JP2000342813A5 - - Google Patents

Description

[Title of the Invention] Game ball discharge mechanism
[Claim of claim]
[Claim 1] provided in the middle of the ball flow downstream pathA ball discharging device that performs a ball discharging operation of discharging gaming balls of a prescribed discharge number according to a unit amount of money;
When abnormal discharge operation of the game ball by the ball discharge device is recognized, the ball stopper member is projected into the ball flow-out path to allow the flow of the game ball.With ball stop mechanism to forcibly stop,
Have
In the ball engagement state in which the ball stopper member protrudes into the ball flow downstream path, the ball stopper mechanism is provided upstream of the ball discharge device so that the ball discharge device can discharge only gaming balls less than the prescribed discharge number. Of the provided ball rental machineIn the game ball discharge mechanism,
SaidBy ball discharge deviceSaidIn conjunction with the ball discharge operationSaidBall stopper mechanism abnormality detecting means for detecting an abnormality of the ball stopper mechanism;
SaidAbnormality notifying means for notifying of an abnormality when an abnormality of the ball stopping mechanism is detected by the ball stopping mechanism abnormality detecting means;,
Equipped with
The ball stopper mechanism abnormality detecting means is
Pre-operation means for supplying a drive signal to a drive source of the ball stopper to put the ball stopper of the ball stopper into the ball locking state when the ball discharging device is not operated;
The ball discharging device causes the ball discharging device to execute the ball discharging operation while maintaining the ball locking state of the ball stopper by the pre-operation means, and generates an insufficient state for discharging the number of gaming balls smaller than the prescribed discharging number. Means for generating shortage condition,
Equipped with
Even though the ball discharge device generates a shortage state of discharging the game ball number smaller than the specified discharge number by the shortage state generation means, the ball stop mechanism is operated when the specified discharge number of game balls is discharged. Judging that an abnormality has occurredA game ball discharge mechanism characterized by
[Claim 2]The ball discharge device includes a discharge sensor for counting the number of game balls discharged.
The ball stopper mechanism abnormality detecting means is
When the game ball discharge number shortage state is generated by the shortage state generation means, the number of unpaid money and the time-out time of the unpaid discharge operation timer are set, and the ball stopper member of the ball stopper mechanism is retracted from the ball flow downstream path. To provide a drive signal to the drive source of the ball stopper to automatically eliminate the shortage.
If the number of gaming balls having passed the discharge sensor does not reach the number of unpaid money even if the unpaid discharge operation timer has timed up,2. The game ball discharge mechanism according to claim 1, wherein it is determined that an abnormality has occurred in the ball holding mechanism.
3. The pre-operation means is operated each time the main power is turned on.SaidActivate the ball stop mechanismSaidGame ball in the ball flow down pathFlow ofForce to stop
SaidInsufficient condition generation means is after the main power is turned on.SaidBall discharge devicebyFirst timeThe ball discharging operationWhen the shortage occurs,
The shortage state eliminating means confirms the normal operation of the ball stopper mechanism due to the occurrence of the shortage state, and retracts the ball stopper member from the ball flow downstream path by the number of unpaid pieces from the ball discharging device. Discharge the game ballThe gaming ball discharge mechanism according to claim 2, characterized in that:
Detailed Description of the Invention
[0001]
Field of the Invention
The present invention relates to a game ball discharge mechanism for discharging a game ball used in a game machine such as a pachinko machine or an arrange ball game machine.
[0002]
[Prior Art]
A conventional game ball discharge mechanism will be described by taking a ball rental machine provided in parallel to a game machine as an example.
This kind of ball rental machine is installed in an island facility in parallel with a game machine, and for example, a ball discharge device capable of discharging a required number of game balls, and a supply whose ball outlet communicates with the ball discharge device A game ball discharge mechanism including a ball supply path, a discharge ball flow down path through which gaming balls discharged by the ball discharge device flow, and a ball rental control device for controlling the operation of the ball discharge device.
In this game ball discharge mechanism, the game ball from the island facility side is supplied to the ball discharge device by the supply ball supply passage, and the game ball discharged by the ball discharge device with the detection of the inserted coin is And it pays out to a player side through the nozzle member connected to this discharge ball flow down path.
[0003]
In this game ball discharging mechanism, if a state is formed in which game balls are continuously discharged, it is more than the number to be discharged, in the case where a failure occurs in the ball discharging device or an illegal action is made. The game balls of the game are discharged, giving a great disadvantage to the game arcade. Therefore, in order to prevent such a problem, a ball stopping mechanism capable of forcibly stopping the gaming ball is provided in the middle of the ball flow down path where the gaming ball flows down, and the unexpected gaming ball, that is, is originally discharged A configuration is considered in which the ball stopping mechanism is operated to forcibly stop the game ball when the game ball which should not be discharged has been discharged from the ball discharge device.
[0004]
[Problems to be solved by the invention]
However, such ball stopper mechanism may not be used for a long period of time after being installed in a game arcade, since it operates only after an unexpected game ball is discharged. As described above, if the period of nonuse is extended for a long time, rust or the like causes a break in the drive source such as a solenoid or a mechanical component such as a ball stopper mechanically connected to the drive source. And the like may not be able to operate normally due to dust or the like. Then, if the driving source and mechanical parts do not operate normally, when the ball discharging device discharges an unexpected game ball due to a failure etc., the ball stopping mechanism provided with the angle does not function and the game shop is large. It will bring a disadvantage.
Furthermore, since this ball stopper mechanism operates by the occurrence of the above-mentioned failure, the ball discharging device operates normally even if the ball stopper mechanism is broken. For this reason, the failure of the ball stopper mechanism was easily overlooked.
[0005]
The present invention has been made in view of such circumstances, and it is an object of the present invention to provide a game ball discharge mechanism capable of reliably operating the ball stopper mechanism when necessary.
