202 between the two rollers. It is.
In this embodiment, the ticket dispensing motor 202a and the ticket control substrate 200 constitute dispensing means.
In addition, a data indicator 203 corresponding to each organic group unit 100 is provided in an upper direction of each organic group unit 100. This data display unit 203 includes a data display unit 203a composed of a dot matrix display unit having a plurality of light emitting units (for example, LEDs), and organic information per play is displayed on the data display unit 203a. Although details will be described later, the maximum number of tickets issued per play ("Today's MAXPAYOUT") and the maximum number of wins per play ("Today's MAXBONUS") are displayed on the data display unit 203a.
In this embodiment, the data display unit 203 constitutes organic information display means.
Configuration of Organic Unit 100
Next, the structure of the organic group unit 100 will be described in detail with reference to FIGS. 2 to 4. 2 is a front view of an organic group unit 100 of the present invention, Figure 3 is a perspective view of the organic group unit 100 in a state that the glass frame is open, Figure 4 is an organic group unit 100 Backside view of the.
The organic group unit 100 includes an organic panel 2 having an organic region 6a through which the organic sphere 500 flows, and a glass frame 110 on the front surface of the organic panel 2 of the organic region 6a. It is provided. In the glass frame 110, an operation handle 3 for firing the organic sphere toward the organic region 6a is rotatably provided.
In addition, the organic group unit 100 is provided with a storage plate 40 for storing the plurality of organic spheres 500 and inducing the organic spheres toward the weight 4b (see FIG. 3) for squeezing the organic spheres. The storage plate 40 has a downhill slope in the direction of the weight 4b, and the organic sphere is sent to the firing rail 42 via an opening 41 provided in the glass frame 110 back surface. The launch rail 42 also has a downhill slope in the direction of the weight 4b, and a stopper 43 for stopping the organic sphere is provided above the tip of the downhill slope of the launch rail 42.
Therefore, the organic sphere 500 sent from the opening part 41 is commutated one by one at the edge of the launch rail 42 (refer FIG. 3).
When the operator rotates the operation handle 3, the firing volume 3a made of the variable resistor directly connected to the operation handle 3 also rotates. Here, the weight 4b is directly connected to the firing solenoid 4a made of a rotary solenoid, so that when the firing solenoid 4a is rotated, the weight 4b also rotates.
The launch control substrate 106 excites the firing solenoid 4a to thereby extract the organic sphere 500 stored at the end of the launch rail 42 at the launching intensity corresponding to the firing volume 3a. Is fired toward the organic region 6a.
In this embodiment, the launching volume 3a constitutes a launch operation detecting means, and the launching solenoid 4a and the launch control substrate 106 constitute a launching device directly connected to the weight 4b.
The organic spheres fired as described above rise between the rails 5a and 5b from the firing rail 42 and cross the bead prevention piece 5c to reach the organic region 6a, and then drop the organic region 6a. . At this time, the organic spheres fall to an unpredictable place by a plurality of nails or windmills provided in the organic region 6a. That is, the launch rail 42, the rails 5a and 5b, and the bead prevention piece 5c of this embodiment constitute an induction path for inducing organic spheres to the organic region 6a, and the bead prevention piece 5c. The area where the organic sphere falls over) constitutes the organic area 6a.
In addition, a plurality of general granular openings 7 are provided in the organic region 6a. Each of these general standing mouths 7 is provided with a general standing mouth detection switch 7a, and one ticket is issued each time the general standing mouth detecting switch 7a detects that the organic mouth has entered.
Further, in the upper direction of the general granular opening 7 in the organic region 6a, a normal picture gate 8 through which the organic sphere can pass is provided. The gate 8 is provided with a gate detection switch 8a for detecting the passage of the organic sphere. When the gate detection switch 8a detects the passage of the organic sphere, a "normal drawing lottery" described later is executed. .
In the lower portion of the organic region 6a, a first start port 9 into which an organic sphere can enter is provided, similarly to the general granular opening 7. A second starter 10 is provided directly under the first starter 9. The second starter 10 includes a pair of movable pieces 10b, a first form in which the pair of movable pieces 10b is kept closed, and a pair of movable pieces 10b are opened. Operation control is carried out in the second mode to be in a state. When the second starting opening 10 is controlled in the first form, the first starting opening 9 located directly above the second starting opening 10 becomes an obstacle, and thus the organic opening cannot be accommodated or accommodated. This is difficult. On the other hand, when the second starter 10 is controlled in the second form, the pair of movable pieces 10b function as a storage plate, so that the organic sphere can easily enter the second starter 10. do. That is, when the second starter 10 is in the first form, there is almost no opportunity to enter the organic sphere, and in the second form, the opportunity to enter the organic sphere increases.
In addition, the first start port 9 and the second start port 10 are provided with a first start port detection switch 9a and a second start port detection switch 10a, respectively, for detecting the entry of organic spheres. When these detection switches detect that an organic sphere has entered, the "lottery drawing lottery" mentioned later is performed. In addition, one ticket is dispensed each time the detected organic sphere is detected.
In the present embodiment, the first starting opening 9 and the second starting opening 10 constitute a starting entrance port, and the first starting opening detecting switch 9a and the second starting opening detecting switch 10a detect the starting opening. Configure the means. In addition, in this embodiment, a pair of movable pieces 10b comprise a variable granular apparatus.
In addition, an entrance mouth 11 is provided in the lower direction of the second start port 10. Since the entrance mouth 11 is normally kept closed by the entrance door opening and closing door 11b, it is impossible for the organic ball to enter. On the contrary, when the special organic matter described later starts, the entrance opening / closing door 11b is opened and at the same time, it serves as a storage plate for drawing the organic sphere into the entrance mouth 11, so that the organic sphere can enter the entrance mouth 11. The charging entrance port 11 is provided with a charging entrance port detection switch 11a, and one ticket is issued each time the entrance entrance detection switch 11a detects that the organic ball has entered.
In the present embodiment, the general winning mouth 7, the first starting opening 9, the second starting opening 10, and the entrance mouth 11 constitute a predetermined winning mouth, and the general winning exit detecting switch 7a and the first opening are formed. The one start switch detection switch 9a, the second start switch detection switch 10a, and the stand-up ball detection switch 11a constitute the granular ball detection means. In addition, when the entrance mouth 11 constitutes a special prize opening, the entrance mouth opening / closing door 11b comprises the special variable standing apparatus.
The lower part of the entrance mouth 11, that is, the lowermost part of the organic region 6a, is located anywhere in the general entrance mouth 7, the first start mouth 9, the second start mouth 10, and the entrance mouth 11. Outlets 12 are provided for discharging organic spheres that have not gone.
In addition, the organic gas unit 100 is provided with an outlet guide path 44 for guiding the organic spheres entering the outlet 12 to the storage plate 40. By this outlet guide path 44, when the organic sphere emitted through the storage plate 40 enters the outlet 12, it returns to the storage plate 40 again.
In addition, the rear surface of the organic panel 2 is also provided with a granular ball induction furnace for guiding the organic spheres entering into the granular ball in the outflow induction path 44 (not shown), and as a result, was fired through the storage plate 40 The organic spheres are all configured to return to the storage dish 40, and the organic spheres are configured to circulate in one organic group unit 100.
On the storage plate 40, a lid 45 is provided to cover the storage plate 40 so that the organic spheres in the storage plate 40 cannot be taken out. Therefore, in this embodiment, even if the emitted organic sphere returns to the storage dish 40, organic sphere will not be taken out.
In the center of the organic panel 2, a decorative member 14 that affects the flow of organic spheres is provided. Directing display device 13 made of a liquid crystal display (LCD) or the like is provided at substantially the center of the decorative member 14, and directed to the right side of the directing display device 13 made of a figure of a sword shape. A water service device (15; 演出 用 役 物 裝置) is installed. In the present embodiment, a liquid crystal display is used as the directing display device 13, but a reel made of a ring-shaped structure or a display device such as a so-called seven-segment LED and dot metrics may be used.
The directing display device 13 displays an image in the air which does not cause abandonment, or displays an image corresponding to the progression of abandonment. Among them, nine directing pictures 30, three vertically and three horizontally, are displayed as a directing drawing 30 for informing the result of the winning prize, which will be described later, and on any one of eight lines of vertical, horizontal and inclination. The specific winning combination 30 (for example, 777, etc.) is displayed freeze, and the winning prize is notified as a result of the winning prize drawing. Specifically, when the organic sphere enters the first starter 9 or the second starter 10, nine directing pictures 30 are scrolled and displayed, and the scroll is stopped after a predetermined time. The production picture 30 is to be stopped. In addition, by displaying various images, characters, and the like in the change display of the directed picture 30, a high expectation that the winner may be won is given to the instructor.
The directing counter water apparatus 15 gives expectation to an organic person by this operation form, for example, performs the operation | movement which pulls out a sword from a sheath. Various types of expectations are given to the organic person by the operation mode of the directing counter water apparatus 15.
The lighting device 16 for directing is provided in the upper part and the lower part of the said organic panel 2, The lighting device 16 for directing is provided with the several light 16a, respectively, and the irradiation of each light 16a ( Various direction is produced by changing the direction of light and the color of emitted light.
On the left side of the operation handle 3 is provided a production button 17 which can be pushed by the operator. This directing button 17 is effective only when a message is displayed on the directing display device 13 to operate the corresponding directing button 17. The directing button detecting switch 17a is provided in the directing button 17. When the directing button detecting switch 17a detects an operator's operation, new directing is executed according to this operation.
Although not shown in Fig. 2, the organic output unit 100 is provided with a voice output device 18 (see Fig. 5) made of a speaker, so that the voice output added to each of the directing devices is also executed.
The first special picture display device 19, the second special picture display device 20, the normal picture display device 21, the first special picture display indicator 22, and the second special picture display device 19 are located at the lower right side of the organic region 6a. A special picture hold indicator (23) and a normal picture hold indicator (24) are installed.
The first special picture display device 19 informs the result of the winning prize drawing executed in response to the entry of the organic sphere into the first start port 9, and is composed of seven segment LEDs. That is, a plurality of special pictures corresponding to the winning result are provided, and a special picture corresponding to the winning result is displayed on the first special drawing display device 19 to inform the owner of the drawing result. For example, "7" is displayed in case of winning a prize and "-" is shown in case of a non-winning. The "7" or "-" displayed in this way becomes a special picture. The special picture is not displayed immediately, but stops after a change display for a predetermined time.
