JP3776965B2 - Slot machine - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a slot machine that incorporates a microprocessor as a control subject, and in particular, the present invention relates to a slot machine having a function of preventing an illegal act by a player.
[0002]
[Prior art]
In general, a slot machine includes a box-shaped machine body and a door that is attached to the front opening of the machine body so as to be opened and closed. Inside the machine main body, three reels having a plurality of symbols displayed on the peripheral surface, a medal payer, a control circuit board, and the like are incorporated. On the outer surface of the door portion, a symbol display window for displaying symbols on the peripheral surface of each reel for three frames, a medal slot, a start lever, a stop button switch for each reel, a medal outlet, a medal tray, etc. And a medal discriminating unit for discriminating the authenticity and the number of medals inserted from the medal slot.
[0003]
When a medal is inserted into the medal slot when the game is executed, the inserted medal is guided to the medal discriminator, and only correct medals are sent into the hopper of the medal dispenser, and other medals are returned from the medal outlet. . The correct medal guided into the hopper is detected by the inserted medal detection sensor and counted as the inserted medal.
After the medal is inserted into the slot machine, when the start lever is operated, the three reels start all at once, and when the stop button switch is operated, the corresponding reels are individually stopped.
[0004]
When all the reels are stopped, it is determined whether or not there is a prize based on the combination of symbols arranged on the stop line. If the prize is won, a drive signal is output to the medal dispenser so as to pay out a predetermined number of medals. The The medal dispenser operates in response to this drive signal and pays out a predetermined number of medals in the hopper.
[0005]
Many such slot machines are installed in amusement halls such as pachinko halls. However, some players illegally misappropriate medals by improperly operating the slot machine. There is.
For example, noise is generated and a false drive signal is sent to the medal dispenser, thereby causing the medal dispenser to malfunction and causing the medal to be unjustly paid out.
[0006]
In addition, by inserting a medal caught with a thread from the medal slot and reciprocating the thread to cause the inserted medal detection sensor to detect the medal many times, Some people use a fake medal to execute a game after stopping the medal sorting function by opening it illegally and pulling out the connector of the medal discrimination unit.
[0007]
[Problems to be solved by the invention]
In order to prevent such fraud, in conventional slot machines, the microprocessor that is the controlling entity monitors specific external devices related to medal processing, such as a medal dispenser and medal discriminator, to prevent fraud. In this case, the alarm is activated by detecting this.
[0008]
However, since the monitoring of the specific external device related to the medal processing by the microprocessor is regulated by the law during the game execution, an illegal act on the specific external device related to the medal processing is performed during the game execution. There is a problem that the fraudulent act cannot be detected.
[0009]
The present invention has been made paying attention to the above-mentioned problem, and detects illegal acts on a specific external device related to medal processing by hardware, and retains the detection output to thereby specify a specific operation related to medal processing. It is an object of the present invention to provide a slot machine capable of detecting fraudulent acts performed during game execution on an external device.
[0010]
[Means for Solving the Problems]
Slot machine of this invention is one formed by a microprocessor to execute the game by controlling a set of input and output against the plurality of external devices, the plurality of external devices, specific related to medal process The external device is provided with a fraud detection circuit unit that detects an output caused by an illegal act performed during the execution of the game and holds the detection output . The microprocessor monitors the output resulting from fraud against the specific external device when waiting for the next game, and checks whether there is a detection output held in the fraud detection circuit unit and is executing the previous game It is trying to discriminate cheating.
[0011]
According to another aspect of the slot machine of the present invention, the specific external device related to the medal processing is a medal payer that pays out a payout medal and a settlement medal.
[0012]
According to another aspect of the slot machine of the present invention, the specific external device related to the medal processing is a medal discrimination unit that discriminates medals inserted from the medal slot.
[0013]
[Action]
When an illegal act is performed on a specific external device related to medal processing during game standby, the microprocessor immediately determines the illegal act. Further, when fraud for the particular external device according to the medal processed during game execution is performed by detecting the output of fraud detection circuit is due to the fraud, since retains its detection output, its After the game is over , the microprocessor checks the detection output of the fraud detection circuit unit and discriminates fraud during the previous game execution .
[0014]
In the slot machine of the second aspect, an illegal act at the time of executing the game for the medal payer is determined.
[0015]
In the slot machine according to the third aspect, an illegal act at the time of executing the game with respect to the medal determination unit is determined.
[0016]
【Example】
1 and 2 show a configuration of a slot machine according to an embodiment of the present invention.