[0006]
[Means for Solving the Problems]
The present invention has been proposed to achieve the above object, and the one described in claim 1 is provided in the middle of the ball flow downstream path.A ball discharging device that performs a ball discharging operation of discharging gaming balls of a prescribed discharge number according to a unit amount of money;
When abnormal discharge operation of the game ball by the ball discharge device is recognized, the ball stopper member is projected into the ball flow-out path to allow the flow of the game ball.With ball stop mechanism to forcibly stop,
Have
In the ball engagement state in which the ball stopper member protrudes into the ball flow downstream path, the ball stopper mechanism is provided upstream of the ball discharge device so that the ball discharge device can discharge only gaming balls less than the prescribed discharge number. Of the provided ball rental machineIn the game ball discharge mechanism,
SaidBy ball discharge deviceSaidIn conjunction with the ball discharge operationSaidBall stopper mechanism abnormality detecting means for detecting an abnormality of the ball stopper mechanism;
SaidAbnormality notifying means for notifying of an abnormality when an abnormality of the ball stopping mechanism is detected by the ball stopping mechanism abnormality detecting means;,
Equipped with
The ball stopper mechanism abnormality detecting means is
Pre-operation means for supplying a drive signal to a drive source of the ball stopper to put the ball stopper of the ball stopper into the ball locking state when the ball discharging device is not operated;
The ball discharging device causes the ball discharging device to execute the ball discharging operation while maintaining the ball locking state of the ball stopper by the pre-operation means, and generates an insufficient state for discharging the number of gaming balls smaller than the prescribed discharging number. Means for generating shortage condition,
Equipped with
Even though the ball discharge device generates a shortage state of discharging the game ball number smaller than the specified discharge number by the shortage state generation means, the ball stop mechanism is operated when the specified discharge number of game balls is discharged. Judging that an abnormality has occurredIs a game ball discharge mechanism characterized by
[0007]
What is claimed in claim 2 isThe ball discharge device includes a discharge sensor for counting the number of game balls discharged.
The ball stopper mechanism abnormality detecting means is
When the game ball discharge number shortage state is generated by the shortage state generation means, the number of unpaid money and the time-out time of the unpaid discharge operation timer are set, and the ball stopper member of the ball stopper mechanism is retracted from the ball flow downstream path. To provide a drive signal to the drive source of the ball stopper to automatically eliminate the shortage.
If the number of gaming balls having passed the discharge sensor does not reach the number of unpaid money even if the unpaid discharge operation timer has timed up,The gaming ball discharging mechanism according to claim 1, wherein it is determined that an abnormality has occurred in the ball stopping mechanism.
[0008]
According to the third aspect of the present invention, the pre-operation means is operated each time the main power is turned on.SaidActivate the ball stop mechanismSaidGame ball in the ball flow down pathFlow ofForce to stop
SaidInsufficient condition generation means is after the main power is turned on.SaidBall discharge devicebyFirst timeThe ball discharging operationWhen the shortage occurs,
The shortage state eliminating means confirms the normal operation of the ball stopper mechanism due to the occurrence of the shortage state, and retracts the ball stopper member from the ball flow downstream path by the number of unpaid pieces from the ball discharging device. Discharge the game ballIt is a game ball discharge mechanism according to claim 2 characterized by things.
[0009]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described by taking a game ball discharge mechanism of a ball rental machine as an example. Here, FIG. 1 is a view showing the ball lending machine 3 installed in the island facility 2 in a state of being arranged next to the pachinko machine 1 which is a typical gaming machine.
[0010]
The pachinko machine 1 is surrounded by a machine frame 4 and a frame-like front frame 5 is attached to the front of the machine frame 4 so as to be able to open and close. On the back of the front frame 5, there is attached a game board 7 in which an opening of the front frame 5 is faced from behind to form a game area 6. Also, the front frame 5 is attached with the glass frame 9 holding the front glass 8 and the open / close panel 11 with the upper plate 10 formed on the front so as to be able to open and close so as to close the opening from the front. It is Further, below the opening and closing panel 11, an ashtray 12, a lower tray 13 and a firing operation handle 14 are provided.
The upper tray 10 provided on the opening / closing panel 11 is a member for temporarily storing gaming balls discharged as a rental ball or a prize ball, and the gaming balls stored in the upper tray 10 are sequentially placed at the firing position. Supplied.
[0011]
Next, the ball lending machine 3 will be described based on FIGS. 1 and 2. The ball lending machine 3 has a narrow-width housing 21, and on the front of the housing 21, a status notification unit 22 that reports availability and the like by lighting of an LED or the like, a 100 yen coin and a 500 yen coin. For example, a coin insertion slot 23 for inserting, a return button 24 operated when returning the inserted coin, and a ball number display unit 25 for displaying the number of unit lent balls per 100 yen, for example, horizontally and vertically A nozzle member 26 rotatably mounted to guide the rental ball to the upper plate 10 of the pachinko machine 1 and a return port 27 for discharging a coin to be returned are provided.
[0012]
A ball discharging unit 30 capable of discharging a required number of gaming balls, a supply ball supply passage 31 communicating the ball outlet with the ball discharge unit 30, and a game in the supply ball supply passage 31 are provided inside the housing 21. A ball stop mechanism 32 for permitting the flow of the ball or forcibly stopping the game ball, a discharge ball flow downstream path 33 for guiding the game ball discharged by the ball discharge unit 30 to the nozzle member 26, a ball discharge A ball rental control device 34 for controlling the unit 30, the ball holding mechanism 32, etc., an installation state monitoring unit 35 for detecting the mounting state of the housing 21 to the island installation 2, identification of coins inserted from the coin insertion slot 23 A coin identification machine (Censor) 36 and the like are provided.
