JP2688744B2 - Game equipment - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gaming machine such as a pachinko gaming machine equipped with a gaming ball discharging device, and supplying a predetermined number of gaming balls to the gaming machine. The present invention relates to a game facility device including a possible game ball supply device. As is well known, a plurality of pachinko game machines are lined up in line with island facilities at recent pachinko game shops,
The side of the pachinko gaming machine is provided with a ball lending device for lending gaming balls. Also, in the pachinko game store,
A prize counter for exchanging prizes etc. is provided in a place different from the island facilities, and the prize counter counts the acquired balls by the player carrying the game balls acquired by the pachinko gaming machine and put in the ball box. A counting device is provided for performing the counting. When playing a game on a pachinko gaming machine, the player borrows a game ball from the ball lending device and supplies it to a supply plate (upper plate) of the pachinko gaming machine to start the game. Then, when a winning ball is generated, the prize ball is discharged to the supply tray, and when the supply tray is full, the overflowing game ball is discharged to the lower receiving tray. In addition, if a jackpot or the like occurs as a result of a game, a large number of prize balls will be generated.In that case, a ball box is placed at the bottom of the saucer, game balls are removed from the saucer and transferred to the ball box. Was. Then, after the jackpot, for example, when counting the obtained balls once and then performing the game again, it is necessary to carry the ball box to the counting device, but in order to play the game again using the obtained balls Then, the game ball in the ball box was transferred to the supply tray by hand to play the game. When the number of obtained balls is not counted at the end of each jackpot (that is, when the game is continuously performed by the obtained balls), a large number of jackpots sometimes occur and a large number of obtained balls may be obtained. In some cases, a single ball box cannot be accommodated, so a large number of ball boxes accommodate the acquired balls, and the large number of ball boxes are stacked under the feet of the player. Then, when the player finishes the game, a number of ball boxes filled with the obtained balls are carried to the counting device of the premium counter to perform counting. [0003] Conventionally, in the case of continuously playing a game using the balls obtained by a pachinko game machine, the game balls in the ball box are manually moved to the supply tray. Is necessary, which is very annoying to the player, and sometimes spills the ball. In addition, if many ball boxes are held, when one ball box is empty, the ball box placed under the feet must be lifted to the front plate at the bottom of the gaming machine, which is a great effort. Needed. Also, if a large number of ball boxes are placed under the feet, the game space becomes narrower, and there is a risk that the game boxes may fall down in contact with the ball boxes. Furthermore, since the game balls in the ball box are supplied by hand, there is a problem that dirt on the game balls adheres to the hands of the player and is unsanitary. In addition, when a plurality of players secure a large number of ball boxes under their feet, the amount of game balls inside the equipment is reduced, and there is a shortage of game balls for prize balls and ball lending. There is fear. Therefore, a pachinko game store needs to prepare an extra large amount of game balls in advance so that the problem does not occur, and there is a disadvantage that the equipment must be enlarged accordingly. When counting the number of obtained balls, a heavy ball box filled with game balls must be carried to a counting device located away from the pachinko game machine, and a great deal of effort is imposed on the player. I was In particular, when there are a large number of obtained balls, a large number of ball boxes have to be carried many times, which is a very large labor burden. In addition, for example, in the case of female customers and elderly players, it may be difficult to carry the ball box alone, and in that case, the clerk needs to help transport, so the labor burden of the clerk is also reduced. There was also a problem that it became excessive. Furthermore, since a game store needs to prepare an extremely large number of ball boxes, there is also a problem in that the trouble of managing and cleaning a large number of ball boxes increases. In order to solve the above problem, it is conceivable to use a pachinko game machine with an enclosed ball type and record balls and the like on a card. Not discharging the ball causes a new problem, such as a loss of the actual feeling of the game, or a change in the pachinko game machine itself to be compatible with the enclosed ball system. The present invention has been made in view of the above-described problems, and an object of the present invention is to count a game ball obtained by a player on the spot without transporting the obtained game ball to a counting device away from the gaming machine. In addition to this, it is possible to reduce the amount of balls in the equipment by preventing a large number of game balls from being held as real balls, and to supply the game balls to the game machine without the player directly touching it. It is an object of the present invention to provide a game facility device that can perform the game. [0006] In order to achieve the above object, the present invention, a predetermined number of game balls in the supply plate (102) provided on the front side based on the establishment of a predetermined game ball discharge condition. Game ball ejecting device for ejecting (for example, prize ball ejecting device 1
16) a gaming machine (for example, a pachinko gaming machine),
A game ball supply device (for example, a ball rental device 40) that is provided corresponding to the game machine and discharges a predetermined number of game balls to the supply tray based on a required ball discharge command signal. In a gaming facility device including (for example, a pachinko gaming facility), the gaming ball is provided individually for each gaming machine at a position corresponding to the gaming machine, and at least the gaming ball discharged from the gaming ball discharging device is outside the gaming machine. A game ball collection means (for example, a ball removal processing device 55) for collecting the required game balls to be extracted into the inside of the game equipment device, and a game ball that is provided in the game ball collection means and detects one flowing down game ball. Then, the detection means for counting the detection signals and calculating it as game sphere information (for example, the ball-pulling detectors 32a to 32c) is provided, and based on the game sphere information obtained by counting the detection signals from the detection means, the game is executed. Sphere supplier To the game machine corresponding to the one in which the adapted to supply game ball for providing a game. According to the above-mentioned means, the player can count the obtained game balls on the spot without having to carry a heavy ball box to a counting device distant from the game machine. Based on the game balls can be supplied to the gaming machine,
The player does not need to directly supply the game balls as in the related art, and the trouble of supplying the game balls is eliminated, so that the player can concentrate on the game. Further, since the dirt of the game balls is prevented from adhering to the hands of the player, it is possible to provide a very clean game environment. In addition, since it is possible to play a game with acquired balls without placing a large number of ball boxes under the feet, etc., even if the amount of balls in the equipment is reduced, there is no shortage of balls, and the equipment and the equipment inside the equipment are downsized. And simplification is possible. Furthermore, by placing the ball box, the space in the pachinko game store does not become narrow, it is possible to provide a player with ample game space, and disadvantages such as accidentally falling down the ball box may occur. Absent. Also,
It is not necessary for a game store to prepare a large number of ball boxes, and management and cleaning of a large number of ball boxes are not required. In addition, the effects described above can be realized by a conventional gaming machine without introducing a card-type gaming machine of an enclosed ball type. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows a main part of an embodiment of a pachinko game facility to which the present invention is applied. On the front surface of the game board 1, a guide rail 3 for guiding a hit ball shot by a hit ball firing device 2 driven by a lower operation dial 2a to an upper portion of the game board 1.
