JP4652588B2 - Game machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an improvement of a gaming machine provided with a movement control means for controlling movement of an effect member in the vicinity of a display device when a specific gaming state is entered.
[0002]
[Prior art]
Conventional gaming machines of this type include those not disclosed at the time of the present application previously proposed by the present inventor. In the proposed gaming machine, a novel effect is performed by moving the effect member so as to cross the space in front of the display area of the symbol display device arranged in the center of the game board.
[Problems to be solved by the invention]
However, in this gaming machine, there is a possibility that the game ball may collide with the directing member, and the ball does not roll to a desired position despite the player aiming and firing the ball. There is also a demand for a gaming machine in which the effect member is damaged, and the possibility of making this possibility completely or extremely small so that the rolling direction of the game ball is not affected by the effect member.
[0003]
The present invention has been made to solve such a conventional problem, and it is an object of the present invention to prevent an effect member whose movement is controlled from affecting the rolling direction of a game ball.
[0004]
[Means for Solving the Problems]
To achieve the above object, the present invention provides a main control means for determining whether or not to cause a big hit gaming state by lottery, a display means having a display area capable of displaying identification information, and the main control means. In the case where the lottery is performed, after the identification information is variably displayed in the display area, the display control means for stopping and displaying the identification information in a manner corresponding to the result of the lottery, and the rolling of the game ball In a gaming machine comprising an effect member capable of moving in a movement area that does not affect and a movement control means for moving and controlling the effect member, the movement area has a first position and the first position. A second position set on the display area side with respect to the position, and the effect member is visible from the player side in the state of being arranged at the second position, and the movement The control means is the production member. In the dynamic control, by Rukoto moved to the second position the effect member from said first position, moving I suited the presentation member to the display region side, said main control means, Realized by a first CPU, the display control means and the movement control means are realized by a second CPU different from the first CPU, and a plurality of movement control patterns for controlling movement of the effect member are provided. When a movement control pattern is set, and the second CPU receives a control command for instructing start of variation display of the identification information from the main control means, the second CPU is based on the received control command as the display control means. The variation pattern of the variation display of the identification information is determined, the variation display of the identification information is started by the determined variation pattern, and the variation pattern determined When the movement pattern is a specific variation pattern, the movement control unit determines a movement control pattern to be executed from the plurality of movement control patterns, and moves the effect member based on the determined movement control pattern. It was made to control .
[0005]
In the present invention, the effect member can be prevented from affecting the rolling direction of the game ball.
[0007]
The movement control means may perform movement control of the effect member when a specific gaming state is reached . In addition, the specific game state may be a game state in which a notice of the result of the lottery by the lottery means is given. At this time, the movement control means performs movement control of the effect member after the display of the variation of the identification information is started and before the identification information is stopped and displayed. You may make it do. According to this, it can utilize for the structure etc. which alert | report that the possibility that it will be a big hit, when the member for production appears in the position which can be visually recognized , for example.
[0011]
Such control can be realized by recording a control program on a computer-readable recording medium and reading and executing the control program recorded on the recording medium by a computer. Examples of such recording media include semiconductor recording media such as ROM and semiconductor IC, optical recording media such as DVDROM and CDROM, magnetic recording media such as flexible disks, and magneto-optical recording media such as MO. In addition, this control program may be downloaded from the information processing apparatus via a communication network.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. First, the general configuration and operation of a gaming machine that performs display control by transmitting and receiving control commands will be described, and then the main operation of the present invention will be described to facilitate understanding of the present invention.
[0013]
FIG. 1 is a schematic explanatory view of the game board 10. There are three (left, middle, and right) display areas in the approximate center of the game board 10, and in each display area, identification information composed of symbols by numbers and characters is variably displayed. A special symbol display device 100 is arranged, and a special symbol start port 104 is disposed directly below the special symbol display device 100, and normal symbol operation gates 102 and 102 are arranged on both sides of the special symbol start port 104. It is installed. Further, the pair of opening / closing members 120 and 120 are provided so as to be opened and closed apart so as to form the special symbol starting port 104.
[0014]
Further, a special prize opening 106, a normal symbol display device 108, and an out port 114 are arranged in this order below the special symbol starting port 104, and further, a lamp is placed on both sides of the special symbol starting port 104 diagonally. Display devices 110 and 110 are provided, and lamp display devices (more specifically, LED devices) 112 and 112 are also provided in the vicinity of both end portions of the game board 10.