[0013]
Here, the ball discharging unit 30, the supply ball supply path 31, the ball stopping mechanism 32, the discharging ball flow down path 33, and the ball lending control device 34 constitute the gaming ball discharging mechanism of the present invention. And, the supply ball supply passage 31 (upstream ball flow down passage) and the discharge ball flow down passage 33 (downstream ball flow down passage) constitute the ball flow down passage of the present invention. Further, the ball discharging unit 30 disposed in the middle of the ball flow down path functions as the ball discharging device of the present invention. In addition, the ball lending control device 34 functions as the ball stopper mechanism abnormality detecting means of the present invention, and constitutes a part of the abnormality notifying means.
[0014]
As shown in FIG. 3, the supply ball supply passage 31 described above is provided to meander in a substantially U shape in the front-rear direction, and the ball inlet is opened at the rear of the upper surface of the casing 21 and the ball outlet is the ball discharging unit 30. It communicates with the ball inlet of the The ball inlet of the refilling ball supply passage 31 is in communication with the ball outlet of the branch dam 40 of the island facility 2. This branch 40 is branched from the middle of the ball supply rod 41 (see FIG. 1) attached to the top of the island facility 2 in a state of being slightly inclined downward along the longitudinal direction of the island, and guides the game ball Do.
In addition, a movable shutter 42 is provided at a connection portion between the supply ball supply passage 31 and the branch 40. The movable shutter 42 is opened upon attachment of the ball rental machine 3 to the island facility 2 to form a state in which the game balls from the branch 40 can be guided to the supply ball supply path 31. Further, the movable shutter 42 is closed upon removal of the ball rental machine 3 from the island facility 2 and closes the ball inlet of the supply ball supply passage 31.
[0015]
In the middle of the upper portion of the supply ball supply passage 31, a supply ball detection mechanism 43 as a defined ball amount detection means is provided. The supply ball detection mechanism 43 is a mechanism for confirming that the game balls of the prescribed discharge number (for example, 25 pieces corresponding to 100 yen) are stored on the upstream side of the ball discharge unit 30, and In the embodiment, it comprises the replenishment ball detection member 44 and the replenishment ball detection switch 45.
Then, when the game balls of the prescribed number of discharges or more are stored, the free end of the supply ball detection member 44 enters the inner empty part of the supply ball detection switch 45 by contacting the game balls from above, and supplies The detection signal of the ball detection switch 45 becomes, for example, the “H” level. On the other hand, when the stored gaming balls are less than the prescribed number of discharges, the free end of the replenishment ball detection member 44 is rotated downward until it abuts on the bottom surface of the replenishment ball supply path 31 to detect the replenishment balls. Remove from the switch 45. As a result, the detection signal of the refilling ball detection switch 45 becomes, for example, the “L” level.
[0016]
The ball holding mechanism 32 is an operation for discharging the game ball unexpectedly by the ball discharging unit 30, for example, an operation for discharging the game ball abnormally due to a failure, or an operation for discharging the game ball abnormally due to an unfair player's fraudulent act. Is activated to forcibly stop the game balls in the supply ball supply passage 31. In the present embodiment, the ball stopper mechanism 32 is provided in the middle of the lower portion of the supply ball supply passage 31, that is, at a position upstream of the ball discharging unit 30 and downstream of the supply ball detection mechanism 43.
[0017]
The illustrated ball stopper mechanism 32 is attached in a state in which the tip portion can be inserted into and withdrawn from the refilling ball supply passage 31, and this tip portion stops the gaming ball in the refilling ball supply passage 31 or And a ball stopper solenoid 47 for moving the tip of the ball stopper 46 into and out of the supply ball supply passage 31 by reciprocating the plunger connected to the ball stopper 46. .
[0018]
The ball stopper solenoid 47 is a kind of drive source (ball stopper drive source), and in this embodiment, a latching solenoid, that is, a plunger portion is pulled into the solenoid casing simply by applying a pulse voltage, or from the casing It is configured using a solenoid of a type that can be made to project and that can hold a drawn state or a projected state without requiring electric power supplied at the time of previous energization when not energized.
The ball stopper solenoid 47 is electrically connected to the ball rental control device 34, and the projection and retraction of the plunger portion is controlled by the drive signal from the ball rental control device 34.
[0019]
The ball stopper member 46 is disposed so that the tip end portion thereof can be retracted in the vicinity of the ball outlet in the supply ball supply passage 31, and the gaming ball is locked at this position. Specifically, as shown in FIG. 3, the end portion of the ball supply passage bent downward to communicate with the ball inlet of the ball discharge unit 30, the ball stopper 46 of It is arranged to make the tip end part come and go.
[0020]
Then, in the non-operating state of the ball stopper mechanism 32 in which the plunger portion of the ball stopper solenoid 47 protrudes, as shown by the solid line in FIG. 3, the tip portion of the ball stopper 46 retracts from the supply ball supply passage 31, A flow permission condition in which the flow of the ball is permitted is formed. On the other hand, in the operation state in which the plunger portion is pulled in, as shown by a dotted line in FIG. 3, the tip end portion of the ball stopper 46 projects into the supply ball supply passage 31, and the gaming ball in the supply ball supply passage 31 It abuts on this tip part and stops. Therefore, the ball locking state in which the flow of the gaming ball is prohibited is formed.
[0021]
In addition, the ball stopping member 46 has a place where the tip end portion appears so that the ball discharging unit 30 can discharge only gaming balls less than the specified discharging number in the operating state of the ball stopping mechanism 32.
In the example of FIG. 3, the end of the replenishment ball supply passage 31 is the exit / recession location of the tip end portion of the ball stopper 46 so that only 10 game balls smaller than the prescribed discharge number of 25 are discharged.