Is provided, and a game area is formed in a space surrounded by the guide rail 3 on the front of the game board 1 and the glass plate.
A variable display device 4 as a game device is formed in the center of the game area, and normally forms a part of the game area below the variable display device. A special variable winning device 5 for converting into a region is provided. A first specific winning opening 7 is provided on each side of the variable display device 4, and a second specific winning opening 8 is provided between the variable display device 4 and the special variable winning device 5. It is provided. In this embodiment, the first specific winning opening 7 is a so-called diving-type winning device having a recess penetrating the gaming board 1 in the present embodiment. The opening of the through recess, that is, the specific winning opening 7 which is on the same plane as the game board surface, is formed so as to form a semi-cylindrical shape having a diameter of about twice the diameter of the ball when viewed from the front, and has a bottom portion thereof. A winning hole (not shown) for a winning ball is provided in the back of the box. The second specific winning opening 8 is formed of a winning tool called a winning chucker that opens upward in the game area. Above the variable display device 4, a so-called "heaven"
Three winning prizes 6a, 6b, 6c "left of heaven" and "right of heaven"
Are provided integrally. In this embodiment, the variable display device is provided integrally, but may be provided separately above the variable display device. Further, a tulip-type hit ball winning device 9 is disposed diagonally below and outside the first specific winning opening 7. In the lower part of the game board 1, each of the above-mentioned prize areas 6a to 6c, 7, 8, 9 while falling from above.
There is provided an out port 10 for collecting a hit ball that could not be won in the back of the game board. Further, at appropriate positions on the surface of the game board 1, there are provided a large number of obstacle nails 11 for randomly changing the direction of a hit ball falling from above and a rolling guide member 12 for controlling the falling speed and direction of the hit ball. It is provided substantially symmetrically with respect to the vertical center line of the region. On both sides of the center of the game board 1, there are provided lighting means 25 which are flickered or lit when a specific mode is generated by stopping the variable display operation of the variable display device 4. In addition, in the upper part of the game board 1, heavenly winning openings 6a to 6
c or a prize ball lamp 21 which is temporarily turned on when a hit ball is hit into a winning opening of the tulip type hitting ball winning device 9 or the like. Flashing turbo lamp 2
2. A segment type indicator 23 that displays the number of hit balls that have won when the special variable winning device 5 is opened, and a completion lamp 24 that notifies the end of the game when all the predetermined number of winning balls have been paid out. The display member 20 provided is provided. Further, on the upper part of the holding frame 100 of the pachinko gaming machine which holds the gaming board 1 having the above-mentioned structure, a launching device driving lamp 26 which is turned on when the operation dial 2a of the hitting and launching device is operated is provided. I have. The holding frame 10
A supply tray 102 for holding a hit ball supplied to the hit ball launching device is attached to an opening / closing panel 101 attached to a lower portion of the bottom plate 0, and a receiving tray 103 for storing prize balls overflowing from the feed tray is attached below the feed tray 102. Is provided. On a side portion (the left side in the figure) of the holding frame 100, there is provided a variable display stopping means 30 for stopping the variable display device 4 driven by winning a specific winning opening. In the pachinko gaming machine configured as described above, when a hit ball hit into the game area by the hitting ball launch device wins the specific winning opening 7 or 8, the display means of the variable display device 4 is driven, and the four The numbers displayed in the windows 4b are respectively changed. Then, when the player presses the variable display stop means 30 provided on the holding frame 100, or when a predetermined time has elapsed, the variable display is automatically stopped by the timer, and the specific mode is determined by the combination of the numbers displayed at that time. Is generated. When the specific mode occurs, the special variable winning device 5 is converted to the open state, and the winning probability there is shifted from zero to a very high state. As a result, a large number of prize balls are generated within a relatively short time, and many prize balls are given to the player. FIG. 2 shows an example of the entire structure of the back mechanism to which the variable display device 4 and the special variable winning device 5 having the above-mentioned structure are attached. That is, the back mechanism plate 110 is formed of, for example, a transparent plastic plate or the like, and is attached to the back of the holding frame or the game board storage member so as to be freely opened and closed. In addition, a certain interval (at least one ball) on the back of the game board
A collecting gutter 111 is attached at the center. The collecting gutter 111 is provided with an opening 110 a provided in the back mechanism plate 110.
It is made to face. At a position corresponding to the lower part of the collecting gutter 111, a guide shelf 111a provided on the back mechanism plate 110 and a winning ball controller 112 are provided. The guide shelf 111a is for collecting winning balls guided to the back side of the game board 1, and has a front-back width (interval) enough to allow the winning balls to flow down. It is wide and slightly inclined down toward the center. At the lower end of the guide shelf, there is provided a prize ball controller 112 for receiving and flowing one collected prize ball, and a prize ball flowing down from the prize ball controller 112 is provided below the opening. An entrance of an operation gutter 114 for guiding to one end of the lower operation lever 113 is opened. Therefore, when a hit ball hit into the game board enters any of the winning openings on the way down the game section, the hit ball is led out to the back side of the game board 1 and is guided to the guide shelf 111.