Here, the "winning lottery" refers to a process of acquiring a special picture determination random number when the organic sphere enters the first starter 9 and determining whether the acquired random picture determination random number is a winner. . The result of the winning draw is not immediately known to the owner, and the first drawing of the special drawing display device 19 displays a change in flashing light, and then responds to the drawing result when a predetermined change time has elapsed. A special picture is displayed and the winner is informed of the result. In addition, the second special picture display device 20 is for informing the result of the winning draw executed by the entry of the organic sphere into the second starter 10, the display form of the first special picture display device ( It is the same as the display form in 19).
In addition, the normal picture display apparatus 21 is for informing the result of the normal picture lottery which is executed as an occasion that the organic sphere has passed through the normal picture gate 8. Although details will be described later, the ordinary picture display device 21 is turned on when the ordinary picture drawing is won, and the second start port 10 is controlled in the second form for a predetermined time.
Here, the "normal picture lottery" refers to a process of acquiring a random picture value for normal picture determination when an organic sphere passes through the normal picture gate 8, and determining whether or not the acquired random picture value for normal picture determination is a normal prize. . Even in the result of the drawing of the normal picture, the organic sphere passes through the normal picture gate 8 and the result of the drawing is not immediately known. When the change time has elapsed, the normal picture corresponding to the result of the drawing of the normal picture is displayed at a stop so that the winners can be notified.
If the drawing is not carried out immediately during the display of the change of the special drawing or during the special organic matter described later and the organic ball enters the first starter (9) or the second starter (10), the right to win the draw is held within a certain condition. do. More specifically, the special figure determination random number value obtained when the organic sphere enters the first starter 9 is stored as the first hold, and the special acquired when the organic sphere enters the second starter 10 is stored. The random number value for picture determination is stored as the second hold.
The upper limit holding number of these two holdings is set to four, and the holding numbers are displayed on the first special drawing holding indicator 22 and the second special drawing holding indicator 23, respectively. Specifically, when the first hold is one, the leftmost LED of the first special picture hold indicator 22 lights up, and when the first hold is two, two LEDs of the first special picture hold indicator 22 are lit. Lights up. In addition, when the first hold is three, the left LED of the first special picture hold indicator 22 blinks and the right LED is turned on. When the first hold is four, the first special picture hold indicator 22 is turned on. 2 LEDs blink. In the second special picture holding indicator 23, the holding number of the second holding is displayed similarly to the above.
In addition, the upper limit holding number of the ordinary picture is also set to four, and the holding number is displayed on the normal picture holding indicator 24 in the same form as the first special picture holding indicator 22 and the second special picture holding indicator 23. .
The glass frame 110 supports the glass plate 112 covered so that the organic region 6a can be visually checked from the front of the organic plate 2 (organic side), and the glass plate 112 is detachable from the glass frame 110. It is possibly fixed.
In addition, the glass frame 110 has one end (for example, the left side facing the front of the organic group unit) connected to the outer frame 120 through the hinge mechanism 111 in the left and right, and the hinge mechanism 111 It is possible to rotate so that the other end (for example, the right side facing the organic group unit in front) from the outer frame 120 is opened at the point. The glass frame 110 covers the organic panel 2 together with the glass plate 112, and rotates like a door by using the hinge mechanism 111 as a point to open the inner part of the outer frame 120 including the organic panel 2. can do. The other end of the glass frame 110 is provided with a locking mechanism that can be fixed to the outer frame (120). The lock by the locking mechanism can be released by a dedicated key. Moreover, the door open switch 30 which detects whether the glass frame 110 is open from the outer frame 120 is also provided in the glass frame 110. As shown in FIG.
The main substrate 101, the directing control substrate 102, the frame control substrate 103, the power supply substrate 107, the organic information output terminal 108, and the like are provided on the rear surface of the organic substrate unit 100. In addition, the power supply board 107 is provided with a power plug 50 or a power switch (not shown) for supplying power to the organic base unit 100.
Internal structure of the control means
Next, a description will be given of the control means for controlling the organic progression using the entire block diagram of the organic group unit in FIG.
The main control board 101 is a main control means for controlling the basic operation of the induction, and inputs various detection signals such as a game permission signal from the ticket control board 200, the first start switch detecting switch 9a, and the like. The image display device 19, the entrance opening / closing solenoid 11c, and the like are driven to control abandonment, and it is determined whether to issue a ticket as a result of abandonment, and to issue a ticket to the ticket control board 200. Outputs a ticket dispensing signal indicating a ticket dispensing.
In this embodiment, the main control board 101 constitutes an organic controller.
The main control board 101 is provided with a main CPU 101a, a main ROM 101b, a main RAM 101c, an input port and an output port (not shown) for the main control.
The main port input port has organic spheres in the ticket control board 200, the frame control board 103, and the general mouth opening detection switch 7a and the gate 8 which detect that organic spheres have entered the general mouth 7. Detects that the organic sphere has entered the gate detecting switch 8a for detecting the entry and the first starting gate detecting switch 9a for detecting the entry of the organic sphere in the first starting opening 9 and the second starting opening 10. The second start opening detection switch 10a and the entrance opening detection switch 11a for detecting that the organic sphere has entered into the entrance opening 11 are connected. Various signals are input to the main control board 101 by this main control input port.
In addition, a main entrance output opening / closing solenoid for opening / closing the starting opening / closing solenoid 10c and the entrance opening / closing door 11b for opening and closing the pair of movable pieces 10b of the second starting opening 10 ( 11c), the first special picture display device 19 and the second special picture display device 20 for displaying a special picture, the normal picture display device 21 for displaying a normal picture, and the first special picture retention number for displaying a special picture. A special picture hold indicator 22, a second special picture hold indicator 23, a normal picture hold indicator 24 for displaying the number of normal picture hold numbers, and an organic information output terminal plate 108 for outputting an external information signal are connected. . Various signals are output by this main output port.
The main CPU 101a reads a program stored in the main ROM 101b based on an input signal from each detection switch or timer and performs arithmetic processing, and directly controls each device or display device or outputs a result of the arithmetic processing. Therefore, a command is sent to another substrate. In addition, when a predetermined amount of coins (for example, 100 yen) is put into the coin input hole 201, the main CPU 101a is transferred to the launch control substrate 106 through the frame control substrate 103 for a predetermined organic time. Outputs a firing permission signal allowing firing.
The main ROM 101b stores a program for organic control, data necessary for various organic crystals, and a table.
For example, a general winning decision table (see Figs. 8 (a) and 8 (b)) which is used to determine whether or not to win a winning prize, or a normal drawing which is referred to when determining whether or not to win a regular drawing. Based on the winning decision table (see Fig. 8 (c)), the picture determination table for determining the still picture of the special picture (see Fig. 9), and the setting data at the end of the winning win for determining the probability distraction state based on the still picture data of the special picture. A table (see Fig. 10) and the like are stored in the main ROM 101b. Specific examples of these various tables will be described later with reference to FIGS. 8 to 9.
The above-mentioned table is only a characteristic example among the tables in this embodiment, and many tables (not shown) and programs are provided in addition to organic progression.
The main RAM 101c functions as a work area for data when the main CPU 101a performs arithmetic processing, and has a plurality of storage areas.
For example, in the main RAM 101c, one play timer counter, one ticket counter, one play entrance counter, one play storage area, launch permission data storage area, game start flag storage area, and normal picture hold number (G) are included. Memory area, normal picture hold memory area, first special picture hold number (U1) memory area, second special picture hold number (U2) memory area, judgment memory area, first special picture memory area, second special picture memory area , Round organic count (R) memory area, Entrance entrance counter (C) memory area, Organic state memory area, Still picture data memory area, Normal picture data area, Directed transfer data storage area, Special picture time counter, Normal Picture Time counter and special organic timer counter are installed. The organic state memory area is a high probability organic flag memory area, a special picture special motor work (hereinafter referred to as "special privilege") processing data storage area, and a normal picture normal motor work (hereinafter referred to as "preservation maintenance". A process data storage area. The above-mentioned storage area is also an example only, and many other storage areas are provided.
In the present embodiment, the main RAM 101c for storing the first special picture storage area and the second special picture storage area constitutes a holding memory means.
The organic information output terminal plate 108 is a substrate for outputting an external information signal generated by the main control substrate 101 to a hall computer of an organic point. The organic information output terminal plate 108 is wired and connected to the main control board 101, and a connector for connecting external information to a hall computer of an organic store or the like is provided.
The power supply board 107 is provided with a backup power supply made up of a capacitor. The power supply board 107 supplies a power supply voltage to the organic device unit, and monitors the power supply voltage supplied to the organic device unit to detect the front end when the power supply voltage is less than a predetermined value. The signal is output to the main control board 101. More specifically, when the front end detection signal reaches a high level, the main CPU 101a becomes an operable state, and when the front end detection signal reaches a low level, the main CPU 101a enters an operation stop state. A backup power supply is not limited to a capacitor | condenser, For example, you may use a battery or may use a capacitor and a battery together.
The direction control substrate 102 mainly controls each direction, such as in the organic or atmospheric air. The directing control board 102 includes a sub-CPU 102a, a sub-ROM 102b, and a sub-RAM 102c, and is connected so as to enable only one-way communication from the main control board 101 to the directing control board 102. It is. The sub-CPU 102a reads a program stored in the sub-ROM 102b based on a command sent from the main control board 101 or an input signal from the production button detection switch 17a timer, and performs arithmetic processing. The data based on the processing is transmitted to the lamp control board 104 or the image control board 105.
The subRAM 102c functions as a work area for data when the sub CPU 102a performs arithmetic processing.
The sub-ROM 102b of the director control substrate 102 stores a program for director control data, data necessary for determination of various kinds of induction, and a table.
Specifically, the direction pattern determination table for determining the direction pattern based on the fluctuation pattern designation command received from the main control board, the direction picture determination table for determining the combination of the direction picture 30 to stop display (see FIG. 11), and the like. It is stored in this subROM 102b. The above-mentioned table is only a characteristic example of the table in this embodiment, and many tables and programs (not shown) are provided in addition to organic progression.
The subRAM 102c of the production control substrate 102 functions as a data work area when the sub CPU 102a performs arithmetic processing, and has a plurality of storage areas.
Specifically, a command reception buffer, an organic state memory area, a direction pattern memory area, a direction picture memory area, and the like are provided. The above-mentioned storage area is also an example only, and many storage areas are provided in addition.