[0015]
Then, a game ball is won at the special symbol starting port 104 and a random number lottery is performed, and when the random number selected is a big hit value, at least one identification information variation display is started in each display area. A predetermined display pattern (for example, “7, 7, 7”) is displayed on the active line by the special symbol display device 100, and the big winning opening 106 is controlled to be opened and closed in a predetermined pattern. Become.
[0016]
Further, when the normal symbol operation gate 102 detects the passing of the game ball, a random number lottery is performed, and when the lottery random number is a small hit value, the display unit of the normal symbol display device 108 is displayed in a predetermined pattern (for example, “7”). Or “3”), and when the opening / closing member 120 is opened and the game ball wins the special symbol starting port 104, a random number lottery is performed in the same manner, and the random number selected is a big hit. When the value is a value, variable display in each display area is started, and then a predetermined display pattern (for example, “7, 7, 7”) is displayed on the winning effective line by the special symbol display device 100, and the big prize opening 106 is displayed. Are controlled to open and close in a predetermined pattern, resulting in a big hit state advantageous to the player. On the other hand, hitting balls that are not won are discharged through the out port 114.
[0017]
FIG. 2 is a control block diagram showing only the main part of the gaming machine in which gaming machine control is performed according to the progress of such a game. The main control unit 200 includes a microprocessor incorporating a CPU, and stores a variety of control commands including at least various commands for controlling the special symbol display device 100, which will be described later. A ROM 201 for storing a control program describing a region 202 and a series of gaming machine control procedures and a game control program such as control data, and a RAM 203 for forming a work area are provided, and an integrated one-chip microcomputer is provided. Yes. The game operation is performed by the main control unit 200 repeatedly executing this game control program in a predetermined cycle.
[0018]
The main control unit 200 includes a special symbol start switch 304 that is provided inside the special symbol start port 104 and detects a winning of the game ball in the special symbol start port 104 via the input port 210, and the inside of the normal symbol operation gate 102. Are connected to a normal symbol operation switch 306 for detecting a game ball passing through the gate, and a big winning opening switch 308 for detecting a winning of the gaming ball in the big winning opening 106 provided in the special winning opening 106. The main control unit 200 can receive each detection signal.
[0019]
In addition, the main control unit 200 has three display units for displaying special symbols and characters via the output port 215, each of which can be independently variably displayed, and can be realized by an LCD or the like. 100, lamp display devices 110 and 112 for controlling the lighting of lamps, sound effect generating device 116 for generating sound effects, for example, a normal symbol display device 108 realized by a 7-segment display device, and opening / closing members 120 for opening and closing are controlled. Are connected to a start opening actuating solenoid 300 and a large winning opening actuating solenoid 302 for controlling opening and closing of a wide opening and closing member of the big winning opening 106, and the main control unit 200 transmits a control signal for controlling each device. Transmission is possible.
[0020]
The main control unit 200 can transmit a predetermined number of display control commands to the special symbol display device 100 at a predetermined timing, and the special symbol display device 100 can transmit a command based on the received command. In addition, the CPU in itself performs fine display control without depending on the main control unit 200. Furthermore, the communication form by the one-way communication which only transmits a command from the main control part 200 to the special symbol display apparatus 100 is taken.
[0021]
Then, a special symbol display device 100 that performs a symbol display effect according to the winning of a game ball at the special symbol start opening 104, a sound effect generator 116 that performs a sound output effect by generating a sound effect together with the symbol display effect, and this A lamp display device 110 (112) that performs lighting on / off by performing lighting on / off control of a lighting unit (not shown) together with a symbol display effect constitutes a peripheral device group for effects.
[0022]
The main control unit 200 is connected to a power supply circuit 212 for supplying power and a reset circuit 213 that outputs a reset signal every predetermined time. Further, the main control unit 200 is connected to the reset circuit 213. A pulse signal generated by the periodic timer counter is input, and a monitor signal for monitoring the current supply status from the power supply circuit 212 is input.
[0023]
As shown in FIG. 12, the display control command sent from the main control unit 200 to the special symbol display device 100 is a mode (MODE) which is an identifier for identifying a command classification and is 1-byte digital information. ) And an event (EVENT), which is 1-byte digital information indicating the contents (function) of the command to be executed. FIGS. 6 to 9 are diagrams on the command data table area 202 stored in the ROM 201. A part of the display control command data is shown.
[0024]
As shown in FIG. 6 to FIG. 9, the display control commands include “a command for changing a special symbol and specifying a variation pattern (first command)”, “a stop symbol on the left of the special symbol. “Command to specify (second command)”, “Command to specify stop symbol in special symbol (second command)”, “Command to specify stop symbol to the right of special symbol (second command)”, “ There is a command (third command) for stopping the special symbol. Note that the first command is a command including information for designating a variation pattern such as what pattern the symbol is variably displayed and what pattern the character is displayed. The main control unit 200 transmits these five commands to the special symbol display device 100 at a predetermined timing in one variation display control when the game situation is such that the symbol variation display is started.