a is collected as a winning ball. Then, the prize ball is sent from the opening at the lower end of the guide shelf 111a to the prize ball controller 112
The winning ball controller 112 tilts due to the weight of the winning ball, causes the winning ball to flow down to the operation gutter 114 and stops. The winning ball flowing down from the winning ball controller 112 passes through the base plate of the back mechanism plate and is placed on the ball mounting portion at one end of the operating lever 113. When a winning ball is placed on the ball mounting portion, the operating lever 113 is tilted by the weight of the ball, and the upper winning ball discharging device 116 is operated via the interlocking rod 115 or the like. On the other hand, a prize ball tank 117 for storing a prize ball is provided on the upper portion of the back mechanism plate 110. Below the prize ball outlet 118 opened at the bottom of the prize ball tank 117, for example, The entrance of a U-shaped guiding gutter 119 that guides the balls while aligning the balls in two rows is opposed to each other, and the other end of the guiding gutter 119 is communicated with the prize ball discharging device 116. At the bottom near the entrance of the guide gutter 119, a tread lever 120 is pivotally mounted so that the free end is located upstream and the pivot end is located downstream, and the tread lever 120 is pivoted. A ball shortage detector 121 is provided opposite to. Therefore, when the ball in the prize ball tank 117 runs short, the tread plate lever 120 rises to activate a hitting device (not shown) provided in the open / close panel on the front of the game board, and the ball shortage detector 31 is activated. It turns on. Then, the completion lamp 24 on the front of the pachinko gaming machine is turned on to notify the player of the hit state and a hit signal is transmitted to the management room. Prize ball discharging device 11 as a game ball discharging device
Reference numeral 6 is a function which is operated when a hit ball enters a winning opening to form a winning mode and discharges a number of prize balls corresponding to the winning mode to a supply tray 102 or a receiving tray 103 on the front of a pachinko gaming machine, which is constant. A case that can accommodate several balls inside is pivotally attached to the back of the back mechanism so that it can be tilted, and one side is a guide gutter 1.
The other side faces the entrance of the prize ball lead-out path 122, and is connected to the interlocking rod 115 via the operating rod 123. The prize ball discharge path 122 is connected to the prize ball discharge device 1.
16 guides the ejected prize balls to the supply tray 102 or the receiving tray 103, and in the middle thereof, the tread plate 124 for returning the prize ball controller 112 by the flowing prize balls and communicating with the guide shelf 111a tilts. A bell 125 for generating a prize ball discharge sound effect is provided at a bent portion that is pivotally mounted and bent forward, and further, through a prize ball communication passage 126 that penetrates the game board 1 and opens forward. Feeding tray 1
02. An outlet of a diversion gutter 127 branching from and extending from the bent bottom of the prize ball outlet path 122 faces an inlet of a guide gutter 128 communicated with the tray 103. I have. Therefore, when the reserve balls are sufficiently stored in the reward ball tank 117, the reserve balls flow down from the outlet port 118 into the guiding gutter 119, and are arranged in the middle of the flow to the reward ball discharge device 116. Inflow. The earliest ball that has flowed into the prize ball discharge device 116 hits a stopper 129 located at the exit of the prize ball discharge device and stops there. A certain number (for example, 13) of balls are stored in the prize ball discharge device 116. stand by. When a winning ball is generated and the operating lever 113 is tilted by the weight of the guided winning ball, the earliest ball in the winning ball discharging device 116 comes off the stopper 129, and the ball is stopped in the gutter. The dropped ball flows down into the prize ball derivation path 122 as a prize ball. The prize ball flowing down into the prize ball derivation path 122 is:
The trophy ball controller 112 is returned by pressing the tread plate 124 by the downward force (inertial force) during the rafting. Outflow to 102. When the supply tray 102 is filled with the balls, the prize balls flowing down from the prize ball discharge device 116 flow into the distribution trough 127, and the guide trough 1
It is discharged to the receiving tray 103 via. A control board 130 on which a control device is mounted is detachably attached to the rear side of the prize ball deriving path 122. A relay board 140 for connecting the control board 130 to various winning detectors and the like is detachably attached to the collecting gutter 111. Further, a speaker 106 is detachably attached below the guide gutter 128. The configuration up to this point is the same as the configuration of a gaming machine installed in a pachinko game store. Thus, in the system of this embodiment, the ball rental device 40 as a game ball supply device is arranged along one side (hinge side) of the game machine for which data is to be collected (see FIG. 1). This ball rental device 40
Is equipped with a ball discharging device such as a sprocket having a game ball engaging concave portion on the outer periphery and a rotation driving device for the sprocket, and when the game balls in the supply tray 102 on the front of the game machine are almost exhausted, the collection control is performed. The sprocket is rotated by a command from the device (described later), and a predetermined number (for example, 75)
Eject the game ball. The outlet 41 of the ball rental device 40 is opened at a position slightly higher than the supply tray 102,
A flexible discharge nozzle 42 is attached to the discharge port 41, and its tip faces the upstream side of the supply tray 102. As a result, the game balls (purchases) discharged from the ball-lending device 40 automatically flow down onto the supply plate 102. The game balls discharged from the ball-lending device 40 onto the supply tray 102 are replenished in a hanging manner from a replenishing gutter 141 which is also used as a spare ball replenishing device 60 disposed above the pachinko gaming machine. It has become. A detector for detecting the number of lending balls is provided in the ball lending device 40. The ball-lending apparatus 40 having the above-described configuration is usually provided with the same structure as a ball-lending machine called a hamburger disposed between gaming machines in a pachinko game store or by utilizing the same. The structure can be easily achieved by attaching the nozzle 42 to the discharge port instead of the shutter. The tray 103 of the tray 103 at the bottom of the gaming machine
A solenoid 51 constituting the ball-dropping device 50 is fixed on a, and one end of a wire 54 wound around guide rollers 52 and 53 attached to the holding frame 100 is connected to a tip of an operating rod of the solenoid 51. Has been stopped. The other end of the wire 54 is locked to an operation knob 103b of a slide-type opening / closing plate (not shown) provided below the pan. The opening / closing plate is normally closed by a return spring built in the tray, and when the solenoid 51 is excited, the knob 103b is pulled to the left to open the opening / closing plate, and the tray 10 is opened.