The frame control board 103 controls error detection and information exchange between the main control board 101 and the launch control board.
The frame control substrate 103 is provided with a dispensing CPU, a discharging ROM, and a discharging RAM (not shown), and is connected to the main control substrate 101 so as to enable bidirectional communication. The dispensing CPU reads the program stored in the dispensing ROM based on the input signal from the door opening switch 30 or the timer, performs arithmetic processing, and transmits data corresponding to the processing to the main control board 101. . At this time, the dispensing RAM serves as a data work area when the dispensing CPU performs arithmetic processing.
In addition, when the launch permission signal is input from the main control board 101, the launch permission signal is output to the launch control board 106.
The lamp control board 104 controls driving of the lighting device 16 installed in the organic panel 2 or controls a motor for changing the irradiation direction of light. In addition, energization control is performed for a driving source such as a solenoid or a motor for operating the directing counterweight device 15. The lamp control substrate 104 is connected to the directing control substrate 102, and the respective control is performed based on the data transmitted from the directing control substrate 102.
The image control substrate 105 is provided with an image CPU, an image ROM, an image RAM, a VRAM and an audio CPU, an audio ROM, and an audio RAM (not shown) for performing image display control of the directing display device 13. The image control board 105 is connected to the production control board 102 so as to enable bidirectional communication, and the output display device 13 and the audio output device 18 are connected to the output side.
The image ROM stores a large number of image data such as a production picture 30 and a background displayed on the production display device 13, and the image CPU reads a predetermined program based on a command sent from the production control board 102. At the same time, predetermined image data is read from the image ROM into the VRAM, and display control of the directing display device 13 is performed. In addition, the image CPU executes various image processing such as a background image display process, a directed picture display process, and a character image display process in the direction display device 13, wherein the background image, the direction picture image, and the character image are displayed on the direction display device 13. ) Are superimposed on the display screen.
That is, the directed picture image or character image is displayed to be displayed before the background image. At this time, when the background image and the picture image overlap at the same position, the picture image is preferentially stored in the VRAM by referring to the Z value of the Z buffer of each image data by a well-known sound suppression method such as the Z buffer method.
In addition, a large number of voice data output from the voice output device 18 is stored in the voice ROM, and the voice CPU reads a predetermined program based on a command transmitted from the production control board 102, and at the same time the voice output device ( 18) to control the audio output.
The ticket control board 200 stores a coin (for example, 100 yen), which is a predetermined amount as an input medium, inserted into the coin inlet 201, and receives a game permission signal for permitting abandonment of one play on the main control board 101. At the same time as the output, the ticket dispensing motor 202 is driven to dispensing the ticket and displaying the organic information on the data display 203.
In this embodiment, the ticket control board 200 constitutes a reception control unit.
The ticket control board 200 includes a ticket CPU 200a, a ticket ROM 200b, a ticket RAM 200c, and a ticket control input / output port (not shown). The main control board 101, the organic information output terminal board 108, the coin detection switch 201a, the ticket dispensing motor 202a, and the data display unit 203 are connected to the ticket control input / output port. Through this ticket control input / output port, the coin input signal output from the coin detection switch 201a, the one-play signal, the ticket dispensing signal, and the winning signal output from the organic information output terminal board 108 are input. The game permission signal is output to the board 101.
In this embodiment, the ticket control input / output port for inputting a signal during one play constitutes one play signal input means.
The coin detection switch 201a outputs a coin input signal to the ticket CPU 200a through the ticket control input / output port when it detects that a coin of a predetermined amount (for example, 100 yen) has been put into the coin inlet 201.
In this embodiment, the coin detection switch 201a constitutes the input medium detecting means.
The ticket dispensing motor 202 drives the motor when the drive data output from the ticket CPU 200a is input through the ticket control input / output port.
The ticket CPU 200a reads a program stored in the ticket ROM 200b on the basis of various input signals, performs arithmetic processing, and outputs various signals.
The ticket ROM 200b stores a program for medal input control, data necessary for various operations, and a table.
The ticket RAM 200c serves as a data work area when the ticket CPU 200a performs arithmetic processing, and has a plurality of storage areas.
Specifically, a flag memory area, a credit counter, a payout counter, a MAXPAYOUT counter, a bonus counter, a MAXBONUS counter, and a dispensing timer are provided during game play. The above-described storage area is also merely an example, and a plurality of storage areas are provided.
In this embodiment, the credit counter constitutes a reception information storage unit, and the ticket CPU 200a for storing data in the credit counter constitutes a storage instruction means. The PAYOUT counter and the BONUS counter in the ticket RAM 200c constitute a one-play privilege number storage means, and the MAXPAYOUT counter and the MAXBONUS counter in the ticket RAM 200c constitute a maximum privilege number storage means.
The ticket CPU 200a also displays on the data display 203 information based on the MAXPAYOUT counter and the MAXBONUS counter stored in the ticket RAM 200c. As a result, the data display unit 203a displays the maximum number of tickets issued per play on the day and the maximum number of winnings per play on the day.
When the launch permission signal is input from the frame control board 103, the launch control board 106 permits launch. Then, the touch signal from the touch sensor 3b and the voltage value are read from the firing volume 3a to energize and control the firing solenoid 4a to launch the organic sphere.
Here, the rotational speed of the solenoid 4a for firing is set to 99 (times / minute) by the frequency based on the output period of the crystal oscillator provided in the launching control board 106. As a result, the firing organic water for one minute is 99 (minutes / minute) because one firing solenoid 4a is fired every time one rotation is made. In other words, one organic sphere is fired every about 606 ms.
Block diagram of launch control board
A circuit configuration of the launch control substrate 106 will be described with reference to FIG. As shown in Fig. 6, the launch control substrate 106 includes a launching intensity generating circuit 106a, a launching driving circuit 106b, and a timing circuit 106c.
Here, a constant voltage (for example, 5 V) is applied to the firing volume 3a made of the variable resistor, and the voltage divided by the resistance value of the variable resistor which is changed by the rotation angle of the operation handle 3 is fired. It is input to the intensity generating circuit 106a.
The firing intensity generating circuit 106a generates a firing current which is directly proportional to the voltage input from the firing volume 3a. Then, the generated firing current is output to the firing drive circuit 106b.
The timing circuit 106c includes a crystal oscillator and outputs 99 pulse signals to the launch driver circuit 106b for 1 minute.
The firing drive circuit 106b includes frame control from the firing current output from the firing intensity generating circuit 106a, the pulse signal output from the timing circuit 106c, the touch signal from the touch sensor 3b, and the main control board 101. The firing permission signal is input through the substrate 103. The launch drive circuit 106b is configured not to excite the launch solenoid 4a unless both the touch signal and the launch permission signal are input.
When the signals of both the touch signal and the firing permission signal are input, the firing driving circuit 106b instantaneously sends the firing current output from the firing intensity generating circuit 106a for each pulse signal input from the timing circuit 106c. In this way, the excitation of the solenoid 4a for firing is performed. This releases 99 organic spheres in one minute.
Firing Intensity of Organic Spheres
Next, the flying distance of the emitted organic sphere is demonstrated. 7 is a view showing the flying distance of the organic sphere according to the firing intensity and the rotation angle of the operation handle (3).
As described above, by rotating the operation handle 3, the resistance value of the firing volume 3a made of the variable resistor is changed, and the divided voltage is input to the firing intensity generating circuit 106a.
In the exact expression, the firing intensity of the organic sphere is determined by the current value based on the voltage value, but the firing current value is generated in direct proportion to the voltage value input to the firing intensity generating circuit 106a. It can be said that the launching intensity is determined based on the voltage value.
In this embodiment, the variable resistor of the firing volume 3a is set so that the voltage value input to the launch control board 106 also becomes large when the rotation angle of the operation handle 3 is large, as shown in FIG.
In addition, the launching intensity S0 on the launching intensity axis shown in FIG. 7 is the reaching point launching intensity at which the launched organic sphere reaches the organic region 6a, and the firing intensity S1 of the launching volume 3a in this embodiment. The launching intensity corresponding to the minimum value of the potentiometer.
Here, the firing intensity (S0) <firing intensity (S1) means that when the organic sphere is fired by rotating the operation handle 3, the released organic sphere will always reach the organic region 6a unless any problem occurs. will be. Therefore, since the minimum value of the firing intensity is already higher than the arrival point of the organic region, since the organic spheres that are fired between the predetermined organic times do not reach the organic region and do not return (so-called foul ball generation), unnecessary firing time can be eliminated. have.
In the present embodiment, the variable resistor of the firing volume 3a is set such that the firing intensity S0 <firing intensity S1, but the firing volume S0 ≤ firing intensity S1 is set. The variable resistor may be set. However, if the firing intensity S0 = the firing intensity S1, there may be cases in which the organic region 6a cannot be reached due to an error such as structural attenuation of the firing apparatus. It is preferable to become).
In addition, in this embodiment, when the steering wheel 3 was rotated even a little from 0 degree, the organic sphere was fired, but if the rotation of the steering wheel 3 was slightly changed, the steering wheel 3 was rotated about 5 degrees. The organic spheres may be configured to be fired. In either case, the firing intensity corresponding to the minimum value of the variable resistor of the firing volume 3a may be more than the firing intensity SO.
In this embodiment, the launching volume 3a and the launching intensity generating circuit 106a constitute the launching strength determining means.
Various tables
Next, various tables stored in the main ROM 101b will be described in detail with reference to Figs. 8 to 10, and then various tables stored in the subROM 102b will be described in detail with reference to Fig. 11. do.
Winning Judgment Table
8 (a) and 8 (b) are diagrams showing a winning winning determination table which is referred to when determining whether or not the winning is drawn in the "winning lottery". Here, Fig. 8A is a winning winning determination table referred to by the first special picture display device 19, and Fig. 8B is a winning winning decision table referred to by the second special picture displaying device 20. Figs.
The main CPU 101a determines whether it is "winning" or "non-winning" on the basis of the probability abandonment state acquired with reference to the winning winning determination table and the random number value for determining the special picture. For example, according to the first winning picture determination table for the special picture display device shown in Fig. 8A, in the case of a low probability organic state, two random picture values for the special picture judgment are "0" and "1". 126 special picture determination random number values are determined as non-winning. On the other hand, if there is a high probability organic state, all the random numbers for special picture determination are judged as winning. Therefore, since the random number range for the special picture determination is 0 to 127, the probability of winning is 1/64 in the case of low probability aggression, and the probability of winning in a case of high probability abandonment is 1/64. / 1, i.e., 100% chance of winning.