[0022]
In the ball discharging unit 30, the ball inlet communicates with the ball outlet of the refilling ball supply passage 31, and the ball outlet communicates with the ball inlet of the discharging ball flowing down passage 33, and the ball flow passage is bent in a substantially S shape in the longitudinal direction. 50 is provided.
Further, in the middle of the ball flow passage 50, the discharge sensor 51 capable of detecting the game ball in the ball flow passage 50 and the tip end portion thereof can be attached and withdrawn on the downstream side of the discharge sensor 51 in the ball flow passage 50. A ball locking member 52 is provided for stopping the gaming ball by the tip portion and allowing the flow of the gaming ball. Further, the ball locking member 52 is provided with a discharge solenoid 53 as a discharge drive source. The discharge solenoid 53 causes the tip of the ball locking member 52 to project into the ball flow passage 50 by reciprocating the plunger connected to the ball locking member 52, or the tip of the ball locking member 52. The part is retracted from the ball channel 50 or the like.
[0023]
The discharge sensor 51 and the discharge solenoid 53 are electrically connected to the ball rental control device 34, and the discharge solenoid 53 is controlled to be excited or demagnetized by a drive signal from the ball rental control device 34.
[0024]
In the case where game balls of the specified discharge number are discharged from the ball discharge unit 30, the ball rental control device 34 performs the following control.
First, the discharge solenoid 53 is excited by the application of the drive signal to retract the tip portion of the ball locking member 52 from the ball flow passage 50, and the gaming ball is caused to flow down. At the same time, based on the detection signal from the discharge sensor 51 that changes as the game ball passes, for example, the rising edge of the detection signal is detected, and the number of game balls having passed the discharge sensor 51 is counted. Then, when it is determined that the game balls of the prescribed discharge number are discharged, the application of the drive signal is stopped, the discharge solenoid 53 is demagnetized, and the tip portion of the ball locking member 52 is protruded into the ball channel 50. Stop the flow of the ball.
[0025]
Next, the electrical configuration of the above-described ball rental machine 3 will be described with reference to FIG.
The ball lending control device 34 includes a control unit 60 integrally configured with a CPU, a ROM, and a RAM, an EEPROM 61 for storing backup data such as credit data, a reset switch 62, a first setting switch 63, and a second setting switch 64. And a sales output terminal 65.
Here, the first setting switch 63 and the second setting switch 64 are switches for setting the number of unit lending balls per unit amount of money (for example, 100 yen), that is, the setting number of discharges. By changing, for example, the number of unit lending balls per 100 yen can be set in the range of 24 to 26. In addition, the initial value of the unit lending ball number in this embodiment is set to 25 pieces.
Further, the sales output terminal 65 is a terminal for outputting sales information to the outside, and from this sales output terminal 65, for example, a pulse signal is output as sales information every time a rental ball of 100 yen is discharged. Be done. Then, this sales information is received by the game arcade management device and used as sales data.
[0026]
The control unit 60 is a part that controls each part of the ball lending machine 3. The control unit 60 is electrically connected to the coin identification device 36 described above, and receives the 100 yen coin signal, the 500 yen coin signal, and the acceptor trouble signal transmitted from the coin identification device 36. Further, it transmits a 100 yen acceptance blocking signal and a 500 yen acceptance blocking signal to the coin identification device 36.
Here, the 100 yen coin signal is a signal transmitted each time the 100 yen coin inserted into the coin insertion slot 23 is detected by the coin discriminator 36. Similarly, the 500 yen coin signal is a 500 yen coin. This signal is transmitted every time it is detected by the discriminator 36. Also, the acceptor trouble signal is a signal that is transmitted when a certain trouble relating to the inserted coin occurs.
On the other hand, the 100-yen acceptance blocking signal transmitted from the control unit 60 is a command signal for blocking the acceptance of the 100-yen coin in the coin discriminator 36. Similarly, the 500 yen acceptance blocking signal is a command signal for blocking the acceptance of the 500 yen coin. These blocking signals are transmitted when the next coin is accepted and exceeds the accepted upper limit value (i.e., the maximum allowable value of the credit data).
[0027]
Also, the control unit 60 receives an overflow signal from the overflow switch 66 and a detection signal from the installation state monitoring switch 67 that constitutes the installation state monitoring unit 35, and the control unit 60 The driving signal is output to the sphere number display unit (7-segment LED) 25 provided on the segment LED substrate 68.
The number-of-balls display unit 25 normally displays the number of loaned balls corresponding to the unit amount, but displays an error code indicating that an abnormality has been detected when an abnormality of the ball stopper mechanism 32 is detected. . That is, the ball number display unit 25 also functions as a part of the abnormality notifying means in the present invention.
[0028]
Furthermore, the detection signal from the discharge sensor 51 and the detection signal from the refill ball detection switch 45 are input to the control unit 60 via the relay board 69, and the discharge solenoid 53 is received from the control unit 60 via the relay board 69. Drive signal to the ball stop solenoid 47 is output. The control unit 60 also outputs a drive signal to the state notification unit (monitor LED) 22 mounted on the relay board 69.
The state notifying unit 22 normally notifies of the usable state and the like, but when an abnormality of the ball stopper mechanism 32 is detected, an error display indicating that the abnormality is detected is performed. That is, the state notification unit 22 also functions as part of the abnormality notification means in the present invention.
[0029]
Next, the operation of the ball lending machine 3 having the above configuration will be described. In the ball lending machine 3, when the main power is turned on by turning on a power switch (not shown) or the like and the reset by the reset switch 62 is performed, the ball lending control device 34 performs initialization processing. Then, in the initialization process accompanying turning on the main power, the ball rental control device 34 (ball stop mechanism abnormality detection means) functions as a pre-operation means, and closes the ball stop solenoid 47 in order to activate the ball stop mechanism 32. A drive signal for setting the state is supplied to the ball stopper solenoid 47.