The prize ball in 3 is a ball removal processing device 55 disposed below.
Flowed down inside. Ball removal processing device 55 as a game ball collecting means
As shown in FIG. 3 in an enlarged manner, has two stages of inclined guiding surfaces 55a and 55b which are inclined in opposite directions to each other, and ball drop detectors 32a to 32c as detecting means are arranged at the lower end of the flow. It is set up. The balls dropped from the tray 103 are arranged in three rows while flowing along the inclined guiding surfaces 55a and 55b, and one detector is detected for each row by the three detectors 32a to 32c. It has become. As a result, even if a large amount of prize balls are extracted at one time, the prize balls can be processed in a short time to know the exact number. Further, a foul ball detector 33 is provided in the middle of a foul ball flow path 105 provided to return a hit ball missed by the hit ball firing device from the guide rail 3 to the supply tray 102. . On the other hand, above a prize ball tank 117 for storing a reserve ball of a prize ball provided at an upper portion on the back of the gaming machine, a replenishing device for replenishing the reserve ball into the prize ball tank 117 as shown in FIG. 60 are provided. This replenishing device 60
It has the same configuration as the replenishing device disposed above the island equipment to which a plurality of gaming machines are attached in a pachinko game store. When the prize ball tank 117 becomes empty, it is disposed opposite to the prize ball outlet 118. The installed tread 120 rises. This is detected by the ball shortage detector 31, a detection signal is sent to the collection controller, and the supply device 60 is operated by a command from the collection controller, and a predetermined number (for example, 400) of spare balls are awarded. Supply to tank 117. In the supply device 60,
A detector for counting supply balls is built in. Also, the prize ball outlet gutter 122 and the branch gutter 127
As shown in an enlarged view in FIG. 4, a shutter 72 whose one end is rotatably supported by a shaft 71 is
The prize ball path switching device 70 includes a solenoid 73 for opening and closing the shutter 72 and an operating member 74 for transmitting the driving force of the solenoid 73 to the shutter 72 to rotate the shutter 72. The switching device 70 is used to connect the prize ball communication passage 126 to the supply tray 102.
The flow is controlled so as to block either the flow path toward the flow path as shown by the solid line in the figure, or to block the entrance of the branch flow gutter 127 as shown by the broken line in the figure. As a result, a part of the prize balls paid out like a normal pachinko gaming machine flows out to the receiving tray 103 via the diversion gutter 127, and the remaining prize balls flow out to the supply plate 102 via the prize ball communication passage 126. In order to prevent such a situation, all the prize balls discharged at one time are discharged to only one of the supply tray 102 and the receiving tray 103. This makes it possible to always accurately determine the number of balls on each dish. Further, on the lower part of the back of the gaming machine, a detection is made to detect the winning balls collected from the out opening 10 and the winning balls after winning the winning balls and operating the winning ball controller 112 as the collected balls. Ball processing device 8 with built-in device 34
0 is provided. The collected ball processing device 80 can have a configuration similar to that of the extracted ball processing device 55. Below the lower end of the operating gutter 114, a prize ball controller 112 is provided.
Is provided with a safe ball detector 35 for detecting a winning ball that has been operated. An interface box 90 having a control status notifying function is provided for each of the pachinko gaming machines, as shown in FIG. The interface boxes 90 are respectively provided above and are connected to a collection controller 200 (described later) for controlling a plurality of gaming machines, and interface signals between the corresponding pachinko gaming machines and the collection controller 200. . Next, FIG. 5 shows an outline of a system capable of collecting data to which the present invention is applied. The pachinko gaming machines P1, P2,
P2, ... Pn are interface boxes 90, respectively
Is placed under the control of the collection controller 200, and the collection controller 200 is connected to the tallying machine 300 using a personal computer or the like, and receives a start signal from the tallying machine 300 under its own control. Data generated by the operation of a plurality of pachinko gaming machines is collected for each machine, and is periodically (eg, every one minute) passed to a counting machine. Prior to the operation of the system, the tallying machine 300 has an input such as a keyboard for inputting the number of balls purchased at one time, the number of prize balls by one payout operation, and other initial values to be set in advance. An operating device 310, an external storage device 320 such as a floppy disk device for storing and storing a program for operating the system and data sent from the collection controller 200, and collecting and processing the obtained data. A CRT display device 330 for displaying and a printer 340 for printing out the CRT display device 330 are connected. The management device 400 is composed of the collection control device 200, the counting device 300, the input operation device 310, the external storage device 320, the CRT display device 330, and the printer 340. Although not particularly limited, in this embodiment, the collection controller 200 is configured so that up to 16 pachinko gaming machines can be installed under the control of one collection controller 200. . FIG. 6 shows a configuration of an interface box 90 for performing an interface between the corresponding pachinko gaming machine Pi and the collection controller 200. In this embodiment, the interface box 90 comprises an interface circuit section 91 and a drive circuit section 92. The interface circuit section 91 performs level conversion on a total of nine types of detection signals such as detectors 31 to 35 provided in the pachinko gaming machine and a signal indicating occurrence of a specific mode in the control device (130), and performs a collection control 200 The driving signals of the ball-lending device 40, the ball-pulling device 50, the spare ball replenishing device 60, and the prize ball path switching device 70 output from the collection control device 200 to each of the pachinko gaming machines are level-converted. Give it to the gaming machine. On the other hand, the drive circuit unit 92 includes, based on a signal supplied from the collection controller 200, an abnormality display lamp L1 provided in the main body case of the interface box 90 for notifying an abnormal supply of a spare ball, The game display lamp L2 for displaying the state of the game of the machine (which can be obtained from the difference between the cumulative number of purchased balls and the prize ball, and when there are more prize balls, is indicated as "win"), the prize ball is preset. Stop indication lamp L3 indicating that the number of stops has been reached
And a number display CNT indicating the number of balls to be purchased by the ball-lending apparatus 40 by several digits and the replenishment abnormality display lamp L1
Alternatively, the buzzer B provided to notify the stop indication lamp L3 by sound simultaneously with the lighting of the stop indication lamp L3 is driven. Further, switches SW1 and SW2 are provided in the interface box 90. By turning on the switch SW1, it is possible to clear all collected data relating to the corresponding gaming machine in the collection controller 200. By turning on the switch SW2, counting of various detection signals sent from the corresponding pachinko gaming machine can be started. With interface box 90,
The electrical connection between the gaming machine side and the collection controller described later can be centralized, and the interface box 9
0 and the setting switch S
With W1 and SW2, free data collection and management can be easily performed for each gaming machine. FIG. 7 shows an example of a block configuration of the collection controller 200. In the figure, a portion surrounded by a broken line C is a collection controller, and the collection controller 200 controls the timing in the controller and the auxiliary devices (40, 5) around the pachinko gaming machine.