Normal winning judgment table
Fig. 8 (c) is a diagram showing a normal winning determination table which is referred to when determining whether to win at the time of the "normal drawing."
The main CPU 101a determines whether it is "normal winning" or "non-winning" based on the random number value for ordinary picture determination obtained by referring to the above-mentioned ordinary winning judgment table. For example, according to the ordinary winning judgment table for the normal picture display device shown in Fig. 8C, random numbers for "1" normal picture judgment are judged as ordinary wins, and seven "1" to "7" are obtained. The random number for the normal picture determination is judged non-winning.
Therefore, since the random number range of the normal picture determination random number is 0 to 7, the probability of being judged as a normal winner is 1/8 and the probability of being judged as a non-winner is 7/8.
Picture decision table
9 is a diagram showing a picture determination table for determining a still picture of a special picture.
Fig. 9A is a picture determination table for determining a still picture at the time of winning, and Fig. 9B is a picture determination table for determining a still picture at the time of non-winning.
In the case where the main CPU 101a determines to win, the type (still picture data) of the special picture is determined based on the random number value for the winning picture, with reference to the picture determination table shown in Fig. 9A. For example, according to the picture determination table shown in Fig. 9 (a), when the special picture display device is the first special picture display device, if the random number for the winning picture is "0" to "59", the still picture data is " 01 ”(the first special drawing 1), and if the random number for the winning picture is“ 60 ”to“ 99 ”,“ 02 ”(the first special drawing 1) is determined as the still picture data. If the special picture display device is the second special picture display device, if the random number for the winning picture is "0" to "59", "03" (the second specific special picture 1) is determined as the still picture data. If the random number for the winning picture is "60" to "99", "04" (second general special drawing 1) is determined as the static picture data.
If the main CPU 101a determines not to win, " 00 " (special figure 0) is determined from the still picture data with reference to the picture determination table shown in Fig. 9B.
Determining the static picture of the special picture When the special picture changes, the command for designating the production picture is generated based on the type of the special picture (still picture data) determined. Here, the command to designate a command consists of two bytes of data for one command, one byte of MODE data for classifying control commands, and one byte of DATA data indicating the contents (functions) of the control commands to be executed. The same applies to the variation pattern designation command described later.
Further, as will be described later, since the organic state (see Fig. 10) after the end of the winning prize is determined by the type of the special figure (still picture data), it can be said that the type of the special figure determines the organic state after the end of the winning prize. have.
Setting data table at the end of the winning
10 is a setting data table at the end of the winning prize for determining the organic state after the end of the winning prize.
When the main CPU 101a refers to the setting data table at the end of the winning prize, the main CPU 101a determines either the probable induced state of the high probability induced state or the low probability induced state based on the still picture data of the special picture. For example, according to the setting data table at the end of the winning prize shown in FIG. 10, when the 1st specific special figure 1 and the 2nd specific special figure 1 (still picture data "01", "03") are determined, there is a high probability. When the organic state is determined and the first commercial special picture 1 and the second commercial special picture 1 (still picture data "02" and "04") are determined, the low probability organic state is determined.
Drawing Decision Table
Fig. 11 is a drawing-winning drawing picture determination table for determining the combination of drawing drawing 30 to stop displaying when it is judged as a winning drawing.
The sub-CPU 102a determines the direction picture data based on the received direction picture designation command with reference to the drawing-up direction picture determination table shown in FIG.
For example, according to the large-dumped drawing picture determination table shown in Fig. 11, the drawing picture designation command ("E0H01H") showing the first and second special drawing pictures 1 for which the high probability organic state is determined is determined. , When E1H01H) is received, the combination of the directing picture having three red sevens on one line is determined, and the first normal special picture 1 and the second normal special picture 1 in which the low probability organic state is determined. When a command for designating a drawing picture ("E0H02H", "E1H02H") is received, a combination of the drawing pictures having three blue sevens in a line is determined.
Therefore, the organic person can recognize whether the transition to the high probability organic state or the low probability organic state occurs after the end of the winning prize by the combination of the directed pictures.
Explanation of Probability Initiation
Next, a description will be given of the probability organic state when the organic proceeds. This embodiment has a probability organic state of "low probability organic state" and "high probability organic state", and the initial probability organic state of the organic base unit 100 is set to "low probability organic state".
In the present embodiment, the term "low probability organic state" means that the winning prize is executed on the condition that the organic sphere enters the first starter 9 or the second starter 10. The organic state set to / 64. On the other hand, the term "high probability organic state" refers to an organic state in which the probability of winning the prize is set to 1/1 (100%). Therefore, in the "high probability organic state", it is easier to win more than the "low probability organic state". In addition, the change from the low probability organic state to the high probability organic state is after the end of the sugar-added group described later.
In this embodiment, the probability of winning in the high probability organic state is set to 1/1 (100%), but the probability of winning in the high probability organic state is not limited to 1/1 (100%). .
Description of winning type
In the present embodiment, "winning" means to obtain a right to execute a winning oil lottery in a winning lottery executed on the condition that an organic sphere enters the first starting opening 9 or the second starting opening 10. Say what you did.
In the "charging oil adding machine", a total of eight round abandonings of the entrance mouth 11 are performed. In each round abandonment, the total opening time of the large mouth opening 11 is set to a maximum of 29.5 seconds. During this time, if a predetermined number of organic spheres (for example, five) enter the large mouth opening 11, one round of organic rounds It ends. The "organic chewing machine" is organic in which a large quantity of tickets can be obtained because the organic sphere can be obtained at the same time as the organic sphere enters the entrance mall 11.
Next, the organic progression in the organic group unit 100 will be described using a flow chart.
Main processing of main board
12, the main processing of the main control board 101 will be described.
When power is supplied by the power supply board 107, a system reset occurs in the main CPU 101a, and the main CPU 101a performs the following main processing.
First, in step S10, the main CPU 101a performs an initialization process. In this process, the main CPU 101a reads the start program from the main ROM in response to the power supply, and also initializes the flags and the like stored in the main RAM.
In step S20, the main CPU 101a performs a rendering random number updating process for updating the rendering random number value for determining the variation pattern (variation time) of the special picture.
In step S30, the main CPU 101a updates the initial random value for special picture determination, the initial random number for winning picture, and the initial random number for normal picture determination. Thereafter, the processing of steps S20 and S30 is repeated until the predetermined interrupt processing is executed.
Timer interrupt handling of main board
The timer interrupt process of the main board 101 is demonstrated using FIG.
A clock pulse is generated every predetermined period (4 ms) by the reset clock pulse generating circuit provided in the main control board 101, so that the timer interrupt processing described below is executed.
First, in step S50, the main CPU 101a evacuates the information stored in the register of the main CPU 101a to the stack area.
In step S60, the main CPU 101a updates the one-play timer counter, updates the special picture time counter, updates the special organic timer counter, such as opening time of the special train station, updates the normal picture time counter, and maintains open. A time control process for updating various timer counters, such as a time counter update process, is performed. Specifically, 1 is subtracted from the 1-play timer counter, special picture time counter, special organic timer counter, normal picture time counter, and maintenance open time counter to update.
In step S70, the main CPU 101a performs random number update processing of the random number value for special picture determination, the random number value for the winning picture, and the random number value for normal picture determination.
Specifically, 1 is added to each random number value and the random number counter to be updated. In addition, when the added random number counter exceeds the maximum value of the random number range (when the random number counter is turned once), the random number counter is returned to zero, and each random number value is newly updated from the initial random number at that time.
In step S80, as in step S30, the main CPU 101a performs an initial random number value updating process for updating the initial random value for special picture determination, the initial random value for winning picture, and the initial random number for normal picture determination.
In step S90, the main CPU 101a performs input control processing.
In this process, the main CPU 101a includes the general entrance detection switch 7a, the entrance entrance detection switch 11a, the first start detection switch 9a, the second start detection switch 10a, and the gate detection switch ( Input processing for judging whether there has been an input from 8a) is performed. Specifically, when various detection signals are inputted from the general entrance detection switch 7a, the entrance entrance detection switch 11a, the first start opening detection switch 9a, and the second start opening detection switch 10a, a ticket is issued. It is updated by adding 1 to the ticket counter for dispensing the money, and adding 1 to the 1 play entrance counter for managing the number of organic spheres entering the winning mouth in 1 play. In addition, when a detection signal is input from the first start switch detection switch 9a or the second start switch detection switch 10a, the random number value for the special picture determination, the random number value for the winning picture, and the random number value for the rendering are acquired. The obtained random number value is stored in the first special picture storage area or the second special picture storage area. In addition, when a detection signal is input from the gate detection switch 8a, the random number value for the normal picture determination is obtained, and the random number value for the normal picture determination acquired in the normal picture pending storage area is stored. Specifically, it will be described later with reference to FIG.
In step S100, when the game permission signal is input from the ticket control board 200, the main CPU 101a performs one-play start control processing of setting predetermined data for initiating one-play abandonment. This one-play start control process will be described later in detail with reference to FIG.
In step S200, the main CPU 101a performs one play end control process of setting predetermined data for terminating one play's abandonment. This one-play end control process will be described later in detail with reference to FIG.
In step S300, the main CPU 101a performs a special privilege control process for controlling the winning prize draw, the special train station, and the organic state. Details thereof will be described later with reference to FIG. 18.
In step S400, the main CPU 101a performs a walk-in maintenance control process for normal picture drawing and normal electric station control. Details will be described later with reference to FIG. 20.
In step S500, the main CPU 101a is a ticket dispensing signal for dispensing a ticket to the ticket control board 200, a one-playing signal indicating one play abandonment, a winning-signal signal indicating that the paying machine is controlled, Launch permission signal for permitting the launching of the organic sphere to the launch control substrate 106, starter opening and closing solenoid data for driving the starter opening and closing solenoid 10c, and entrance entrance opening and closing for driving the entrance entrance opening and closing solenoid 11c. Special picture display data for displaying solenoid data, special picture display devices (19, 20) on, Normal picture display data for displaying normal picture display device (21), Pending indicators (22 to 24) The data creation process of the hold indicator data for display is performed. Details will be described later with reference to FIG. 23.
In step S600, the main CPU 101a performs an output control process. In this process, an output port process for outputting the signal created in step S500 is also executed. In addition, a display device output process for outputting the special picture display device data, the normal picture display device data, and the data for the hold indicator created in step S500 is performed. In addition, a command transmission process for transmitting a command set in the directing transfer data storage area of the main RAM 101c is also performed.