[0025]
FIG. 3 is a block diagram of the special symbol display device 100. The special symbol display device 100 supplies a power to the data receiving circuit 1140 (including a voltage converting circuit for converting the data level) for receiving a strobe signal and a command from the main control unit 200, and the voltage converting circuit and the like. A power supply circuit 1160, a CPU 1020 (display control means) that generates control data necessary for display control based on the received command and outputs the control data to the image processing LSI (VDP) 1060, and an operation procedure of the CPU 1020 are described. A program ROM 1040 having a built-in program, a RAM 1090 functioning as a work area or a buffer memory, an image processing LSI (VDP) 1060 for performing image development processing, and image data developed by the image processing LSI (VDP) 1060 are temporarily stored. Storing video RAM 1080 and image processing L Character ROM 1180 storing data necessary for image development by I (VDP) 1060, LCD panel interface circuit 1100 for receiving and transmitting image data temporarily stored in video RAM 1080, and this LCD panel interface And an LCD panel 1120 for outputting a display image using the image data sent from the circuit 1100.
[0026]
When the CPU 1020 executes the control program recorded in the program ROM 1040, the following processing including the characteristic part of the present invention is executed. The recording medium for recording the program is not limited to the ROM, and any recording medium that can record digital information and can access the recorded digital information may be used. In addition, this control program may be downloaded from an information processing apparatus (not shown) via a communication network (not shown) (both wired and wireless).
[0027]
As shown in FIG. 4A, the character ROM 1180 includes a ROM title area, a ROM management information area, a character image data area storing actual character data, a palette data area storing character color data, and a character data area. It has a scenario data area in which information defining movement is stored, and the character data is stored in the character image data area after being compressed by a specific compression method, and is further shown in FIG. As described above, in the palette data area, a plurality of types in which color numbers and color codes are paired are stored.
[0028]
Then, when the CPU 1020 of the special symbol display device 100 gives the control data generated in response to the command received by the data receiving circuit 1140 to the image processing LSI (VDP) 1060, the image processing LSI (VDP) 1060 The character data acquired from the image data area is decompressed and colored with the color data acquired from the palette data area, and the image data temporarily developed at the position on the video RAM 1080 specified by the information acquired from the scenario data area By storing and temporarily storing the stored data to the LCD panel interface circuit 1100, the LCD panel 1120 performs various image displays including a change in the variable display speed.
[0029]
FIG. 5 is a timing chart showing command transmission / reception timing. As described above, the command consists of a 1-byte length mode (MODE) and a 1-byte length event (EVENT). In this example, the main control unit 200 generates a strobe signal generated by itself when the command changes. Mode (MODE) information is transmitted in response to the first rise of (DUSTB), and event (EVENT) information is transmitted in response to the second rise of the strobe signal (DUSTB). In response to this, the CPU 1020 of the special symbol display device generates an interrupt when a strobe signal (DUSTB) is transmitted, receives a command by this interrupt processing, and stores it in the RAM 1090.
[0030]
Next, a normal control operation performed by the main control unit 200 and the CPU 1020 of the special symbol display device 100 will be described with reference to FIG. 10 (game control general flowchart) and FIG. A simple display control will be described to facilitate understanding of the present invention. The series of processes shown in FIG. 10 is executed by the main control unit 200. The series of processes is executed from the top step using a reset signal supplied from the reset circuit 213 every predetermined time (for example, 4 msec) as a trigger. Is to be executed repeatedly.
[0031]
First, when the power supply circuit 212 is activated by a power switch (not shown), the main control unit 200 is activated, and it is determined whether or not the first processing has been executed since the power was turned on (step S110). . In the case of the first process after the power is turned on (Yes), the process proceeds to Step S200. In other cases (No), the process proceeds to Step S120.
[0032]
In step S200, a storage area clearing process is executed as an initialization process of the RAM 203. Next, in step S210, data for performing an initial control process is set in a predetermined area of the RAM 203. On the other hand, in step S120, the count value of various random number generation loop counters (not shown) for determining big hits, small hits, etc., which are formed in the RAM 203, is incremented. In step S130, various values used for game machine control are incremented. Update the timer value of the timer. Accordingly, initialization such as RAM clearing and initial data set processing is performed when the power is initially turned on, and a predetermined stack value is stacked in the stack area of the main control unit 200, while various random numbers are updated even when the power is not initially turned on. The second predetermined stack value corresponding to this is stacked in the stack area of the main control unit 200.