0, 60) which controls the operation and collects data.
PU board 210 and interface box 9
Input board 220 which receives an input signal supplied from each of the gaming machines and the auxiliary devices via the CPU 0 and passes it to the CPU board 210 in response to a request from the CPU, and auxiliary devices (40, 50, 60) around the gaming machine And interface
The power supply unit 240 includes an output board 230 that outputs various drive signals to the box 90 at appropriate timing. These CPU board 210, input board 220 and output board 230
Are connected to each other via a bus 205 and
The power supply voltage generated at 40 is also supplied to each board via a power supply line in the bus 205. Of the above boards, the input board 22
0 indicates that an 8-bit × 8 signal can be input, and the input signal supplied from the interface box 90 is
First, they are respectively input to the photocouplers 222 and are held in the latch circuits 224 via the photocouplers 222.
By passing through the photocoupler 222, electrical noise (noise) on the cable connecting the interface box 90 and the collection controller 200 can be removed to prevent erroneous data collection. The input signal held in the latch circuit 224 is supplied to the buffer 226, and the address signal output from the CPU board 210 to the bus 205 at an appropriate timing is output from the decoder 228. Only one corresponding buffer 226 is driven by a selection signal formed by decoding, and a desired input signal is output on the bus 205 and taken into the CPU board 210. In this embodiment, 8 bits ×
There are three input boards 220 that can accept eight inputs
This allows a maximum of 16 pachinko gaming machines to be placed under their own control. The output board 230 has an 8-bit × 4 latch circuit 232 for receiving a drive signal output from the CPU board 210 onto the bus 205.
Similarly, a corresponding one of the latch circuits 232 is operated by a selection signal formed by decoding the address signal output from the CPU board 210 onto the bus 205 by the decoder 234, and is output onto the bus 205 at that time. Capture and hold signals. Latch circuit 23
2 is supplied to a driver 238 via a photocoupler 236, and is output to the outside by the driver 238. The signal output from the output board 230 is supplied to the interface box 90 and is driven in an auxiliary device (40, 50, 60) such as an internal lamp L1 to L3, a frequency display CNT, or a ball-lending device. Activate the source. In this embodiment, four output boards 230 as described above are used, whereby a pachinko game machine requiring eight types of drive control signals per unit and auxiliary devices (including an interface box) are provided. ) Can be controlled up to 16 units. The CPU board 210 includes a microprocessor (CPU) 211 such as Z80 and a read-only ROM (read / write) in which a system control program is stored.
(Only memory) 212 and RAM (random access memory) 2 for storing collected various data
13, etc., which are connected to each other via a bus 215 on the board. This bus 215 is connected to the bus 205 for connecting boards via a buffer 214. In this embodiment, the RAM 213 has a counter function, and the ball removal detectors 32a to 32c and the foul ball detector 3 provided in the pachinko game machine are provided.
3. Detection signals from the safe ball detector 35, the recovered ball detector 34, and the like are counted for each detector, and the results are held. The RAM 213 stores initial setting values such as the number of prize balls and the number of purchased balls set by the counting machine 300 when data collection is started. The bus 215 on the CPU board 210 is connected to a serial interface circuit 216 for interfacing data communication with the totalizer 300 outside the collection controller, and is periodically (eg, one minute). The data collected so far is converted into a serial signal and sent to the counting device 300. An operation start / end signal and an initial setting value supplied from the compiling device 300 also enter the CPU board 210 via the serial interface circuit 216. Further, an interrupt generation circuit 217 is provided on the CPU board 210. The interrupt generation circuit 217 is based on a signal (clock) sent from a timer circuit 218 provided on the board. CPU 211
On the other hand, for example, an interrupt is performed once every 100 ms,
The program according to the flow as shown in FIGS. 8 and 9 is executed. As a result, the CPU 211 scans various detectors by sequentially accessing the buffers 216 on the input board 220 and sequentially reads various signals held in the latch circuit 214 to form corresponding control signals, Data obtained from various detectors is stored in the RAM 213. The timer circuit 218 also forms a reference clock for determining a baud rate (transfer speed) when serial communication is performed between the serial interface circuit 216 and the external compiling device 300, and the serial interface circuit 216 To be supplied. An example of a control procedure for data collection of a pachinko gaming machine by the CPU 211 in the collection controller 200 is shown in FIGS. 8 and 9, whereby all data collection is automatically performed. However, in the present system, the following preparation work is required before data collection by the collection controller 200 is started. This operation is the minimum necessary for automatic data collection. That is, first, all balls in the gaming machine such as the supply tray 102, the receiving tray 103, the prize ball tank 117, the collected ball processing device 80, etc. of the pachinko gaming machine from which data is to be collected are removed. Then, the power of the collection controller 200 is turned on, and the measurement start switch SW of the interface box 90 provided corresponding to the game machine to be operated subsequently.