In step S700, the main CPU 101a returns the information saved in step S50 to the register of the main CPU 101a.
Input control processing
An input control process of the main control board 101 will be described with reference to FIG.
First, in step S91, the main CPU 101a determines whether a detection signal is input from the general mouth opening detection switch 7a, that is, whether the organic sphere has entered the general mouth opening 7. When the detection signal is inputted from the general entrance detection switch 7a, the main CPU 101a adds 1 to the ticket counter for dispensing the ticket, updates the ticket, and enters the organic sphere into the winning entrance in one play. Update by adding 1 to the 1 play entrance counter for managing.
In step S92, the main CPU 101a determines whether the detection signal from the entrance mouth detection switch 11a has been input, that is, whether the organic sphere has entered the entrance mouth 11. When the detection signal is inputted from the entrance entrance detection switch 11a, the main CPU 101a updates and adds 1 to the ticket counter and one play entrance counter, and counts the organic spheres entering the entrance entrance 11. The counter in the storage area of the entrance entrance counter C to be added is updated.
In step S93, the main CPU 101a determines whether a detection signal has been input from the first start switch detecting switch 9a, that is, whether or not the organic ball has entered the first start port 9, and makes a winning decision. And a first start switch detecting input process for setting predetermined data. The details of this first start detection switch input processing will be described later with reference to FIG.
In step S94, the main CPU 101a determines whether a detection signal has been input from the second start switch detection switch 10a, that is, whether or not the organic ball has entered the second start port 10, and makes a winning decision. And a second start switch detection input process of setting predetermined data.
Compared with the first start switch detection input processing shown in Fig. 15 to be described later, this second start switch detection process changes the area for storing data from the first special picture storage area to the second special picture storage area. 1 The number of special picture holding numbers (U1) is changed from the storage area to the second special picture holding number (U2) storage area, but the data storage area is different. The same control processing is obtained in that a value is obtained and the obtained random number value is stored.
In step S95, the main CPU 101a determines whether the gate detection switch 8a inputs a signal, that is, whether the organic sphere has passed through the normal picture gate 8. In addition, when the gate detection switch 8a inputs a signal, the main CPU 101a adds " 1 " to the normal picture holding number G storage area, and prepares a random number range prepared in advance (for example, 0 to 0). 10, one random image determination random number value is obtained, and the random number value obtained in the normal picture pending storage area is stored. However, when "4" is stored in the normal picture pending number (G) storage area, "1" is added to the normal picture pending number (G) storage area, or the random number value for normal picture judgment is obtained, and it is normal. The random number value acquired in the picture reserved memory area is not stored. When this process ends, the input control process ends.
In the present embodiment, the main CPU 101a which performs random information for the special picture determination constitutes the determination information and performs the first start switch detection switch input processing in step S93 and the second start switch detection input processing in step S94. Configure the acquisition means.
First start detection switch input processing
15, the first start switch detection process input processing of the main control board 101 will be described.
First, in step S93-1, the main CPU 101a determines whether or not a detection signal is input from the first start switch detection switch 9a.
If the detection signal is input from the first start switch detection switch 9a, the process moves to step S93-2, and if the detection signal is not input from the first start switch detection switch 9a, the first start switch is detected. Ends the switch input process.
In step S93-2, the main CPU 101a adds 1 to the ticket counter for dispensing the ticket and updates it.
In step S93-3, the main CPU 101a adds 1 to the one-play entrance counter for managing the number of organic spheres entering the winning ball in one play and updates.
In step S93-4, the main CPU 101a determines whether or not the data set in the first special picture pending number U1 storage area is less than four. If the data set in the first special picture holding number U1 storage area is less than 4, the processing shifts to step S93-5, and the data set in the first special picture holding number U1 storage area is less than 4; If not, the first start switch detection process is terminated.
In step S93-5, the main CPU 101a adds and stores 1 to the first special picture reserved number U1 storage area.
In step S93-6, the main CPU 101a acquires the random number value for special picture determination, searches the empty storage units in order from the first storage unit in the first special picture storage area, and stores the empty storage unit in the empty storage unit. The obtained random picture judgment random number value is stored.
In step S93-7, the main CPU 101a acquires the random number value for the winning picture, searches the empty storage units in order from the first storage unit in the first special picture storage area, and acquires them in the empty storage unit. The random number for the winning picture.
In step S93-8, the main CPU 101a acquires the rendering random number value, searches the empty storage units in order from the first storage unit in the first special picture storage area, and acquires the renderings acquired in the empty storage unit. The stored random number value is stored and the first start switch detection input processing is terminated.
The random number value for determining the special picture, the random number for winning pictures, and the random number for rendering are stored in the predetermined storage unit of the first special picture storage area.
1 Play start control process
Referring to Fig. 16, the one-play start control process of the main control board 101 will be described.
In step S101, the main CPU 101a determines whether or not the game permission signal for allowing one play abandon has been input from the ticket control board 200, and if it is determined that the game permission signal has been input, the process proceeds to step S102. If it is determined that no game permission signal has been input, the one-play start control process ends.
In step S102, the main CPU 101a sets 750 corresponding to 3000 ms in one play timer counter. As described above, since one play timer counter is subtracted by one every 4ms in step S60, it becomes 3000ms later that one play timer counter becomes zero.
In this embodiment, 3000 ms constitutes an induction period (organic time), and the main CPU 101a performs time control processing in step S102 of setting a timer to one play timer counter and subtracting one play timer counter. Constitutes an organic period measuring means or an organic time measuring means.
In step S103, the main CPU 101a sets the one-playing data indicating that one-play aversion is being executed to the one-play storage area. If this one-play data is set, the one-play signal is generated as described later in Figs. 23 and 24, and the generated one-play signal is output.
In step S104, the main CPU 101a sets the firing permission data for firing the organic sphere onto the firing control substrate 106 in the firing permission data storage area. If this launch permission data is set, a launch permission signal is generated as described later in Figs. 23 and 24, and the generated launch permission data is output.
In step S105, the main CPU 101a sets 1 in the sidewalk maintenance process data storage area in order to keep the pair of movable pieces 10b in the second start port 10 open.
In step S106, the main CPU 101a sets the game start flag to the game start flag storage area, and ends the one play start control process. In detail, as will be described later with reference to FIG. 22, the pair of movable pieces 10b in the second start port 10 are kept open by the game start flag until the organic sphere enters one of the winning mouths.
1 Play end control processing
17, the one-play end control process of the main control board 101 will be described.
In step S201, the main CPU 101a determines whether or not one play timer counter = 0, that is, 30 seconds have elapsed after storing a predetermined amount of coins. If the main CPU 101a determines that one play timer counter = 0, the process moves to step S202, and if it does not determine that one play timer counter = 0, the one play end control process ends.
In step S202, the main CPU 101a clears the firing permission data. That is, 30 seconds after storing a predetermined amount of coins, the shooting is stopped in principle.
In step S203, the main CPU 101a determines whether or not the prize winning is being won, that is, whether or not special privilege processing data = 3 for performing the prize winning oil processing is set as described later. If it is determined that the main CPU 101a is winning, the processing moves to step S204. If the main CPU 101a is not determined to win, the processing moves to step S206.
In step S204, the main CPU 101a determines whether data during one play is set in the one play storage area. If the main CPU 101a determines that data is being set during one play, the process moves to step S205. If it is not determined that data is set during one play, the main CPU 101a ends the one play end control process.
In step S205, the main CPU 101a sets again the launch permission data in the launch permission data storage area. As a result, even if 30 seconds have elapsed while the one-play abandonment is in progress, the organic sphere can be fired in the case of a large sugar group.
In step S206, the main CPU 101a determines whether there is a hold memory, that is, whether the first special picture holding number U1 = 0 or the second special picture holding number U2 = 0. If the main CPU 101a does not determine that there is a reserved memory, the process moves to step S207, and if it is determined that there is a reserved memory, the one-play end control process ends. Thus, as long as there is a reserved memory, data in one play is not cleared in step S208 described later, and one play abandonment is continued.
In step S207, the main CPU 101a determines whether or not the still picture data (the still picture data " 00 " representing the special picture 0) at the time of non-winning is set in the still picture data storage area. If it is determined that the still picture data at the time of non-winning is set, the main CPU 101a moves the processing to step S208, and if it is not determined that the still picture data at the time of non-winning is set, one-play end control processing To exit.
In step S208, the main CPU 101a clears the one-play data set in the one-play storage area. This ends the one-play abandonment.
In step S209, the main CPU 101a determines whether or not one play entrance counter = 0, that is, whether one organic sphere enters the granular ball in one play. The main CPU 101a moves the processing to step S210 if it is determined that the 1 play entrance counter is 0, and moves to step S211 if it is not determined to be 1 play entrance counter = 0.
In step S210, the main CPU 101a adds 1 to the ticket counter and updates it. Thereby, at least one ticket is dispensed even if no organic sphere enters the winning mouth in one play.
In the present embodiment, when one play abandonment ends and one play entrance counter = 0, 1 is added to the ticket counter (steps S209 and S210), and one pulse is set for one counter set in the ticket counter as described later. The main CPU 101a, which generates and outputs a ticket dispensing signal (data creation processing shown in Fig. 23 and output control processing shown in Fig. 24), constitutes a dispensing instruction means.
In step S211, the main CPU 101a clears the one play inlet counter, that is, one play inlet counter = 0, and ends the one play end control process.
In this embodiment, the main CPU 101a which performs one play start control process and one play end control process for setting or clearing data during one play constitutes one play initiation means. In addition, in this embodiment, the main CPU 101a which performs one play start control process and one play end control process for setting or clearing the firing permission data constitutes the launch operation validity determining means.
Special privilege control process
18, the special privilege control process of the main control substrate 101 will be described.
In step S301, the main CPU 101a loads the value of the special privilege processing data, and in step S302, referring to the branch address from the loaded special privilege processing data, if the special privilege processing data is 0, the special picture storage judgment is made. Move to processing (step S310), and if special privilege processing data = 1, go to special picture variation processing (step S320); if special privilege processing data = 2, move to special picture stop processing (step S330), and If the special privilege processing data = 3, the process moves to the sugar-tagging machine process (step S340).
Since the special privilege processing data is set as necessary among the subroutines of the special privilege controlling process as described later, the subroutine necessary for the organic processing is appropriately processed.