This slot machine employs a credit system that allows a game to be executed using a deposit medal that has been inserted into the machine body in advance. A box-shaped machine main body 1 and this machine main body 1 The opening 3 on the front side of the door is composed of an openable / closable door 2 having one end pivotally attached by two hinges 4a and 4b. Inside the machine body 1, there are three reels 6a, 6b, 6c with a plurality of symbols displayed on the peripheral surface, a medal dispenser 8 having a hopper 7 for accommodating a large number of medals, and the entire machine. A control circuit board 9 for controlling the operation is incorporated.
[0017]
A symbol display window 11 is provided on the outer surface of the door 2 at a position corresponding to the reels 6a, 6b, and 6c, and the symbols of the reels 6a, 6b, and 6c can be seen through by three frames. . Further, as other components necessary for the execution of the game, a start lever 12 for starting reels 6a, 6b and 6c all at once, a medal slot 13 for inserting medals, and the number of medals deposited in the body are displayed. A deposit number display unit 17, a medal insertion switch 18 for designating that the deposited medal is consumed and the game is executed, three stop button switches 14 for individually stopping the reels 6a, 6b and 6c, and a medal tray 15 A medal discharge port 10 for releasing a medal is provided, and in the vicinity of the medal tray 15, a speaker 16 that outputs an alarm sound when an illegal act is determined is provided.
[0018]
As shown in FIG. 3, a medal discrimination unit 20 is provided on the inner surface of the door unit 2. The medal discriminating unit 20 includes a medal sorter 22 interposed in an inclined guide 19 communicating with the medal slot 13, and two inserted medal detection sensors S1 and S2. The medal chute 21 is positioned, and the inclined guide 19 is arranged so that the end 19A is located above the hopper 7 of the medal dispenser 8 when the door 2 is closed.
[0019]
The medal selector 22 discriminates the authenticity of the medal a inserted through the medal slot 13 and guided along the tilt guide 19, and as a result of the discrimination, the correct medal b to be taken into the machine is tilted. It is guided further along the guide 19 and discharged from the end 19 </ b> A to the hopper 7 of the medal discharger 8. The illegal medal c is dropped onto the medal chute 21 and returned to the medal tray 15 from the medal discharge port 10.
[0020]
A first inserted medal detection sensor S1 and a second inserted medal detection sensor S2 are provided on the downstream side of the medal sorter 22, and when the correct medal b passes, the first inserted medal detection sensor S1 is the first one. The first inserted medal detection signal i1 is generated, and then the second inserted medal detection sensor S2 generates the second inserted medal detection signal i2. When the inserted medal detection signal is generated in the order of i1 and i2, it is counted as one inserted medal and the number of medals deposited in the aircraft is added.
[0021]
If the inserted medal detection signal is generated in the order of i2 and i1, it means that the medal has gone backward through the inclination guide 19, so that it is determined that an illegal act has been performed.
[0022]
FIG. 4 shows an electrical configuration of a slot machine in which a microprocessor is used for the control unit 35.
The control unit 35 includes a CPU 25 that is a main body of control / calculation, a ROM 26 that stores programs and fixed data, and a RAM 27 that is used for reading and writing data, and the control unit 35 includes an I / O. Via the interface 28 and the bus 33, the reel motor drive circuit 29, the medal dispenser 8, the first and second fraud detection circuit units 30, 32, the speaker 16, the medal sorter 22, the first and second inputs The medal detection sensors S1, S2, three stop button switches 14, a start lever 12, a deposit number indicator 17, a medal insertion switch 18, and the like are electrically connected.
[0023]
The first fraud detection circuit unit 30 is for detecting an illegal act at the time of game execution with respect to the medal dispenser 8, and the second fraud detection circuit unit 32 is for an illegal action at the time of game execution with respect to the medal discrimination unit 20. It is for detection.
[0024]
FIG. 5 shows a specific example of the first fraud detection circuit unit 30.
The first fraud detection circuit unit 30 of the illustrated example uses a latch circuit 40 composed of a flip-flop, and an inverted signal of the power supply voltage _Vcc is used as a set input S1, and a medal payout is passed through an inverting circuit 41 as a data input D1. As the drive signal, a payout medal detection signal is given as the clock input CK1, and a clear signal is given as the reset input R1.
[0025]
The medal payout driving signal is a signal given from the CPU 25 to the medal payer 8 when paying out medals. The payout medal detection signal is a signal output by a sensor provided in the medal payer 8 when the medal payer 8 pays out a medal. Although the CPU 25 does not output a medal payout drive signal to the medal payer 8, when the medal payer 8 pays out a medal, the fraud detection signal j1 as the forward rotation output Q1 rises.