[0033]
Next, in step S140, an input port process for reading and storing the detection signals output from the special symbol start switch 304, the normal symbol operation switch 306, and the special prize opening switch 308 via the input port 210 into an internal register (not shown). Then, the process proceeds to step S150, and a switch check process for grasping the data read and stored in the port input process is executed.
[0034]
Next, in step S160, it is checked whether or not each switch 304, 306, 308, etc. is disconnected or short-circuited. If these faults have occurred (Yes), the process proceeds to step S220. In this case (No), the process proceeds to step S180 (step S170).
[0035]
In step S180, data necessary for display control of the normal symbol display device 107 is stored in a predetermined area of the RAM 203, and commands necessary for display control of the special symbol display device 100 (previously in FIGS. 6 to 9). (Including the described command) is stored in a predetermined area of the RAM 203, and the timer values of the various timers are reduced (step S190). In step S180, the main control unit 200 determines a necessary mode and event command in accordance with the game control with reference to the command data table area 202, and sets digital information indicating the determined mode and event in the RAM 203. Store in the area.
[0036]
Next, in step S195, in order to control the opening / closing member 120 of the special winning opening 106 and the special symbol starting opening 104 in a predetermined pattern, the start opening operating solenoid 300 and the large winning opening operating solenoid 302 are driven and controlled. Next, in step S220, a prize ball setting process for outputting control information for causing a prize ball payout device (not shown) to perform a payout operation is executed. Further, in steps S230, 240, 250, a gaming machine management device (not shown) An external information processing for outputting various game data, a display light control process for storing the lamp display devices 110 and 112 in a predetermined area of the RAM 203, and a sound effect generating device 116 for controlling the lighting of the lamp display devices 110 and 112 corresponding to the gaming state. A command for controlling sound effect generation corresponding to the gaming state is sent to a predetermined area of the RAM 203. Executing the sound effect processing to be stored in.
[0037]
Next, in step S260, the data stored in the RAM 203 in each process is output to the corresponding device via the output port 215 (port output processing), and the device that receives this performs a control operation based on this. First, a strobe signal is output to the special symbol display device 100, and the mode and event data stored in the RAM 203 in step S180 are transmitted as shown in FIG. Thus, for example, the commands shown in FIGS. 6 to 9 are transmitted to the special symbol display device 100 from the main control unit 200 and received.
[0038]
In step S270, a reset waiting process is executed until a reset signal is input from the reset circuit 213. If a reset signal is input, the process proceeds to step S110 to continue the gaming machine control. The reset waiting process includes updating the various random number generation counters described above.
[0039]
Next, the operation of the CPU 1020 of the special symbol display device 100 that has received the command will be described with reference to FIG. First, in step S1100, the CPU 1020 sets its own stack pointer, initializes the RAM 1090, initializes itself such as register clear, etc., and determines in step S1102 whether a new command has been input. If it is determined that a new command for display control has been input (Yes), the process proceeds to step S1104; otherwise (No), the process proceeds to step S1110.
[0040]
In step S1104, in the interrupt processing described with reference to FIG. 5, the command received by the data receiving circuit 1140 is copied to the RAM 1090, and it is checked whether or not the command is normal. Next, the CPU 1020 determines the start address of a processing table (not shown) in order to obtain a necessary command for performing fine display control independently of the main control unit 200, and then in step S1108, the image In order to output to the processing LSI 1060, data in a necessary area of the RAM 1090 is updated.
[0041]
Next, in step S1110, based on the symbol control data set in the RAM 1090, scroll data to be output to the image processing LSI 1060 is obtained and set in the RAM 1090 to set the symbol display position. In S1112, the data necessary for the symbol speed control is acquired from a speed table (not shown) built in the program ROM 1040 and set in the RAM 1090. Next, in step S1114, the symbol offset value is calculated based on the velocity data. Update and prepare to perform symbol variation at the set speed.
[0042]
Next, in step S1116, animation data is acquired from an animation processing table (not shown) in which animation processing data set in the RAM 1090 is stored, and preparation for displaying a background image is performed. The VDP output buffer is set to determine whether the output permission flag is “1” (step S1118).
[0043]
If the output permission flag is not “1” (No), the process returns to step S1102 to repeat the series of processes. On the other hand, if the output permission flag is “1” (Yes), in step S1120, VDP output is performed. The data set in the buffer is output to the image processing LSI 1060. In response to this, the image processing LSI 1060 acquires data in the character ROM 1180 and develops the image. The image developed data is temporarily stored in the video RAM 1080 and then sent to the LCD panel interface circuit 1100 to be sent to the LCD panel 1120. Is displayed. In this way, symbol variation display, background image display, and the like are performed at the set speed at the set display position in the special symbol display device 100.