In step S310, the main CPU 101a performs a special picture storage judgment process of determining a special picture indicating a draw or stop of the winning prize. Specifically, this will be described later with reference to FIG. 19.
In the special picture fluctuation processing of step S320, the main CPU 101a performs a process of determining whether the fluctuation time of the special picture has passed.
Specifically, the main CPU 101a determines whether the fluctuation time of the special picture determined in step S310 has passed (is the special picture time counter = 0?), And if it is determined that the fluctuation time of the special picture has not passed, This special picture change processing is terminated while the privilege processing data is maintained and the next subroutine is executed.
If it is determined that the fluctuation time of the special picture has passed, the change display data of the special picture is cleared, and the special picture determined in the step S310 is stopped and displayed on the first special picture display device 19 or the second special picture display device 20. . As a result, the special picture is displayed on the first special picture display device 19 or the second special picture display device 20, and the result of the determination of winning the prize is known to the owner.
Finally, the special privilege processing data = 1 and the special privilege processing data = 2 are set, and the preparation for moving to the special picture stop processing is finished.
In the special picture stop processing of step S330, the main CPU 101a performs a process of determining the special picture displayed on the stop.
Specifically, the main CPU 101a determines whether or not the special picture displayed first is the winning picture. If it is determined that the drawing is drawn, the probable dismissal state is reset, and the special drawing processing data = 2 to the special drawing processing data = 3 is set, and the preparation is made to move to the drawing drawing machine processing. To exit.
On the other hand, if it is not determined that the winning picture is selected, the special privilege processing data = 2 and the special privilege processing data = 0 are set, and the preparation for moving to the special image storage judgment processing is finished. .
In the charge-added-organizer process of step S340, the main CPU 101a drives the entrance mouth opening / closing solenoid 11c to open the entrance mouth 11.
Specifically, the main CPU 101a outputs driving data of the entrance opening / closing solenoid 11c to open the entrance opening / closing door 11b, and sets the opening time of 29.5 seconds as a special organic timer counter, The door 11b is opened for a maximum of 29.5 seconds. During this opening, a predetermined number of organic spheres enter the entrance to the entrance mouth 11 (for example, the entrance entrance entrance = 5) or after the maximum opening time (special organic timer counter = 0), the entrance entrance opening / closing solenoid 11c. Drive data output is stopped, and the entrance opening and closing door 11b is closed. Thereby, one round abandonment is complete | finished. This round control is repeated 15 times.
When this round abandonment is executed 15 times in total, the special privilege processing data = 3 and the special privilege processing data = 4 are set, and the preparation is made to move to the end of the payloading machine end process, and the payloading machine processing is terminated.
In the present embodiment, the main CPU 101a which executes the charge-added organic process constitutes special organic control means. In addition, in this embodiment, when the main CPU 101a which executes the winning prize lottery process which judges a prize winning decision is called a privilege determination means, the main CPU 101a which performs a prize winning machine process comprises a privilege granting means, When the main CPU 101a which executes the input control process for determining whether or not to enter the predetermined winning exit is called privilege determination means, the ticket CPU 200a for dispensing a ticket constitutes privilege grant means.
In the process of ending the payloading oil in step S350, the main CPU 101a performs a process of determining the probability induced state.
Specifically, the main CPU 101a determines the probability organic state of either the high probability organic state or the low probability organic state based on the type of the winning drawing, referring to the setting data table at the end of the winning prize shown in FIG. 10. Then, data representing the determined probability organic state is set in the high probability organic flag storage area. Thereafter, the special privilege processing data = 4 is set to the special privilege processing data = 0, and the preparation is made to move to the special picture storage judgment processing.
In the present embodiment, the main CPU 101a which executes the payloading device end process for determining the high probability organic state constitutes the probability improvement determining means.
Special picture memory judgment processing
A special picture storage determination process of the main control board 101 will be described with reference to FIG.
In step S310-1, the main CPU 101a determines whether the special picture fluctuation display is in progress. If the special picture fluctuation is displayed (special picture time counter ≠ 0), the special picture storage judgment processing is terminated. If the special picture fluctuation is not displayed (special picture time counter = 0), the process moves to step 310-2. .
In step S310-2, the main CPU 101a determines whether the second special picture pending number U2 storage area is one or more when the special picture is not fluctuating.
If the main CPU 101a determines that the second special picture pending number U2 storage area is one or more, the process moves to step S310-3, and the second special picture pending number U2 storage area is one or more. If not, the process moves to step S310-4.
In step S310-3, the main CPU 101a subtracts and stores 1 from the value stored in the second special picture reserved number U2 storage area.
In step S310-4, the main CPU 101a determines whether the first special picture pending number U1 storage area is one or more.
If the main CPU 101a determines that the first special picture pending number U1 storage area is one or more, the process moves to step S310-5, where the first special picture pending number U1 storage area is one or more. If not, the special picture storage judgment processing ends.
In step S310-5, the main CPU 101a subtracts and stores 1 from the value stored in the first special picture reserved number U1 storage area.
In step S310-6, the main CPU 101a performs a shift process of the data stored in the special picture holding memory area corresponding to the special picture holding number U area subtracted in steps S310-2 through S310-5. do. Specifically, the data stored in the first to fourth storage units in the first special picture storage area or the second special picture storage area is shifted to the previous one. Here, the data stored in the first storage unit is shifted to the decision storage area (0th storage unit). At the same time as the data stored in the first storage unit is written into the determination memory area (0th storage unit), data already written in the determination memory area (0th storage unit) is erased from the special picture pending storage area. As a result, the random number value for judging the special picture, the random number value for the winning picture, and the random number value for directing used in the above-mentioned organic state are erased.
In the present embodiment, the second special picture storage area is preferentially shifted from the first special picture storage area in steps S310-2 to S310-6, but the first special picture storage area or the first special picture storage area is made in the order of winning the start. 2 The special picture storage area may be shifted or the first special picture storage area may be shifted preferentially over the second special picture storage area.
In step S310-7, the main CPU 101a performs a drawing process based on the random number for the special picture determination random number value written in the decision memory area (0th storage unit) of the special picture reserved memory area in step S310-6. do.
In this winning lottery processing, the main CPU 101a refers to the winning winning judgment table shown in FIG. 8 to determine whether the random number for special drawing judgment is "winning". In this case, if a high probability organic state is used, a large number of random figures for determining a special picture, which is determined as "winning" in a winning prize, are set more than the low probability organic state. Therefore, in high probability organic state, it is easier to win than low probability organic state.
In this embodiment, the first start switch 9a or the second start switch 10a for detecting that the organic sphere has entered the first start port 9 or the second start port 10, and The main CPU 101a, which detects that the organic sphere has entered by the first start switch detection switch 9a or the second start switch detection switch 10a, executes the winning winning determination and the winning winning drawing process, constitutes the privilege determining means. do. In addition, the general entrance port detection switch 7a, the first start port detection switch 9a, the second start port detection switch 10a, and the entrance entrance port which detect whether or not the organic sphere has entered the predetermined entrance port in order to dispense the ticket. The detection switch 11a also constitutes a privilege determination means.
In addition, the main CPU 101a which executes the winning lottery processing constitutes a special organic determination means.
In step S310-8, the main CPU 101a performs a special picture determination process of determining the special picture to be displayed stop.
In the case where the main CPU 101a judges the result of the winning draw in this special picture determination process, the drawing of the winning picture based on the random number value for the winning picture is referred to with reference to the drawing decision table shown in Fig. 9 (a). When the still picture data is determined and it is judged as non-winning, the still picture data of the non-winning picture is determined with reference to the picture determination table shown in Fig. 9B. Then, the determined still picture data is set in the still picture data storage area.
In step S310-9, the main CPU 101a performs variation pattern determination processing for determining the variation pattern of the special picture.
In this fluctuation pattern determination process, the main CPU 101a refers to the fluctuation pattern decision table (not shown), and the fluctuation pattern based on the result of the winning draw, the special picture type, the special picture pending number (U), and the acquired random number value for production. Determine. Then, the main CPU 101a sets a variation pattern designation command corresponding to the determined variation pattern in the transmission data storage area for directing.
In step S310-10, the main CPU 101a sets the variation time (counter value) based on the variation pattern determined in step S310-9 to the special picture time counter. In addition, the special picture time counter is subtracted every 4 ms in step S60.
In step S310-11, the main CPU 101a carries out fluctuation display initiation processing for setting the special picture change display data in order to give the special picture change display (flashing of the LED) to the special picture display devices 19 and 20. . Thus, when the special picture change display data is set, the special picture display device data in which the LED blinks in the step S500 is appropriately created, and the created data is output in step S600 to display the change display of the special picture display devices 19 and 20. do. The variation display of this special picture is performed only during the variation time set in step S310-10.
In step S310-12, the main CPU 101a moves the processing to the special picture variation processing shown in step S320 by setting the special privilege processing data = 1, and ends the special picture storage determination processing.
Press Maintenance Control
20, description will be given of a press maintenance control process.
First, in step S401, the value of the press-maintenance processing data is loaded. In step S402, if the press-maintenance processing data = 0, the processing is shifted to the normal picture change processing (step S410) by referring to the branch address from the loaded press-maintenance processing data. If the sidewalk maintenance process data = 1, the process moves to the normal electric station control process (step S420). This will be described later with reference to FIGS. 21 and 22.
Normal picture variation
A normal picture variation process will be described with reference to FIG.
In step S410-1, the main CPU 101a determines whether or not the variation of the normal picture is being displayed. That is, it is determined whether or not the fluctuation display data of the normal picture which can be set in step S410-8 described later is set. If the change in the normal picture is being displayed, the process moves to step S410-9, and if the change in the normal picture is not displayed, the process moves to step S410-2.
In step S410-2, the main CPU 101a determines whether or not the ordinary picture holding number G stored in the normal picture holding number G storage area is one or more when it is not in the fluctuation display of the normal picture. If the reserved number G is zero, the change of the normal picture is not performed, so the change of the normal picture is terminated.
In step S410-3, when the main CPU 101a determines in step S410-2 that the normal picture holding number G is one or more, the value G stored in the normal picture holding number G storage area. Update by subtracting 1 from.
In step S410-4, the main CPU 101a performs a shift processing of the data stored in the normal picture reserved storage area. Specifically, each data stored in the first to fourth storage units is shifted to the previous one. At this time, the data stored in the foremost storage unit (first storage unit) is written in the predetermined processing area and erased in the normal picture pending storage area.