The clear signal is a signal for releasing the latch that is input by an external operation by an attendant or the like.
[0026]
FIG. 6 is a time chart showing the operation of the first fraud detection circuit unit 30.
When the CPU 25 outputs a medal payout drive signal (see FIG. 6A) by winning, the logic of the medal payout drive signal is inverted by the inverting circuit 41. Therefore, the data input D1 of the latch circuit 40 is changed from “HIGH” to “ LOW ". When the medal payer 8 is actuated by the medal payout drive signal and the medal is paid out, a sensor provided in the medal payer 8 outputs a payout medal detection signal (see FIG. 6 (2)), and at each rising edge. Latch data input D1. Since the data input D1 is “LOW” at each rising timing, the fraud detection signal j1 remains “LOW”.
[0027]
Even though the medal payout drive signal is not output from the CPU 25 to the medal payer 8, the medal payer 8 pays out a medal, that is, the medal payer 8 receives a medal payout drive signal due to fraud. When the payout is performed, the medal payout drive signal is “LOW” (indicated by a dotted line in FIG. 6A), and therefore the data input D1 of the latch circuit 40 is “HIGH”, and at each rising edge of the payout medal detection signal. Since the data input D1 in the “HIGH” state is latched, the fraud detection signal j1 becomes “HIGH” (indicated by a dotted line in FIG. 6 (3)).
The “HIGH” state of the fraud detection signal j1 is held until a clear signal is input.
[0028]
FIG. 7 shows a specific example of the second fraud detection circuit unit 32.
The second fraud detection circuit unit 32 of the illustrated example also uses a latch circuit 42 formed of a flip-flop, and an inverted signal of the connection detection signal is set as the set input S2, and a second input from the OR circuit 43 is set as the data input D2. The medal detection signal i2 or the fraud detection signal j2 is given as the clock input CK2, the first inserted medal detection signal i1 and the clear signal as the reset input R2.
[0029]
The connection detection signal is a signal that is output when it is detected that a connector is connected to the medal sorter 22. The first inserted medal detection signal i1 is a signal output when the first inserted medal detection sensor S1 detects passage of a medal, and the second inserted medal detection signal i2 is the second inserted medal detection sensor S2. Is a signal output when the passage of a medal is detected. When the connector of the medal sorter 22 is pulled out or when the second inserted medal detection signal i2 and the first inserted medal detection signal i1 are output in this order, the fraud detection signal j2 as the forward rotation output Q2 rises. .
The clear signal is a signal for releasing the latch that is input by an external operation by an attendant or the like.
[0030]
FIG. 8 is a time chart showing the operation of the second fraud detection circuit unit 32.
When the correct medal is inserted, the first inserted medal detection signal i1 rises and the clock input CK2 becomes “HIGH” (see FIG. 8 (2)), and then the second inserted medal detection signal i2 rises and the data input D2 Becomes “HIGH” (see FIG. 8 (3)). At the rising edge of the first inserted medal detection signal i1, the “LOW” level of the data input D2 is latched, and the fraud detection signal j2 remains “LOW”.
[0031]
When the second inserted medal detection signal i2 rises and then the first inserted medal detection signal i1 rises, that is, when the inserted medal reverses the tilt guide 19 due to an illegal act, the rising edge of the first inserted medal detection signal i1 ( The “HIGH” level of the data input D2 is latched at (indicated by a dotted line in FIG. 8B), and the fraud detection signal j2 becomes “HIGH” (indicated by a dotted line in FIG. 8D).
[0032]
When the connection detection signal changes from “HIGH” to “LOW” (indicated by a dotted line in FIG. 8A), that is, when the connector of the medal sorter 22 is pulled out, the set input S2 is changed from “LOW” to “HIGH”. The fraud detection signal j2 becomes “HIGH” (indicated by a dotted line in FIG. 8 (4)).
The “HIGH” state of the fraud detection signal j1 is held until a clear signal is input.
[0033]
FIG. 9 shows the control procedure by the controller 35 in steps 1-11. In the figure, “step” is indicated by “ST”.
Steps 1 to 6 are waiting for execution of the game. First, in step 1, fraud detection by software is performed.
Specifically, the first inserted medal detection signal i1 from the first inserted medal detection sensor S1 and the second inserted medal detection signal i2 from the second inserted medal detection sensor S2 are directly taken into the CPU 25. When the signals are issued in the order of the second inserted medal detection signal i2 and the first inserted medal detection signal i1, it means that the medal has gone backward. It moves to a process, otherwise determines that fraud is not detected, and moves to step 2.