[0044]
FIG. 13 and FIG. 14 are examples of the transmission timing of a command transmitted from the main control unit 200 to the special symbol display device 100, and are explanatory diagrams of the transmission command. As can be understood with reference to these drawings, the main control unit 200 When a predetermined condition such as a game ball winning in the special symbol starting port 104 is satisfied, first, “a command for starting symbol variation and designating a variation pattern is transmitted (▲ 1 ▼). After T1 time elapses, a command for designating the left stop symbol is transmitted (2), and after T2 time elapses, a command for designating the middle stop symbol is transmitted (3), and after T3 time elapses A command for designating a right stop symbol is transmitted (4), and a command for halting all symbols after a lapse of T time from the start of fluctuation (5) is further transmitted. Receiving these commands, the CPU 1020 of the special symbol display device 100 performs a series of fluctuation display control by performing fine display control such as fluctuation speed change, etc. before receiving the command (5). 3 and 11, the CPU 1020 is configured to execute drive control of the solenoid 1500 as described later in addition to the display control described above, although not shown in FIGS. .
[0045]
(Main part of the present invention)
(Constitution)
As shown in FIG. 15, the CPU 1020 of the special symbol display device 100 performs display control as described above, and controls the solenoid 1500 to drive and form a character imitating a character appearing during a display effect. It also has a function of moving and controlling the mechanical character 1601 as the effect member. In this example, the mechanical character 1601 is configured to have a dog-like shape as a whole.
[0046]
As shown in FIG. 16, the protrusion 1511 provided in the vicinity of the tip of the plunger 1510 of the solenoid 1500 provided play in the opening 1610 provided on one end side of the generally doglegged crank 1600. It is fitted in the state. On the other hand, a protrusion 1611 provided on the back side of the mechanical character 1601 is fitted and fixed in a circular hole 1612 provided in the vicinity of the other end of the crank 1600. The crank 1600 itself is fixed to the protrusion 1512 so as to be rotatable, and is rotatable with the protrusion 1512 as a fulcrum.
[0047]
When the solenoid 1500 is in an off state (OFF state), the plunger 1510 is in a protruding state, and the crank 1600 and the mechanical character 1601 are present at positions indicated by reference numerals B1 and B2, respectively. To do. When the solenoid 1500 is turned on (ON state) from this state, the plunger 1510 is brought into a non-projecting state, so that the crank 1600 rotates clockwise with the projection 1512 as a fulcrum and the mechanical character 1601 moves to the right in the figure. , The positions of the crank 1600 and the mechanical character 1601 are the positions indicated by reference signs A1 and A2, respectively.
[0048]
In this state, when the solenoid 1500 is turned off again, the plunger 1510 is projected again, so that the crank 1600 rotates counterclockwise around the projection 1512 and the mechanical character 1601 moves leftward in the figure. By moving, the positions of the crank 1600 and the mechanical character 1601 are returned to the positions indicated by reference numerals B1 and B2, respectively. Thus, when the CPU 1020 performs on / off control of the solenoid 1500, the mechanical character 1601 is controlled to move between the first position (B2) and the second position (A2).
[0049]
FIG. 17 is a schematic front view of the special symbol display device 100 in a case where the mechanical character moving mechanism is mounted on the special symbol display device 100. One mechanical character moving mechanism shown in FIG. 16 is provided at a position close to the right side of the LCD panel 1120 as a display area (near the side of the LCD panel 1120). Therefore, the flow-down area of the game ball is ensured on the side portion opposite to the side portion on which the effect member on the upper portion of the display device is provided. In other words, a position where the fired game ball first reaches the game board surface, that is, a flow area of the game ball near the upper part of the display device is secured, and a symbol start winning opening provided on the lower side of the display device One side of the display device side that is required for the game ball to flow down in the direction of the big prize opening that is opened during the big hit is secured as the game ball flow area, so that the game ball flow area is substantially Therefore, it is possible to provide a member for production without any limitation.
[0050]
The solenoid 1500, the protrusion 1512, and the like are fixed to a fixing member (not shown). In addition, a cover 1700 as a decorative member is mounted on the front side of the mechanical character 1601 existing on the foremost side of the mechanical character moving mechanism. Thus, even if the mechanical character 1601 is controlled to move, the rolling direction of the game ball is not affected. The cover 1700 can be realized by molding plastic or the like, but it goes without saying that the material and the like are not limited to this.