In step S410-5, the main CPU 101a performs a normal picture drawing process. In this normal picture drawing process, the main CPU 101a refers to the winning judgment table shown in Fig. 8C and performs a process of determining whether the random number value for normal picture determination is " normal winning ". For example, according to the above table, one random picture determination random number value of "0" of the normal picture determination random numbers of "0" to "7" is judged as a normal winning, and therefore it has a probability of 1/8. Is determined.
In step S410-6, the main CPU 101a sets the data corresponding to the ordinary winning picture in the normal picture data storage area when it is determined that the ordinary winning picture has been determined with reference to the normal picture drawing processing determination result in step S410-5. If it is determined that the item is non-winning, the data corresponding to the non-winning picture is set in the normal picture data storage area.
In step S410-7, the main CPU 101a sets 15 seconds to the normal picture variation time. That is, set 3750 counter corresponding to 15000ms in normal picture time counter. In addition, since the normal picture time counter is subtracted every 4 ms in step S90, the normal picture time counter becomes 0 after 15 seconds.
In step S410-8, the main CPU 101a performs fluctuation display start processing of setting normal picture fluctuation display data for normal picture fluctuation display (flashing of the LED) on the normal picture display device 21. Thus, if the normal picture variation display data is set, the normal picture display device data for blinking the LED is appropriately created in step S500, and the created data is output in step S600, so that the change display of the normal picture display device 21 is performed. do. This normal picture variation display is performed only for the variation time set in the above step S410-7, and the normal image variation processing ends when the present process ends.
In step S410-9, when it is determined in step S410-1 that the normal picture fluctuation display is in progress, the main CPU 101a determines whether the set fluctuation time has passed. That is, since the normal picture time counter is subtracted every 4 ms, it is determined whether or not the set normal picture time counter = 0. As a result, when it is determined that the set variation time has not elapsed, the change display must be continued as it is, and thus the following subroutine is executed by ending the normal image variation processing.
In step S410-10, when it is determined that the set variation time has elapsed, the main CPU 101a clears the variation display data of the normal picture and stops the variation of the normal picture in the normal picture display device 21. At this time, the main CPU 101a causes the normal picture display device 21 to stop displaying the normal picture set in the normal picture data storage area. As a result, the result of the drawing of the ordinary picture is known to the owner.
In step S410-11, the main CPU 101a determines whether the normal picture set in the normal picture data storage area is a normal winning picture, and if it is a normal winning picture, the process moves to step S410-12 and is set. If the existing picture is a non-winning picture, the change of the normal picture is terminated.
In step S410-12, the main CPU 101a sets press maintenance processing data = 1.
In step S410-13, the main CPU 101a sets the 875 counter corresponding to 3500 ms in the maintenance open time counter to perform an opening time setting process for setting the opening time of the second start port 10 to 3.5 seconds, and a normal picture. End the change processing.
Normal electric station control treatment
The normal electric station control process will be described with reference to FIG.
In step S420-1, the main CPU 101a starts energizing the start opening / closing solenoid 10c. As a result, the second start port 10 is opened to control the second form.
In step S420-2, the main CPU 101a refers to the game start flag storage area to determine whether or not the game start flag is set. If it is determined that the game start flag is set, the main CPU 101a moves the process to step S420-3, and if it is not determined that the game start flag is set, the process moves to step S420-5.
In step S420-3, the main CPU 101a determines whether the organic sphere has entered one of the winning mouths, that is, whether or not the one-play entrance counter = 0. If the main CPU 101a determines that the organic sphere has entered one of the granular openings, the process moves to step S420-4, and if it is not determined that the organic sphere has entered any of the granular openings, the normal electric station control process ends. The energization of the start opening / closing solenoid 10c is maintained.
In step S420-4, the main CPU 101a clears the game start flag set in the game start flag storage area and moves the process to step S420-6 to stop the energization of the start opening / closing solenoid 10c. .
In step S420-5, the main CPU 101a determines whether the set maintenance opening time has passed. That is, it is determined whether the maintenance open time counter = 0. If it is determined that the maintenance opening time has elapsed, the main CPU 101a moves the processing to step S420-6, and if it is not determined that the maintenance opening time has elapsed, the normal motor station control process is terminated and the starter opening / closing solenoid 10c. Keep energized on.
In step S420-6, the main CPU 101a stops energization of the start opening / closing solenoid 10c. As a result, the second starter 10 is returned to the first form, making it impossible or difficult for the organic ball to enter again.
In step S420-7, the main CPU 101a sets the sidewalk maintenance process data = 0, moves the process to the normal picture variation process in Fig. 21, and then the normal electric station control process ends. In the present embodiment, the main CPU 101a which performs the walk preservation control process constitutes the variable standing apparatus control means.
Data creation processing
The data creation processing will be described with reference to FIG.
In step S511, the main CPU 101a performs processing for creating start opening / closing solenoid data for driving the starting opening / closing solenoid 10c in an open state or a closed state.
In step S512, the main CPU 101a performs a creation process of the charging mouth opening and closing solenoid data for driving the charging mouth opening and closing solenoid 11c in an open state or a closed state.
In step S513, the main CPU 101a creates and processes the special picture display device data for turning on or off the first special picture display device 19 or the second special picture display device 20.
In step S514, the main CPU 101a performs processing to create normal picture display device data for turning on or off the normal picture display device 21.
In step S515, the main CPU 101a is configured to turn on or turn off the retention indicators of the first retention indicator 22, the second retention indicator 23, and the normal picture retention indicator 24 in order to turn on or turn off the first special picture retention number. U1) Refers to the data in the storage area, the second special picture hold number (U2) storage area, and the normal picture hold number (G) storage area, and creates and processes the data for the retention indicator.
In step S516, the main CPU 101a determines whether the ticket counter = 0. If the main CPU 101a determines that the ticket counter = 0, the process moves to step S519. If the main CPU 101a determines that the ticket counter = 0, the process moves to step S517.
In step S517, the main CPU 101a generates a ticket dispensing signal instructing the ticket control substrate 200 to disburse the ticket.
In step S518, the main CPU 101a generates one ticket dispensing signal and updates the ticket counter by subtracting one from the ticket counter. In this embodiment, a ticket dispensing signal of one pulse is generated and output for one counter set in the ticket counter. Therefore, when "10" is set in the ticket counter, ten ticket dispensing signals are generated, and the ticket dispensing signal pulses are output ten times.
In step S519, the main CPU 101a refers to the one play storage area to determine whether data during one play is set, that is, whether or not one play is aborted. The main CPU 101a moves the processing to step S520 if it is determined that the data is being set during one play, and moves to step S521 if it is not determined that the data is set during one play.
In step S520, the main CPU 101a generates a one playing signal indicating that abandonment of one play is being executed.
In step S521, the main CPU 101a refers to the firing permission data storage area to determine whether the firing permission data is set. If it is determined that the firing permission data is set, the main CPU 101a moves the processing to step S522, and if not determining that the firing permission data is set, the processing moves to step S523.
In step S522, the main CPU 101a generates a firing permission signal allowing the firing control substrate 106 to launch the organic sphere.
In step S523, the main CPU 101a determines whether or not the winner is winning, that is, whether or not special privilege processing data = 3. If it is determined that the main CPU 101a is winning, the processing moves to step S524. If the main CPU 101a is not determined to be winning, the data creation processing ends.
In step S524, the main CPU 101a generates a payload signal indicating that the payload device is being controlled, and ends the data creation process.
Output control processing
An output control process will be described with reference to FIG.
In step S610, the main CPU 101a performs output port processing.
In this output port process, the main CPU 101a outputs the start opening and closing solenoid data created in step S511 to the starting opening and closing solenoid 10c, and outputs the signal of the entrance opening and closing solenoid data created in step S512 to the charging entrance opening and closing solenoid. The output to 11c is performed.
In addition, the ticket dispensing signal, the one playing signal, and the firing permission signal generated in the data creation process are output to the ticket control board 200 through the organic information output terminal board 108.
As described above, in the present embodiment, the main control board 101 is configured to output the ticket dispensing signal, the signal during play, and the firing permission signal to the ticket control board 200 through the organic information output terminal board 108. 101 and the ticket control board 200 may be directly connected to output the ticket dispensing signal, the one-playing signal, and the firing permission signal from the main control board 101 to the ticket control board 200.
In step S620, the main CPU 101a includes the first special picture display device 19, the second special picture display device 20, the normal picture display device 21, the first special picture hold indicator 22, and the second. In order to light up the LEDs of the special picture hold indicator 23 and the normal picture hold indicator 24, a process of outputting the various data created in the above steps S513 to S515 is performed.
In step S630, the main CPU 101a performs a command output process of sending the command set in the directing transfer data storage area of the main RAM 101c to the directing control substrate 102.
Next, a process performed by the ticket CPU 200a in the ticket control board 200 will be described. In the present embodiment, the ticket CPU 200a is oscillated every predetermined period (4ms) from the ticket main process (Figs. 25 to 28) which is executed when the power is turned on, and the oscillation circuit provided in the ticket control board 200. The ticket timer interrupt processing is executed when the pulse is input.
Ticket main processing of the ticket control board 200
25, the ticket main processing of the ticket control board 200 will be described.
When power is supplied by the power supply board 107, a system reset occurs in the ticket CPU 200a, and the ticket CPU 200a performs the following main processing.
First, in step S900, the ticket CPU 200a performs an initialization process. In this process, the ticket CPU 200a reads the start program from the ticket ROM 200b in response to power-on, and initializes a flag or the like stored in the ticket RAM 200c.
In step S910, the ticket CPU 200a sets the predetermined data based on the coin input signal from the coin detection switch 201a, the ticket dispensing signal from the main control board 101, the signal during play, and the firing permission signal. Input control processing. Details of this ticket input control process will be described later with reference to FIGS. 26 and 27.
In step S920, the ticket CPU 200a outputs drive data for driving the ticket dispensing motor 202a until the dispensing timer set in step S910-9 described later becomes zero. As described above, each time the ticket dispensing motor 202a rotates in the forward direction for one second, one ticket is discharged from the ticket dispensing outlet 202.
In step S930, the ticket CPU 200a outputs a game permission signal for allowing one play to be released to the main control board 101, and at the same time, one ticket to the data display unit 203a of the data display unit 203 is abandoned. The ticket output control process of outputting data for displaying information is performed. Details of this ticket output control process will be described later with reference to FIG.