When a coin is inserted after the main power is turned on, the coin is detected by the coin discriminator 36. Then, the coin discriminating device 36 transmits a coin signal to the ball lending control device 34 according to the detected coin. The ball lending control device 34 that has received the coin signal stores a number of credits (for example, 100 yen = 1 credit) according to the received coin signal, and performs a ball lending process based on the stored credit. In this sphere lending process, credits are consumed by one each and linked to the consumption of credits, a defined number of (for example, 25) rental spheres are repeatedly paid out.
[0030]
Here, when the ball lending process is performed for the first time after the main power is turned on, the ball lending control device 34 (ball stopper mechanism abnormality detecting means) functions as an insufficient state generating means and maintains the operating state of the ball stopper mechanism 32. The ball discharging operation is performed by the ball discharging unit 30 as it is. Thus, the gaming ball on the upstream side of the ball stopper 46 abuts on the ball stopper 46 and remains stopped. And, from the ball discharge unit 30, only a small number of game balls, for example, 10 game balls, are discharged. As a result, the discharge number of the rental balls is insufficient, and the remaining number unpaid is set.
[0031]
In response to the setting of the remaining number unpaid, the ball lending control device 34 functions as a shortage state eliminating means, and performs remaining number payout processing. In this remaining number dispensing process, first, the ball stopper solenoid 47 is converted to the open state in order to switch the ball stopper mechanism 32 to the inoperative state, that is, to retract the tip portion of the ball stopper member 46 from the supply ball supply passage 31. Supply drive signals. When the drive signal is supplied to the ball stopper solenoid 47, the ball rental control device 34 excites the discharge solenoid 53 and monitors a detection signal from the discharge sensor 51. Here, if the detection signal accompanying passage of the game ball is output from the discharge sensor 51, the discharge solenoid 53 is demagnetized at the timing when the game ball for the unpaid portion is discharged, and the tip portion of the ball locking member 52 Are projected into the ball flow passage 50 to stop the flow of the game balls.
When the game balls for the unpaid portion are discharged from the ball discharging unit 30 in the remaining number payout process, the ball locking control device 34 (ball stopping mechanism abnormality detecting means) operates the ball stopping mechanism 32 normally. I judge that it is.
[0032]
Also, even if the game ball does not pass the discharge sensor 51 even if the unpaid discharge operation timer (described later) is timed up after the discharge solenoid 53 is excited, or the number of game balls having passed the discharge sensor 51 is If the unpaid number has not been reached, it is considered that some abnormality has occurred on the upstream side of the ball discharging unit 30. For example, it is conceivable that the ball stopper mechanism 32 does not return to the non-operation state due to ball biting or the like, or the ball clogging occurs in the supply ball supply passage 31.
In such a case, notification of an abnormality is made by the abnormality notification means. That is, the ball rental control device 34 sets a discharge error and outputs an abnormality notification signal to the number-of-balls display unit 25 or the state notification unit 22. Then, the ball number display unit 25 that has received the abnormality notification signal displays an error code indicating that a discharge error has occurred. Further, the state notification unit 22 that has received the abnormality notification signal performs an error display that the discharge error has occurred. Furthermore, the ball lending control device 34 also sends discharge error notification information indicating that a discharge error has occurred to the game store management device.
[0033]
On the other hand, although the ball discharging operation is performed by the ball discharging unit 30 while maintaining the operating state of the ball stopper mechanism 32 in the first ball lending processing after turning on the main power, the ball lending is not set. If the processing is completed normally, the ball lending controller 34 (ball stopper mechanism abnormality detecting means) determines that an abnormality has occurred in the ball stopper mechanism 32 such as disconnection of the ball stopper solenoid 47 or malfunction of the ball stopper member 46. .
In this case, notification of an abnormality is made by the abnormality notification means. That is, the ball rental control device 34 sets a ball stop abnormality error and outputs an abnormality notification signal to the ball number display unit 25 or the state notification unit 22. Then, the number-of-balls display unit 25 having received the abnormality notification signal displays an error code indicating that the ball stop abnormality error has occurred. In addition, the state notification unit 22 that has received the abnormality notification signal performs an error display that the ball stop abnormality error has occurred. Further, the ball lending control device 34 transmits ball-stopping abnormal error notification information indicating that a ball-stopping abnormal error has occurred also to the management device of the game arcade.
[0034]
In the present embodiment, even if the ball stopping abnormality error is set, the ball lending machine 3 is continuously used without stopping immediately. This is because even if the ball stopper mechanism 32 is not switched to the operating state, it does not affect the ball lending process at all. Then, when the ball stopping abnormality error is set, when the ball rental machine 3 is not used, it is made to take measures such as replacement.
[0035]
In the present embodiment, which performs the above operation, the ball stopper mechanism 32 is converted to the operating state in conjunction with the turning on of the main power, and in the first ball lending process after the turning on of the main power, the ball is maintained while this operating state is maintained. Since the game balls are discharged from the discharge unit 30, that is, since the ball lack condition is intentionally generated, a shortage occurs in the paid game balls, so that the ball stopper mechanism 32 is normal. The operation can be confirmed, and it can be confirmed that the ball stopper mechanism 32 is not functioning normally by discharging the regular number of game balls without any shortage.
Therefore, even if an abnormality such as a failure occurs in the ball stopper mechanism 32, the abnormality can be surely detected without missing the abnormality. Therefore, when the ball discharging unit 30 discharges an unexpected game ball due to a failure or the like, the ball stopper mechanism 32 can be reliably operated, and it is possible to prevent the game arcade from being disadvantaged. .
[0036]
Furthermore, since it has been confirmed whether or not the ball stopper mechanism 32 is functioning properly at the time of the first ball discharge after turning on the main power, even if an abnormality occurs in the ball stopper mechanism 32, the abnormality is immediately generated. I can understand. For this reason, it is possible to promptly respond to the abnormality, and it is possible to more reliably prevent the game arcade from being disadvantaged.