Turn on 2. Thereby, the collection controller 200 can know the gaming machine from which data should be collected. That is, even if 16 gaming machines are installed under the control of the collection controller 200, data can be collected only for desired gaming machines, and other gaming machines can be collected as described above. The boring operation can be omitted. Next, the power of the compiling device 300 is turned on, and a floppy disk storing a program for setting initial values and compiling data is set in the external storage device 320.
Then, the program is read and executed, and the operation procedure is first shown on the screen of the display 330. In accordance with this, the number of prize balls, the number of purchased balls, and the like are determined using the keyboard 310 for each gaming machine for which data is to be collected. Set the initial value of. If the operator does not make any settings, the number of prize balls is set to 13, and the number of purchased balls is set to 75 (corresponding to the average number of purchased coins per player). then,
When a start command is given, the CPU 211 in the collection controller 200
Starts the control according to the program in the ROM 212. FIGS. 8 and 9 show a control procedure of the CPU 211 when the present invention is applied to a data totaling system in a pachinko machine maker. The control of the CPU 211 when applied to the system of the pachinko amusement arcade includes supply processing to the prize ball tank in steps S1 and S11 in FIG. 8, collection processing of various data described later, and transmission processing of the collected data to the counting machine 300. Only the complicated control of step S2 and subsequent steps is unnecessary. In the control shown in FIG. 8, the CPU 211 outputs an appropriate address and sequentially drives the buffers 216 on the input board 210 to fetch signals from the respective detectors. It is determined whether or not the prize ball tank 117 is empty based on the signal from the corresponding ball shortage detector 31 (step S1). When the prize ball tank 117 is empty, the process jumps to step S11, in which a drive signal of the replenishing device 60 is output to supply the prize ball tank 117. This replenishment is performed 400 at a time, and the replenishing device 60
This is confirmed by a signal from a detector in the box. If replenishment normally takes 30 seconds due to clogging or the like and the number of replenished balls does not reach 400 after 90 seconds, for example, the interface box 90 is used. The upper abnormality display lamp L1 is turned on, and the alarm buzzer B sounds. When the supply to the prize ball tank 117 is completed,
Proceeding to step S2, it is determined whether or not the number of game balls on the supply plate 102 is 260 or more. Supply tray 102
The number of balls above is the number of balls (number of purchased balls) initially discharged onto the supply tray 102 by the ball-lending device 40, and the number of accumulated prize balls paid out for winning balls (safe balls) generated during the game. And the number of hit balls fired in the game board, the number of balls to be purchased is determined by a drive signal from the CPU 211 to the ball-lending device 40, and the number of accumulated prize balls is determined in advance by a detection signal from the safe ball detector 35 and From the set number of prize balls for one winning ball (for example, 13), the number of hit balls can be easily calculated from detection signals of the collected ball detector 34 and the foul ball detector 33. As described above, when the number of balls on the supply plate 102 is 26
The reason for determining whether or not the number is 0 or more is that if the number of balls on the supply plate 102 increases, the balls overflow from the supply plate and spill out, making it impossible to collect accurate data. In step S2, the number of balls on the supply plate 102 is 2
If it is determined that the number has not reached 60, the shutter 72 in the middle of the prize ball outlet path 122 on the back of the game board (see FIG. 4)
Is switched as shown by the broken line so that all the paid out prize balls flow out onto the supply plate 102 (step S).
3). When it is determined in step S2 that the number of balls on the supply plate 102 has reached 260 or more, the shutter 72 in the middle of the prize ball lead-out path 122 on the back of the game board is switched as shown by a solid line and paid out. All the awarded prize balls are caused to flow out onto the receiving tray 103 (step S12). The switching of the shutter 72 is performed by driving the solenoid 73 approximately 0.8 seconds after the safe ball detector 35 detects the safe ball. This is because when the prize ball paid out by the prize ball discharge device 116 passes through the branch point of the prize ball outlet path 122, when the shutter 72 is rotated, the shutter bites the ball and completely passes through the path. This is to prevent the な く な る from closing. On average, it is approximately 0. 0 from the time when the winning ball (safe ball) that activated the winning ball controller 112 is detected by the safe ball detector 35 to the time when all the prize balls (13) have passed the branch point. It takes 6 seconds. Accordingly, by switching the shutter 72 0.8 seconds after the detection of the safe ball as described above, it is possible to prevent the ball from jamming in this portion. The number of balls in the receiving tray 103 can be calculated as the sum of the safe ball detection signal and the foul ball detection signal after the shutter 72 is switched. After switching the shutter, the process proceeds to step S4, where it is determined whether or not the number of balls in the receiving tray 103 is 250 or more. In step S4, the number of balls on the receiving tray 103 is 25.