Ticket input control processing of the ticket control board 200
The ticket input control process of the ticket control board 200 is demonstrated using FIG. 26 and FIG. In addition, the ticket input control process 2 of FIG. 27 is performed in connection with the ticket input control process 1 of FIG.
In step S910-1, the ticket CPU 200a determines whether the coin input signal on edge is input from the coin detection switch 201a. If the ticket CPU 200a determines that the start of the coin input signal has been inputted, the processing moves to step S910-2, and if it is not determined that the start of the coin input signal has been inputted, the process moves to step S910-5.
In step S910-2, the ticket CPU 200a refers to the game execution flag storage area to determine whether the game execution flag is set. This game execution flag is set during the input of the one-play signal from the main controller 101 as described below, and is information for determining that the one-play abandonment is executed on the main controller substrate 101. The ticket CPU 200a moves the processing to step S910-4 if it is determined that the flag during game execution is set, and generates a game permission signal if it is not determined that the flag is set during game execution. Move the processing to -3.
In step S910-3, the ticket CPU 200a generates a game permission signal. The generated game permission signal is output to the main control board 101 in step S931 described later.
In step S910-4, the ticket CPU 200a updates by adding 1 to the credit counter. By this credit counter, it is possible to temporarily store that the game permission signal is not generated even though the coin input signal is accepted.
In step S910-5, the ticket CPU 200a determines whether or not the on edge of the one-playing signal is input from the main control board 101. If the ticket CPU 200a determines that the start of the signal during play has been input, the process moves to step S910-6 to set the flag during game execution, and if it is not determined that the start of the signal during play has been input. The process shifts to step S910-7.
In step S910-6, the ticket CPU 200a sets the game playing flag in the game playing flag storage area. In this way, when the ticket CPU 200a refers to the flag during game execution, it is possible to determine whether one play abandonment is executed on the main control board 101.
In step S910-7, the ticket CPU 200a determines whether an on edge of the ticket dispensing signal has been input from the main control board 101. If it is determined that the start of the ticket dispensing signal has been input, the ticket CPU 200a moves the processing to step S910-8, and if it is not determined that the start of the ticket dispensing signal has been input, the processing moves to step S910-10. .
In step S910-8, the ticket CPU 200a adds 1 to the PAYOUT counter and updates it to generate information on the number of payouts per play.
In step S910-9, the ticket CPU 200a updates the dispensing timer by adding 250 corresponding to 1000 ms. The addition of 250 to the dispensing timer is necessary because the ticket dispensing motor 202a rotates in the forward direction and dispenses one ticket, that is, the dispensing timer 250 is required. In addition, this dispensing timer is subtracted one by every 4ms in the ticket timer interrupt process (not shown) and updated. Therefore, after 1000 ms, the discharge timer becomes 0.
In step S910-10, the ticket CPU 200a determines whether an on edge of a winning signal is input from the main control board 101. When the ticket CPU 200a determines that the start of the winning signal is input, the processing moves to step S910-11, and when it is not determined that the start of the winning signal is input, the step S910-12 (see Fig. 27). Move the processing to.
In step S910-11, the ticket CPU 200a updates by adding 1 to the BONUS counter to generate winning information per play.
In step S910-12, the ticket CPU 200a determines whether an off edge of a signal during one play is input from the main control board 101. If the ticket CPU 200a determines that the stop of the one-play signal is input, the processing moves to step S910-13 to clear the flag during game execution, and if it is not determined that the stop of the one-play signal is input. The ticket input control process ends.
In step S910-13, the ticket CPU 200a clears the game execution flag set in the game execution flag storage area.
In step S910-14, the ticket CPU 200a determines whether or not the counter set in the PAYOUT counter is larger than the counter set in the MAXPAYOUT counter. If it is determined that the counter set in the PAYOUT counter is large, the ticket CPU 200a moves the processing to steps S910-15, and if it is not determined that the counter set in the PAYOUT counter is large, the processing proceeds to step S910-16. Move it. The MAXPAYOUT counter also remembers the maximum value of the PAYOUT counter, which is zero when the power is turned on.
In step S910-15, the ticket CPU 200a also sets the counter data set in the PAYOUT counter to the MAXPAYOUT counter. This updates the MAXPAYOUT counter.
In step S910-16, the ticket CPU 200a clears the PAYOUT counter (set 0 to the PAYOUT counter) because the abandonment of one play has ended.
In step S910-17, the ticket CPU 200a determines whether the counter set in the BONUS counter is larger than the counter set in the MAXBONUS counter. If it is determined that the counter set in the BONUS counter is large, the ticket CPU 200a moves the processing to step S910-18, and if it is not determined that the counter set in the BONUS counter is large, the processing proceeds to step S910-19. Move it. In addition, the MAXBONUS counter stores the maximum value of the BONUS counter. It is set to zero when the power is turned on.
In the present embodiment, the ticket CPU 200a for comparing the MAXPAYOUT counter and the PAYOUT counter in step S910-14, or the ticket CPU 200a for comparing the MAXBONUS counter and the BONUS counter in step S910-17 constitutes comparison determination means.
In step S910-18, the ticket CPU 200a also sets the counter data set in the BONUS counter to the MAXBONUS counter. This updates the MAXBONUS counter.
In this embodiment, the ticket CPU 200a for updating the MAXPAYOUT counter in step S910-15, or the ticket CPU 200a for updating the MAXBONUS counter in step S910-18 constitutes an update storage means.
In step S910-19, the ticket CPU 200a clears the BONUS counter (set 0 in the BONUS counter) because the abandonment of one play has ended.
In step S910-20, the ticket CPU 200a determines whether or not the credit counter = 0 because the abandonment of one play is completed. If it is determined that the credit counter = 0, the ticket CPU 200a moves the processing to steps S910-21, and if it determines that the credit counter = 0, the ticket input control process ends.
In steps S910-21, the ticket CPU 200a updates by subtracting 1 from the credit counter.
In step S910-22, the ticket CPU 200a generates a game permission signal and ends the ticket input control process. In this way, if information other than 0 is stored in the credit counter at the end of one play abandonment, the game permission signal is automatically generated and the game permission signal can be output. In the present embodiment, the ticket CPU 200a which executes a ticket input control process for updating at least one of a PAYOUT counter, a MAXPAYOUT counter, a BONUS counter, and a MAXBONUS counter constitutes a privilege counting means. In the present embodiment, the ticket CPU 200a that generates the game permission signal in the ticket input control process constitutes the game permission signal generating means.
Ticket output control processing of ticket control board 200
The ticket output control process of the ticket control board 200 is demonstrated using FIG.
In step S931, the ticket CPU 200a outputs the game permission signal generated in steps S910-3 and S910-22 as one pulse through the main control board 101. When the game permission signal is input, the main control board 101 executes one play abandonment.
In this embodiment, the ticket CPU 200a for outputting the game permission signal constitutes the game permission signal output means.
In step S932, the ticket CPU 200a refers to the MAXPAYOUT counter, generates MAXPAYOUT data based on the number of times (counter value) stored in the MAXPAYOUT counter, and outputs the generated MAXPAYOUT data to the data display 203.
In step S933, the ticket CPU 200a refers to the MAXBONUS counter, generates MAXBONUS data based on the number of times (counter value) stored in the MAXBONUS counter, and outputs the generated MAXBONUS data to the data display 203.
When this process ends, the ticket output control process ends. In this embodiment, the ticket CPU 200a, which executes the organic information control means for generating at least one of the MAXPAYOUT counter and the MAXBONUS counter and outputting the generated data to the data display 203, receives the privilege counting means. Configure.
Next, the production control substrate 102 will be described schematically.
When the directing control board 102 receives the command sent from the main control board 101, the command receiving interrupt processing of the directing control board 102 is generated and stores the received command in the receiving buffer.
The sub-CPU 102a of the production control substrate 102 interprets the received command and generates various data corresponding to each command in the timer interrupt processing of the production control substrate 102 performed every 2 ms. The generated various data are transmitted to the image control board 105 or the lamp control board 104.
Specifically, when the sub-CPU 102a receives the variation pattern designation command from the main control board 101, the sub-CPU 102a refers to the direction pattern determination table stored in the subROM 102b, and displays the directing display device based on the received variation pattern designation command. (13) or the audio output device 18, the directing lighting device 16, and the directing counterfeit device 15 to determine a directing pattern for performing a predetermined directing. Then, direction data corresponding to the determined direction pattern is generated, and the generated direction data is transmitted to the image control board 105 or the lamp control board 104.
In addition, the sub-CPU 102a receives the direction drawing designation command from the main control board 101, and if the received command is the direction drawing designation command indicating the winning prize, refer to the direction drawing determination table for the winning prize shown in FIG. Based on the received direction picture designation command, the direction picture data is determined. The determined presentation picture data is transmitted to the image control board 105 or the lamp control board 104. Thereby, the combination of the specific direction drawing 30 is stopped displayed on the direction display apparatus 13. In addition, in the case of the directed drawing designation command that shows non-winning, a non-winning directing picture determination table is provided (not shown), and the non-winning directing picture determination table does not become a combination of the specific directing picture (30). Consists of.
Next, the image control board 105 and the lamp control board 104 will be described schematically.
In the image control board 105, when data is received from the production control board 102, the voice CPU reads the voice output device control program from the voice ROM to control the voice output from the voice output device 18, and at the same time, The CPU reads the program from the image ROM and controls the image display on the direction display device 13 based on the direction command received.
When the data is received from the directing control substrate 102 in the lamp control board 104, the operation of the directing counterweight apparatus 15 is controlled by reading the directing counterweight apparatus operation program on the basis of the received data. The lighting device control program for reading is controlled by reading the lighting device control program based on the produced production data.
In the present embodiment, one organic group unit 100 is provided for one organic group 1, but two or more organic group units 100 are provided for one organic group 1 You may comprise.
In addition, in the present embodiment, the special picture is made to display the change and then the stop display is made after the predetermined change time has elapsed. When the stop switch is operated by preparing the "stop switch" on the main board 101, May be stopped.
In the present embodiment, the winning probability (1/64) in the low probability organic state is fixed, but the winning probability is varied by providing a "setting change switch" on the main control board 101 and operating the setting change switch. You can also do it.
In the present embodiment, the game permission signal is output for one coin input signal (so-called 1 coin 1 play). The coin number change switch is provided on the ticket control board 200 to change the coin number. When the switch is operated, the game permission signal may be output for one coin input signal several times.