[0051]
FIG. 23 is a schematic side view (sectional view) of the symbol display device 100 of FIG. 17 viewed from the right side. As can be seen with reference to FIGS. 17 and 23, the upper side, the lower side and the both sides of the mechanical character 1601 as viewed from the front side cover the front side of the LCD panel 1120 and are attached to the game board 10. And a cover 1700 is attached to the front surface of the mechanical character 1601 covered with the front structure 1800. For this reason, the game ball is completely prevented from colliding with the mechanical character 1600.
[0052]
As shown in FIG. 18, the cover 1700 includes a transparent portion 1701 and a non-transparent portion 1702, and the presence direction of the boundary line (reference numeral Y) between the two portions is the vertical direction. As shown in FIG. 17, when the mechanical character 1601 is positioned at the position B2, the mechanical character 1601 is not visible from the player side by the non-transparent portion 1702, but on the other hand, the mechanical character 1601 is positioned. When located at A2, the transparent portion 1701 allows the mechanical character 1601 to be viewed from the player side. Thus, when the solenoid 1500 is turned on, the mechanical character 1601 that has been hidden by the cover 1700 until then appears to appear from the right direction to the left direction.
[0053]
FIG. 20 is an explanatory diagram of the movement determination random number table 2000, and this movement determination random number table 2000 is stored in the program ROM 1040 of FIG. The CPU 1020 uses the RAM 1090 to cyclically count up movement determination random numbers from 0 to 19. When the selected movement determination random number is “0 to 15”, the mechanical character 1601 is not moved. On the other hand, when the selected movement determination random number is “16 to 19”, the mechanical character 1602 is moved. Take control.
[0054]
Figure 2 1 is an explanatory diagram of a mobile control pattern selected random number table 2100, the movement control pattern selected random number table 2100 is stored in the program ROM1040 in FIG. The CPU 1020 uses the RAM 1090 to cyclically count up the movement control pattern selection random number from 0 to 2. When the selected movement control pattern selection random number is “0”, the movement control pattern of the mechanical character 1601 is “pattern 1”, and when the selected movement control pattern selection random number is “1”, the mechanical character is When the movement control pattern 1601 is “pattern 2” and the selected movement control pattern selection random number is “2”, the movement control pattern of the mechanical character 1601 is “pattern 3” and the movement control is performed.
[0055]
In the movement control in the pattern 1, as shown in FIG. 22A, the solenoid 1500 is turned on only once and the mechanical character 1601 is made to appear from the right to the left and moved backward. In the movement control in pattern 2, as shown in FIG. 22B, first, the solenoid 1500 is turned on, the mechanical character 1601 is moved backward from the right direction once in the left direction, and the solenoid 1500 is again turned on. In the on state, the mechanical character 1601 is moved backward from the right direction to the left direction. Thus, according to the control in the control pattern 2, the movement control is performed so that the mechanical character 1601 appears twice in total.
[0056]
In the movement control in pattern 3, as shown in FIG. 22 (c), first, the solenoid 1500 is turned on, the mechanical character 1601 is moved backward from the right direction once, and the solenoid 1500 is again turned on. In the on state, the mechanical character 1601 is moved backward from the right direction to the left, and further, the solenoid 1500 is turned on, and the mechanical character 1601 is moved backward from the right direction to the left. Thus, according to the control in the control pattern 3, the movement control is performed so that the mechanical character 1601 appears three times in total.
[0057]
(Operation)
Next, the operation of the main part will be described with reference to FIG. Assume that the first command and the second command are received. First, the CPU 1020 determines that the variation pattern specified by the first command is a specific variation pattern, for example, among the 17 types of variation patterns shown in FIG. 17) Determine whether or not. If the variation pattern specified by the first command is a specific variation pattern (Yes), the process proceeds to step S1910. If not (No), the process proceeds to step S1930.
[0058]
Next, when the process proceeds to step S1910, the CPU 1020 draws a random number for movement determination, refers to the stored contents of the random number table for movement determination 2000, and if the random number value selected is “0 to 15” (No ) Go to Step S1930. On the other hand, referring to the stored contents of the movement determination random number table 2000, if the selected random number value is “16 to 19” (Yes), the process proceeds to step S1920.
[0059]
Next, when the process proceeds to step S1920, the CPU 1020 draws a random number for selecting the movement control pattern, refers to the stored contents of the random number table 2100 for selecting the movement control pattern, and moves the movement control pattern corresponding to the selected random number value. Select. That is, when the lottery random numbers are “0”, “1”, and “2”, “control pattern 1”, “control pattern 2”, and “control pattern 3” are selected as the movement control patterns, respectively.