If it is determined that the number has not reached zero, the shutter for removing balls provided at the bottom of the tray 103 is closed (step S5). However, in step S4, the pan 10
When it is determined that the number of balls on the third tray 3 has reached 250 or more, the ball punching device 50 is operated to open the shutter provided at the bottom of the tray 103, and the balls in the tray 103 are pulled out (step S3). S13). As described above, in step S13, the tray 103
By removing the ball inside, the overflow in the saucer
Can be prevented. When the ball is removed by the ball removing device 50, the number of removed balls is detected and counted by the internal detectors 32a to 32c and stored in the RAM 213. After step S5 or S13, the process proceeds to step S6, where it is determined whether or not the number of balls on the supply tray 102 is more than 20, and if it is more than 20, the process jumps to step S1. Repeat the operation. Then
If it is determined that the number of balls on the supply tray 102 has become 20 or less, the process proceeds to step S7, and it is determined whether or not the number of balls on the tray 103 is 25 or more. This is to determine whether or not there are enough balls to be moved from the receiving tray 103 when the number of balls on the supply tray 102 is reduced. If it is determined in step S7 that the number of balls in the receiving tray 103 is 25 or more, the process proceeds to step S14, in which the ball removing device 50 is operated to remove all the balls in the receiving tray 103, and then proceeds to step S15. Then, here, the ball-lending device 40 is operated to supply 25 balls onto the supply tray 102 at one time. Thereby, it is possible to prevent the supply tray 102 from being empty and the hit ball firing device from running idle. The operation of steps S7 → S14 → S15 replaces the operation of the player transferring the ball to the supply tray 102 if there is no ball on the tray 103 when the ball on the supply tray 102 runs out during the game. In the present embodiment, there is no apparatus for performing such a work, so that this operation is performed in a pseudo manner by the ball removing device 50 and the ball-lending device 40. Therefore, in this case, even if the ball feeding device 40 is operated in step S15 to replenish the supply tray, R
The number of purchased balls in the AM 213 is not increased, and the number of removed balls from the tray 103 is reduced by 25 instead. After step S15, the process returns to step S1 to repeat the above operation. On the other hand, if it is determined in step S7 that the number of balls in the tray 103 is not more than 25, the process proceeds to step S8, where the remaining number of balls already removed from the tray 103 and the current number of balls in the tray 103 are determined. It is determined whether or not the sum is 25 or more. The fact that the sum is 25 or more means that in the actual game, there are 25 or more prize balls (including foul balls) already paid out, and the player returns it to the supply tray, This means that there is no need to buy a ball from the ball rental equipment again. Therefore, if it is determined in step S8 that there are 25 or more balls, the process proceeds to step S15, where 25 balls are supplied from the ball-lending apparatus 40 to the supply tray 102, and 25 is subtracted from the remaining number of balls to be removed instead. Hereinafter, this is referred to as a reducing sphere. On the other hand, if it is determined in step S8 that the sum of the remaining number of balls to be removed and the number of balls in the receiving tray 103 is not more than 25, the process proceeds to step S9, in which the ball-lending apparatus 40 is operated and supplied. A ball-lending device driving signal for replenishing balls on the plate 102 is output. Then, in response to this, as shown in FIG. 6, the pachinko gaming machine Pi sends the interface circuit 91
Is output to the collection controller 200 via the control unit 200, and the number of purchased balls is calculated based on the detected signal, and the accumulated number of purchased balls is increased by that number. At this time, the number of coins purchased at one time is determined based on the initial set value, and if the number is not set, 75 balls are automatically purchased. After step S9, the process returns to step S1 to repeat the above operation. While the CPU 211 performs control in accordance with the above procedure, it receives detection signals from various detectors and special game mode generation signals, performs calculations, collects various data, and collects the data every minute. Hand over to 300. The data collected by the collection control device 200 and passed to the counting device 300
For example, the number of purchased balls, the number of foul balls, the number of safe balls, the number of out balls, the number of collected balls, the number of refill balls, the number of balls in the prize ball tank (remaining amount),
There are the number of balls in the supply tray, the number of balls in the tray, the number of return balls, the number of balls, the number of balls (the number of balls in the supply tray + the number of balls in the tray + the number of balls), the number of hits, and the like. It should be noted that the number of payouts is a predetermined number (for example, 300
When the number reaches 0, even if there is a supply request signal from the ball shortage detector 31, the supply to the prize ball tank 117 is not performed, the display lamp L3 of the interface box 90 is turned on, and the buzzer B is sounded. And let them know that it has been “stopped”. When it stops, the collection controller 2
00 stops the data collection, and then the operator operates the clear switch SW1 on the interface box 90 to clear the collected data, removes all the balls in the gaming machine, and turns on the measurement start switch SW2 again. Then, data collection is restarted. In the above case, the collection controller 200 knows the number of times of stopping by counting the number of times of operation of the clear switch SW1, and can pass this to the counting machine. The counting machine 300 processes the various data as described above received from the collection control device 200, and further processes the data itself, such as the number of splits (outgoing balls ÷ purchasing balls × 10) and the degree of slump (the number of safe balls per minute). By calculating the data, for example, a line graph as shown in FIG. 10 or a bar graph as shown in FIG.
The image is displayed on the CRT display device 330 or printed by the printer 340. As described above, according to the data collection system of this embodiment, not only the supply of balls to the prize ball tank 117 but also the supply of Operations such as replenishment and withdrawal of the prize balls in the receiving tray 103, which have conventionally required manual operations, and data collection such as the number of winning balls are all performed automatically. In addition, when applied to a pachinko machine manufacturer's data aggregation system, it is not necessary for each gaming machine to have an operator to collect data, supply and remove balls, etc. Can be performed continuously without the need for As a result, highly reliable data can be obtained. Further, in the above embodiment, since the gaming machine itself is hardly provided with any special device for the test except for the switching shutter 72, it is possible to collect extremely accurate data with a slight increase in cost. According to this embodiment, since the special mode generation signal is transmitted from the pachinko gaming machine to the management device,
The game data can be collected while distinguishing between the special game state and the normal game state. Therefore, the progress of the game during the special game can be grasped, and for example, it is possible to know whether or not the gaming machine is likely to cause a phenomenon called so-called puncture in which the right expires before the special game is completely completed. Moreover, according to this embodiment, the types of data that can be collected are increased as compared with the conventional method that relies on manual labor, various types of data are collected, and based on the collected data, graphs and other easy-to-understand materials are widely distributed. Not only can it be created, but it can be displayed while the system is running as well as after the system is running.
Therefore, the gaming state of each gaming machine can be grasped in real time. In addition, pachinko machine manufacturers can streamline the process up to the final commercialization by modifying the arrangement of obstacle nails in the gaming machine based on the collected data, and can develop efficient new models. Further, since various kinds of data can be collected as described above, by performing different nail adjustments for each machine, it is possible to easily know a change in characteristics due to the adjustment. As a result, the data can be printed out in the form of graphs and tables, and used as reference data for determining the final gauge (nail arrangement), so that better gaming machines can be developed. At the same time, the characteristics of each gaming machine and the method of adjusting the nails can be explained in an easy-to-understand manner and with high reliability while showing the materials to the gaming store. As a result, the characteristics of each model can be fully understood, adjustments suitable for various conditions can be promptly performed, and the gaming shop can perform management utilizing the characteristics of each gaming machine. The present invention is not limited to the above-described embodiment, and various modifications are conceivable. For example, in the above embodiment, the hit ball hitting each winning opening provided in the game area is collectively detected by the detector 35 as a safe ball. However, a detector is provided for each winning opening, and each winning opening is provided. Ease of hitting a hit ball may be collected as data.