[0034]
In step 2, fraud detection by hardware is performed.
That is, the outputs of the first fraud detection circuit unit 30 and the second fraud detection circuit unit 32 are taken into the CPU 25, and if any of the first and second fraud detection signals j1 and j2 is at a high level, This means that an illegal act has been performed on the medal dispenser 8 or the medal discriminating unit 20 during the execution of the game, so this determination is “YES”, and the process proceeds to the fraud notification process in Step 3. If both fraud detection signals j1 and j2 are at a low level, this determination is “NO”, and in step 6, it is determined whether or not a medal has been inserted.
[0035]
In the fraud notification process in step 3, an alarm sound is output from the speaker 16 to notify an attendant or the like that a fraudulent act has been carried out. The notification is canceled, the output of the alarm sound from the speaker 16 is stopped, and a clear signal is input to the fraud detection circuit units 30 and 32.
[0036]
In the subsequent step 6, it is determined whether or not medals necessary for executing the game have been inserted, and in the subsequent step 7, it is determined whether or not the start lever 12 has been operated. Returning to step S2, the software and hardware fraud detection is repeated.
[0037]
When the determination in step 7 is “YES” by operating the start lever 12, the game is executed in the subsequent step 8, and the CPU 25 starts all the reels 6a, 6b, 6c all at once. When all the reels 6a, 6b, and 6c are stopped by pressing the stop button switch 14, the process proceeds to the next step 9 to check whether or not a combination of symbols for winning is established on the stop line.
[0038]
If the winning combination of symbols is established, the determination in step 10 is “YES”. In step 11, the medal payer 8 is driven and a predetermined number of medals are discharged from the medal discharge port 10 to the medal tray 15. After that, the process returns to step 1 and waits for the next game.
[0039]
As a result of the winning determination in step 9, if the combination of symbols for winning is not established, the determination in step 10 is “NO”, and the process returns to step 1 to wait for the next game.
[0040]
【The invention's effect】
According to the slot machine of the present invention, for a specific external device related to medal processing, a fraud detection circuit unit that detects an output caused by fraud performed during the game and holds the detection output is provided. Since the processor checks the detection output of the fraud detection circuit unit after the game is finished to determine fraudulent activity during the previous game execution, the medal can be executed even during execution of a game prohibited from being monitored by the microprocessor. Even if a fraudulent action is performed on a specific external device related to processing, the fraudulent action can be detected immediately after the game ends, and the fair use of the slot machine can be promoted.
[0041]
In the slot machine according to the second aspect, it is possible to immediately detect an illegal act during the execution of a game performed on a medal payer for paying out a payout medal or a settlement medal after the game ends.
[0042]
In the slot machine according to the third aspect, it is possible to immediately detect an illegal act during the execution of the game performed for the medal discriminating unit for discriminating the medal inserted from the medal slot after the game ends.
[Brief description of the drawings]
FIG. 1 is a front view of a slot machine according to an embodiment of the present invention.
FIG. 2 is a front view showing a state in which a door portion of the slot machine is opened.
FIG. 3 is a front view showing a medal discrimination unit and a medal chute.
FIG. 4 is a block diagram showing an electrical configuration of the slot machine.
FIG. 5 is an explanatory diagram showing a first fraud detection circuit unit;
FIG. 6 is a time chart showing the operation of the first fraud detection circuit unit.
FIG. 7 is an explanatory diagram showing a second cheating detection circuit unit.
FIG. 8 is a time chart showing the operation of the second cheating detection circuit unit.
FIG. 9 is a flowchart illustrating a control procedure by a control unit.
[Brief description of symbols]
8 medal dispenser 20 medal discrimination unit 30 first fraud detection circuit unit 32 second fraud detection circuit unit 35 control unit

Claims (3)

A plurality of slot machines comprising a microprocessor against the external device is controlled to set the input and output to execute the game, among the plurality of external devices, in particular of the external device according to the medal processing, game A fraud detection circuit unit that detects an output caused by fraud performed during execution and holds a detection output is provided , and the microprocessor responds to fraudulent acts on the specific external device when waiting for the next game. A slot machine that monitors the output that is caused and checks the presence or absence of a detection output held in the fraud detection circuit unit to determine a fraud during the previous game execution . The slot machine according to claim 1, wherein the specific external device related to the medal processing is a medal payer that pays out a payout medal or a settlement medal. The slot machine according to claim 1, wherein the specific external device related to the medal processing is a medal discrimination unit that discriminates medals inserted from a medal insertion slot.

Images