[0060]
Next, in step S1930, the CPU 1020 performs a symbol variation display or the like corresponding to the designated variation pattern on the LCD panel 1120. If the character image that appears at this time is the same as that of the mechanical character 1601, the effect is further enhanced. Further, in response to performing an action that causes another character image to appear and invites the mechanical character 1601, for example, an action of shouting “Is welcome! XXX (character name)”, the mechanical character 1601 moves to the left side of the drawing. It is rich in special production effects.
[0061]
Next, in step S1940, CPU 1020 performs movement control using the control pattern selected in step S1920 only when “moving” is previously selected in step S1910. As described above, when the control pattern 1 is selected, the solenoid 1500 is turned on and off once as shown in FIG. 22A, and when the control pattern 2 is selected, the control pattern 2 is selected as shown in FIG. When the control pattern 3 is selected, the solenoid 1500 is turned on and off three times as shown in FIG. 22C. Thus, movement control of the mechanical character 1601 according to the selected control pattern is performed.
[0062]
Next, when the CPU 1020 receives the third command, in step S1950, the symbol previously designated by the second command is displayed on the LCD panel 1120 as the left, middle and right stop symbols.
[0063]
Therefore, according to the present embodiment, the cover 1700 (decorative member) and the front structural body 1800 prevent the game ball from colliding with the mechanical character 1601 as the production member, thereby affecting the rolling direction of the mechanical character 1601. You can avoid giving. Since the cover 1700 is provided in the vicinity of the side of the LCD panel 1120, which is the display area of the special symbol display device 100, the cover 1700 can be attached so as not to affect the rolling direction of the game ball during normal games.
[0064]
The CPU 1020 controls the movement of the mechanical character 1601 in a predetermined movement mode so that the mechanical character 1601 can take the first position (B2) and the second position (B1). When the mecha character 1601 is located at the position of (2), since the mecha character 1601 is not visible from the player side, the appearance and exit behavior of the mecha character 1601 can be realized, and the effect is rich. The mechanical character 1601 may be visible when the second position is the normal position, and the mechanical character 1601 may appear when the mechanical character 1601 moves to the first position. In this case, FIG. The positions where the transparent portion 1701 and the non-transparent portion 1702 exist may be exchanged. According to this, the movement of the mechanical character 1601 can be performed by the movement of the mechanical character 1601 between two positions. With a simple configuration, for example, when the mechanical character 1601 appears at a position where it can be seen, there is a possibility that it will be a big hit. It can utilize for the structure etc. which alert | report the increase.
[0065]
The CPU 1020 further includes means for performing display control using the special symbol display device 100 in response to a control command from the main control unit 200 that controls the overall operation of the gaming machine, in addition to performing movement control. Therefore, it is possible to perform the effects as described above while reducing the control burden on the main control unit 200.
[0066]
Furthermore, in the above description, the cover 1700 has been attached. However, without attaching the cover 1700, the moving area of the mechanical character 1601 is the right side of the LCD panel 1120, which is the display area of the special symbol display device 100. Even if the moving mechanism shown in FIG. 16 is arranged so as to be a predetermined area in the vicinity of the part, the game by the mechanical character 1601 is compared with the case where the mechanical character 1601 is moved so as to cross the space in front of the LCD panel 1120. It becomes possible to minimize the influence on the rolling direction of the sphere. That is, the mechanical character 1601 does not move in a wide space in front of the display area, and the possibility of collision of game balls can be minimized.
[0067]
Although the embodiments of the present invention have been described above, various modifications and changes can be made to the above-described embodiments without departing from the gist of the present invention. For example, the specific game state as the trigger for the production member may be set to a big hit, reach, at the time of their advance notice, at the time of symbol change, every predetermined time, etc. You may use for the structure which displays the lottery result of no, and the structure which displays the lottery result of a normal symbol. Also, the random number range shown in FIGS. 20 and 21 may be changed as appropriate, the moving mechanism may be other than a crank, the number of control patterns may be more than one or three, and the special symbol display device What the overall shape of 100 is other than that shown in FIG. 17, the shape of the LCD panel 1120 is round or oval in addition to the rectangular shape, a plurality of mechanical characters 1601 are provided, and the display device These may be provided separately, or the mechanical character 1601 may be driven by an electric drive source such as a motor.
[0068]
【The invention's effect】
As described above, according to the present invention, it is possible to obtain an effect that it is possible to protect the effect-controlled member from being damaged from being damaged and not to affect the rolling direction of the game ball. Further, it is possible to produce an effect while reducing the control burden on the main control unit.