In addition to the winning opening, a detector is provided at an appropriate position in the game area and the back mechanism plate (for example, in the middle of a guiding gutter or a prize ball outlet path) to detect a ball passing through a specific flow path. It is also possible to check the flow condition. In any of the above cases, if a non-contact type sensor for sensing metal is used as a detector and it is attached to the glass plate on the front of the game board using a suction cup or the like, the detector is relatively simple. Can be mounted and the mounting position can be changed. It is also possible to provide a sensor for detecting the position where the hit ball fired by the hit ball firing device 2 first jumps, and to collect data based on the difference in the hit position. Further, at the time of the operation test, it is also possible to input the conditions other than the gaming machine, such as the temperature and humidity under test, the degree of polishing the ball, and print the data together with the collected data. As described above, the present invention is a game in which a predetermined number of game balls are discharged to the supply tray (102) provided on the front side based on the establishment of a predetermined game ball discharge condition. A gaming machine (for example, a pachinko gaming machine) equipped with a ball discharging device (for example, a prize ball discharging device 116) and a predetermined number of games provided corresponding to the gaming machine based on a required ball discharging command signal. In a game facility device (for example, a pachinko game facility) including a game ball supply device (for example, a ball rental device 40) that discharges a ball so as to be able to supply to the supply plate, each game is located at a position corresponding to the game machine. A game ball collecting means (for example, a pull-out device) which is individually provided to the machine and collects at least the required game balls, which are drawn out of the game machine out of the game balls discharged from the game ball discharge device, into the inside of the game facility device. Ball processing equipment 55), and the detecting means provided in the game ball collecting means for detecting one flowing down game ball and counting the detection signals to calculate the game ball information (for example, the ball drop detectors 32a to 32c). ) And, based on the game ball information counting the detection signal from the detection means, to the gaming machine corresponding to the game ball supply means, it is possible to supply the game ball for the game, The player can count the acquired game balls on the spot without carrying a heavy ball box to the counting device remote from the game machine, and can supply the game balls to the game machine based on the counted game ball information. Therefore, unlike the conventional case, the player does not have to directly supply the game ball with his / her hand, and the trouble of supplying the game ball is eliminated, and the player can concentrate on the game. In addition, since dirt on the game balls is prevented from attaching to the hands of the player, there is also an effect that a very clean game environment can be provided. Further, since the game can be performed by using the acquired balls without placing a large number of ball boxes at the feet or the like, there is no shortage of balls even if the amount of balls in the equipment is reduced, and the equipment and the equipment inside the equipment are not generated. Can be downsized and simplified. Furthermore, by placing the ball box, the space in the pachinko game store does not become narrow, it is possible to provide a player with ample game space, and disadvantages such as accidentally falling down the ball box may occur. Absent. In addition, there is no need for the game store to prepare a large number of ball boxes, and there is an effect that management and cleaning of a large number of ball boxes are not required. In addition, the effects described above can be realized by a conventional gaming machine without introducing a card-type gaming machine of an enclosed ball type.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view showing a configuration example of a pachinko gaming machine in which data is collected by a data totaling system according to the present invention and an auxiliary device provided around the pachinko gaming machine; FIG. 2 is a pachinko gaming machine. And FIG. 3 is a rear view of the auxiliary device, FIG. 3 is a cross-sectional view showing a configuration example of a ball drop processing device, FIG. 4 is an enlarged view of a chain line A portion in FIG. 2, and FIG. 5 is an entire data totaling system according to the present invention. FIG. 6 is a block diagram showing an example of the configuration of an interface box, FIG. 6 is a block diagram showing an example of the configuration of an interface box, FIG. 7 is a block diagram showing an example of the configuration of a collection controller, and FIG. 8 is a control procedure of a CPU in the collection controller. The first half of the flowchart showing an example, [FIG. 9] The second half of the flowchart showing an example of the control procedure of the CPU in the collection controller, [FIG. 10] The representation of the data obtained by the data totaling system according to the present invention It is a graph showing an example. FIG. 11 is a graph showing a representation example of data obtained by the data totaling system according to the present invention. [Description of Signs] 1 gaming board 2 hitting ball launching device 3 guide rail 4 variable display device 5 special variable winning device 7, 8 specific winning port 10 out port 31-35 detector 40 ball-lending device 50 ball-drawing device 60 replenishing device 72 Switching shutter 90 Interface box 102 Supply tray 103 Receiving tray 117 Prize ball tank 122 Prize ball outlet 200 Collection controller 210 CPU board 220 Input board 230 Output board 300 Aggregator

Claims (1)

(57) [Claims] A game machine provided with a game ball discharge device for discharging a predetermined number of game balls on a supply plate provided on the front side based on the establishment of a predetermined game ball discharge condition, and provided corresponding to the game machine. A game ball supply device that discharges a predetermined number of game balls based on a required ball discharge command signal so that the game balls can be supplied to the supply tray,
In a game facility device including, a required game that is individually provided for each gaming machine at a position corresponding to the gaming machine, and is at least extracted from the gaming machine out of the gaming balls discharged from the gaming ball discharging device. A game ball collecting means for collecting balls into the game facility device, and a game ball collecting means provided in the game ball collecting means for detecting one flowing down game ball and counting detection signals to calculate as game ball information. A detecting means is provided, and based on the game ball information obtained by counting the detection signals from the detecting means, it is possible to supply a game ball for a game to a gaming machine corresponding to the game ball supplying means. A game facility device characterized by the above.