[0037]
Next, control of the ball lending control device 34 (the control unit 60) for performing the above-described operation will be described based on a flowchart. Here, FIG. 5 is a flow chart for explaining the main processing of the ball lending control device 34, and FIG. 6 is a flow chart for explaining timer interrupt processing which is performed in parallel with the main processing.
[0038]
First, the main processing will be described. When the ball rental machine 3 is powered on or when the ball rental machine 3 is reset, an initialization process (S1) is performed. In this initialization process, the ball holding solenoid 47 is set to the closed state, and the ball lending machine 3 is put into the initial state. The initialization process will be described in detail later.
After the initialization process, the setting process (S2) is performed. In this setting process, various set values such as the number of lent balls per unit amount (prescribed number of discharges) are set. Following the setting process, a trouble monitoring process (S3) is performed. In this trouble monitoring process, processing related to an abnormality of the ball lending machine 3 is performed, such as determination of an abnormality (error) of the ball lending machine 3 and processing for an abnormality that has occurred. This trouble monitoring process will also be described in detail later.
[0039]
When the trouble monitoring process is performed, a ball lending process (S4) is performed. In this ball lending process, it is determined based on the coin signal whether a 100 yen coin or 500 yen coin has been received by the coin identifying device 36, and if accepted, the ball discharging unit 30 is provided with a number of rental balls according to the amount. Process to discharge from In addition, this ball lending process will also be described later.
[0040]
Following the ball lending process, an output editing process (S5) is performed. In this output editing process, based on various switch information edited in the input editing process (S6), the judgment result in the trouble monitoring process (S3), etc., editing of the signal supplied to the discharge solenoid 53 or the ball stop solenoid 47, ball The display information of the number display unit 25 and the notification information of the state notification unit 22 are edited, and the transmission information to be transmitted to the management apparatus is edited. When the output editing process is performed, the input editing process (S6) is performed. In this input editing process, switch information representing the state of each switch is edited from the switch signal acquired in the input process (S12).
When the output editing process of S6 is performed, the process proceeds to the setting process (S2) described above, and the process after the setting process is executed again.
[0041]
Next, timer interrupt processing will be described. The timer interrupt process is executed by interrupting the main process at predetermined intervals (for example, 1 ms). In the timer interrupt process, first, a timer related process (S11) is performed. In this timer related processing, processing relating to a watchdog timer that monitors a predetermined execution time, and processing relating to a free running timer that generates control time are performed.
[0042]
When the timer related processing is performed, the input processing (S12) is performed. In this input process, the coin signal from the coin discriminator 36 and the acceptor trouble signal, the output from the discharge sensor 51, the first and second setting switches 63 and 64, the installation state monitoring switch 67, the overflow switch 66, etc. Get signals etc. The acquired signal is edited into a predetermined format in the input editing process (S6).
[0043]
Following this input process, an output process (S13) is performed. This output process is performed based on the editing result of the output editing process (S5), and the output solenoid 53, the ball stop solenoid 47, the state notification unit 22, the ball number display unit 25, the coin identifier 36, and the management device On the other hand, it outputs necessary signals. When the output process is performed, the timer interrupt process is ended.
[0044]
Next, the above-described initialization process (S1) will be described in detail.
As shown in FIG. 7, in this initialization process, it is first determined whether or not the initialization process is performed due to power on (S21). Here, when the power is turned on, the EEPROM 61 is checked (S22), and when the power is not turned on such as reset, the process proceeds to the internal memory clear processing (S24).
After this check process, the ball stop solenoid initialization process (S23) is performed to set the closed state of the ball stop solenoid 47. Here, when the closed state of the ball stopper solenoid 47 is set, a drive signal is supplied to the ball stopper solenoid 47 in the above output process (S13), and the ball stopper mechanism 32 is converted to the activated state. Subsequently, the stored contents of the RAM of the control unit 60 are once cleared in the internal memory clear process (S24), and an initial value is set in the initial setting process (S25). After this initial setting process, the backup data monitoring process (S26) is performed, and the process returns to the main process.
[0045]
Next, the above-mentioned trouble monitoring process (S3) will be described in detail. Here, FIG. 8 is a flowchart for explaining the trouble monitoring process, FIG. 9 is a flowchart for explaining the ejection error monitoring process in the trouble monitoring process, FIG. 10 is a flowchart for explaining the remaining number payout process in the ejection error monitoring process, FIG. It is a flowchart explaining ball stop mechanism abnormality monitoring processing in trouble monitoring processing.
[0046]
In the trouble monitoring process, first, a supply ball detection switch output monitoring process (S30) is performed. In the supply ball detection switch output monitoring process, the switch signal from the supply ball detection switch 45 is referred to, and when the switch signal indicates that there is no ball, the supply ball shortage error flag is set to set the supply ball shortage error. . When an error is set, the process proceeds to overflow switch output monitoring processing (S31). When the switch signal indicates that there is a ball, the process proceeds to overflow switch output monitoring processing without setting the error flag.
[0047]
In the overflow switch output monitoring process (S31), the switch signal from the overflow switch 66 is referred to, and when the switch signal indicates that there is a ball, the overflow error flag is set to set the overflow error, and the discharge sensor output monitoring process It transfers to (S32). When the switch signal indicates that there is no ball, the process proceeds to the discharge sensor output monitoring process without setting the error flag.
[0048]
In the discharge sensor output monitoring process (S32), referring to the signal from the discharge sensor 51, if this signal indicates no ball, the discharge unit non-ball error flag is set to set the discharge unit non-ball error, and the discharge error It shifts to monitoring processing (S33). If the signal indicates that there is a ball, the process proceeds to discharge error monitoring processing without setting the error flag.