[Brief description of the drawings]
FIG. 1 is a schematic explanatory diagram of a game board 10;
FIG. 2 is a control block diagram of the gaming machine.
3 is a block configuration diagram of various lottery result display devices 100. FIG.
FIG. 4 is an explanatory diagram of a character ROM memory map and palette data.
FIG. 5 is a timing chart showing command transmission / reception timing;
6 is an explanatory diagram of commands stored in a command data table area 202. FIG.
FIG. 7 is an explanatory diagram of commands stored in the command data table area 202;
FIG. 8 is an explanatory diagram of commands stored in the command data table area 202;
FIG. 9 is an explanatory diagram of commands stored in the command data table area 202;
FIG. 10 is a general flowchart for explaining a game control operation of the gaming machine.
11 is a flowchart for explaining a control operation of CPU 1020 of various lottery result display devices 100. FIG.
FIG. 12 is an explanatory diagram of a data structure of a command.
FIG. 13 is a timing chart showing command transmission timing for symbol display.
FIG. 14 is an explanatory diagram for explaining command transmission;
FIG. 15 is an explanatory diagram of components of the special symbol display device 100 added in the embodiment of the present invention.
FIG. 16 is a configuration diagram of a mechanical character moving mechanism.
FIG. 17 is a schematic front view of the special symbol display device 100 according to the embodiment of the present invention.
18 is a front view of a cover 1700. FIG.
FIG. 19 is an explanatory diagram of the operation of the embodiment of the present invention.
FIG. 20 is an explanatory diagram of a movement determination random number table 2000;
21 is an explanatory diagram of a movement control pattern selection random number table 2100. FIG.
FIG. 22 is an explanatory diagram of a movement control pattern.
FIG. 23 is a schematic explanatory view of a cross section of a mechanical character moving mechanism.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Game board 100 Various lottery result display apparatus 102 Normal symbol action | operation gate 104 Special symbol start opening 106 Grand prize opening 110 Lamp display apparatus 112 Lamp display apparatus 114 Out opening 116 Sound effect generator 120 Opening / closing member 200 Main control part 201 ROM
202 Command data table area 203 RAM
210 Input port 213 Reset circuit 212 Power supply circuit 215 Output port 300 Start opening solenoid 302 Large winning opening operation solenoid 304 Special symbol starting switch 306 Normal symbol operating switch 308 Large winning opening switch 1020 CPU
1040 Program ROM
1060 Image processing LSI
1080 video RAM
1090 RAM
1100 LCD panel interface circuit 1120 LCD panel 1140 Data receiving circuit 1160 Power supply circuit 1180 Character ROM
1500 Solenoid 1600 Crank 1601 Mechanical character 1800 Front structure 2000 Movement determination random number table 2100 Movement control pattern selection random number table

Claims (4)

Main control means for determining whether or not to cause a big hit gaming state by lottery;
Display means having a display area capable of displaying identification information;
When the lottery is performed by the main control unit, the display control unit displays the identification information in a manner corresponding to the result of the lottery after the identification information is variably displayed in the display area;
A production member capable of moving in a moving area that does not affect the rolling of the game ball;
In a gaming machine comprising movement control means for moving and controlling the effect member,
The moving area includes a first position and a second position set on the display area side with respect to the first position,
The effect member is visible from the player side in the state of being arranged at the second position,
The movement control means, in the movement control of the presentation member, by Rukoto moved to the second position the effect member from said first position, suited to the presentation member to the display region side Move
The main control means is realized by a first CPU,
The display control means and the movement control means are realized by a second CPU different from the first CPU,
A plurality of movement control patterns are set as movement control patterns for controlling movement of the effect members,
When the second CPU receives a control command for instructing start of the variation display of the identification information from the main control unit, the second CPU displays the variation display of the identification information based on the received control command as the display control unit. The variation pattern is determined, and the variation display of the identification information by the determined variation pattern is started. When the determined variation pattern is a specific variation pattern, the plurality of movement controls are used as the movement control means. A gaming machine , wherein a movement control pattern to be executed is determined from among the patterns, and movement control of the effect member is performed based on the determined movement control pattern . In the gaming machine according to claim 1,
The movement control means includes
A gaming machine, wherein movement control of the effect member is performed in a specific gaming state . The gaming machine according to claim 2 ,
The specific gaming state is
A gaming machine characterized in that it is in a gaming state in which a notice of the result of the lottery by the main control means is given. The gaming machine according to claim 3,
The movement control means includes
A game machine , wherein movement control of the effect member is performed after the display of variation of the identification information is started and before the identification information is stopped and displayed .

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