[0049]
In the discharge error monitoring process (S33), a process of monitoring the discharge of the rental balls is performed. The discharge error monitoring process will be described in detail later.
[0050]
In the discharge fraud monitoring process (S34), abnormal discharge during the non-discharge period of the rental balls, for example, discharge of the rental balls due to the failure of the discharge solenoid 53, or of the rental balls due to cheating by the unknowable player. Judge the presence or absence of discharge, and if abnormal discharge is recognized, set the discharge incorrect error flag and set the discharge incorrect error. Then, if an error is set, the process proceeds to acceptor trouble monitoring processing (S35). If no abnormal discharge is found, the process proceeds to acceptor trouble monitoring processing without setting the error flag.
[0051]
In the acceptor trouble monitoring process (S35), referring to the editing result of the input editing process (S6), the receiver trouble flag is set when reception of the acceptor trouble signal is recognized, and the acceptor trouble state is set. Then, the processing shifts to the EEPROM abnormality monitoring processing (S36). When the acceptor trouble signal is not received, the process proceeds to the EEPROM abnormality monitoring process without setting the error flag.
[0052]
In the EEPROM abnormality monitoring process (S36), the operation check of the EEPROM 61 is performed, and when it is determined that the operation check is abnormal, the EEPROM error flag is set to set the EEPROM error, and the process proceeds to the installation state monitoring process (S37). If it is determined that the operation check is normal, the process proceeds to the installation state monitoring process without setting the error flag.
[0053]
In the installation state monitoring process (S37), the installation state of the housing 21 (i.e., the ball rental machine 3) to the island installation 2 is monitored, and installation is performed when it is determined that the housing 21 has been removed from the installation space of the island installation 2. The state error flag is set to set the installation state error, and the process proceeds to ball stop mechanism abnormality monitoring processing (S38). Also, if there is no change in the mounting state, the processing proceeds to ball stop mechanism abnormality monitoring processing without setting the error flag.
[0054]
In the ball stop mechanism abnormality monitoring process (S38), it is determined whether the ball discharging process for the first time after turning on the main power is performed, and if the ball discharging process for the first time is performed, is the ball stopping mechanism normal flag set? Confirm. Here, if the ball stop mechanism normal flag is not set, the ball stop mechanism error flag is set, and the process proceeds to the trouble control process (S39). On the other hand, if the ball stop mechanism normal flag is set, the ball stop mechanism error flag is not set, and the process shifts to the trouble control processing. The ball stop mechanism abnormality monitoring process will be described in detail later.
[0055]
In the trouble control process (S39), whether or not each of the above-described errors is set is determined based on the error flag, and a process related to the set error, for example, notification processing or operation setting of the ball stopper mechanism 32, is performed. Then, during a predetermined error, the operation of the reset switch 62 is monitored, and when the reset switch 62 is operated, the error is canceled.
[0056]
Next, the discharge error monitoring process will be described based on FIG. In this discharge error monitoring process, first, the error flag is referenced to determine whether an error has occurred (S41). Here, if an error has occurred, the process returns from this discharge error monitoring process. If an error has not occurred, it is determined whether there is a setting for the remaining number unpaid (S42). In addition, as for the setting of the remaining number unpaid, the discharging operation end timer timed up in a state where the number of game balls smaller than the specified number of discharging (for example, 25) was discharged in the rental ball discharging process (S74) described later. Case is made. Then, if the remaining number unpaid is set, the remaining number payout processing (S43) is executed, and if the remaining number unpaid is not set, the process returns from the discharge error monitoring process.
[0057]
Here, the remaining number payout processing (S43) will be described with reference to FIG.
In this remaining number payout process, first, it is determined whether or not the discharge weight timer is in operation (S51), and when it is not in operation, the "open" state of the ball stopper solenoid 47 is set (S52). Here, when the open state of the ball stopper solenoid 47 is set, the ball stopper mechanism 32 is converted to the inoperative state in the above output process (S13). If the open state of the ball stopper solenoid 47 is set, the number of unpaid bills is set (S53), and the time-out time of the unpaid discharge operation timer is set (S54). Here, the time-up time of the unpaid discharging operation timer is set to a time sufficient for the ball discharging unit 30 to discharge the number of unpaid gaming balls. In the present embodiment, it is set to 3 seconds. If this time-up time is set, the unpaid discharge operation timer is started (S55), and the discharge solenoid 53 is excited (turned on) to form a state where the gaming ball in the ball flow passage 50 can flow down (S56) ).
[0058]
If the discharge solenoid 53 is excited, the detection signal from the discharge sensor 51 is monitored to determine whether the number of gaming balls having not been paid out has been discharged (S57). Here, if the discharge is not completed, the monitoring is continued until the payout discharge operation time is up (S58), and if the discharge is completed, the discharge solenoid 53 is de-energized (turned off), and the ball flow path 50 is The game ball is stopped (S59), and the discharge wait timer is operated (S60). On the other hand, if the game balls of the unpaid number are not discharged even if the payout discharge operation timer is timed up, the discharge solenoid 53 is demagnetized (turned off) to stop the game balls in the ball flow path 50 (S61) ), The discharge error flag is set, and the discharge error is set (S62).
[0059]
If the above remaining number payout processing is completed, it is determined whether or not the number of unpaid gaming balls has been discharged in this remaining number payout processing (S44), and if the number of unpaid gaming balls is discharged, Information on the number of discharge operations is acquired (S45). The ejection operation number information indicates the number of operations of the ball ejection unit 30 after the main power is turned on. Specifically, it is information that is updated by +1 each time the discharging operation of a unit rental ball (for example, 25 pieces as the specified discharge number) corresponding to the credit “1” is performed. The discharge operation number information is set to “0” immediately after the main power is turned on, and becomes “1” in conjunction with the execution of the first discharge operation.
[0060]
If the discharge operation number information has been acquired, it is determined whether the acquired discharge operation number information is the value "1", that is, whether it is the first discharge operation after the main power is turned on (S46). Here, if the value is “1” (the first discharging operation), the ball stop mechanism normal flag is set.(S47)Return from the discharge error monitoring process. Also, in the case of a value other than "1", the ball stop mechanism normal flag is not set, and the process returns from the ejection error monitoring process.
[0061]
Next, ball stop mechanism abnormality monitoring processing (S38) will be described. As shown in FIG. 11, in this ball stopper mechanism abnormality monitoring process, first, information on the number of discharge operations is obtained (S6)3). Next, it is determined whether the acquired information on the number of discharge operations is the value "1" (S6)4If the value is “1” (the first discharging operation), it is determined whether the ball stopper mechanism normal flag is set (S6).5). Here, if the ball stop mechanism normal flag is set, it is determined that the ball stop mechanism 32 is operating normally, and the ball stop mechanism abnormality monitoring processing is returned. On the other hand, if the ball stop mechanism normal flag is not set, it is determined that the ball stop mechanism 32 is abnormal, and the ball stop mechanism error flag is set (S6)6), Set notification of ball stopper mechanism error (S67). Then, if notification of an error is set, the ball stop mechanism abnormality monitoring process is restored.
[0062]
Next, the above-mentioned ball lending process (S4) will be described. As shown in FIG. 12, in this ball lending process, a coin insertion monitoring process (S71) is performed first. In this coin insertion monitoring process, credit data is acquired, and outputs of a 500 yen acceptance blocking signal and a 100 yen acceptance blocking signal are set as necessary based on the credit data. Next, the 500 yen coin signal and the 100 yen coin signal from the coin discriminator 36 are monitored, and when the 500 yen coin signal is received, the value "5" is added to the acquired credit data, and the 100 yen coin signal When it is received, the value "1" is added to the acquired credit data. The credit data after this addition is backed up in the EEPROM 61.
[0063]
When the coin insertion monitoring process is performed, a ball lending condition monitoring process (S72) is performed. In this sphere lending condition monitoring process, first, with reference to the credit data, when the value of the credit data is "1" or more, the detection signal from the discharge sensor 51, the detection signal from the replenishment ball detection switch 45, etc. are referred to. Then, it is judged whether or not the ball lending machine 3 is in a state of being able to lend a ball. Then, the processing is branched based on the judgment result (S73), and the ball lending process (S74) is executed if the ball lending is possible, and the ball dispensing process is skipped if the ball lending can not be performed. Do.
[0064]
As shown in FIG. 13, in the rental ball discharge process (S74), the discharge operation number is updated by +1 (S81), and then the credit data is updated by -1 (S82). Backup (S83). Next, based on the set value, a prescribed discharge number per credit "1" is set (S84). In this process, for example, the prescribed number of emissions "25" corresponding to the "1" credit is set. When the defined discharge number is set, the time-up time of the discharge operation end timer is set (S85). Here, the time-up time of the discharge operation end timer is set to a time sufficient for the ball discharge unit 30 to discharge the game balls of the prescribed discharge number. In the present embodiment, it is set to 3 seconds. When this time-up time is set, the discharge operation end timer is started (S86), and the discharge solenoid 53 is excited to form a state in which the gaming balls in the ball flow passage 50 can flow down (S87).
[0065]
If the discharge solenoid 53 is excited, the detection signal from the discharge sensor 51 is monitored to determine whether the game balls of the prescribed discharge number have been discharged (S88). Here, if the discharge is not completed, the monitoring is continued until the discharge operation end timer expires (S 89), and if the discharge is completed, the discharge solenoid 53 is de-energized to play the game ball in the ball flow passage 50. Are stopped (S90), and the discharge wait timer is operated (S91). On the other hand, if the game balls of the specified discharge number are not discharged even if the discharge operation end timer has timed out, the discharge solenoid 53 is demagnetized to stop the game balls in the ball flow path 50 (S92). The number unpaid is set (S93), and the rental ball discharging process is ended. Then, the setting of the remaining number unpaid is referred to in the above-mentioned remaining number payout processing (S43), and the unpaid gaming ball is discharged in the remaining number payout processing.
[0066]
In the above embodiment, the ball lending machine 3 having the game ball discharging mechanism has been described as an example, but the present invention is not limited to the ball lending machine 3 and is represented by the pachinko machine 1 The present invention can also be applied to the ball discharging mechanism of a gaming machine.
[0067]
Moreover, although said example demonstrated the example which provided the stop mechanism 32 in the middle of the replenishment ball supply path 31, this invention is not limited to this structure. For example, the present invention can be applied to a configuration in which the ball stopper mechanism 32 is provided in the middle of the discharge ball flow downstream path 33. In this case, for example, a ball stopper mechanism 32 is provided in the middle of the discharge ball flow downstream path 33, and a stop ball detection switch (stop ball detection means) capable of detecting a game ball stopped by contacting the ball stopper mechanism 32 is provided. Then, when the game ball discharged from the ball discharging unit 30 is stopped by the ball stopping mechanism 32 and the stopped game ball is detected by the stop ball detection switch, the ball stopping mechanism 32 functions normally. I judge that there is.
[0068]
Furthermore, in the above embodiment, the ball lending control device 34 causes the discharge number shortage state of the lending balls to be interlocked with the unit ball lending operation for the first time after the power is turned on, and the remaining number is left Although the number payout process is performed, the present invention is not limited to this configuration.
For example, when the first ball lending operation after the power is turned on is performed by a plurality of unit ball lending operations, it is linked to the second and subsequent unit ball lending operations to generate an insufficient number of rental ball discharge states. In addition, the ball lending control device 34 (insufficient state generating means, insufficient state eliminating means) may be operated.
In this case, if the first ball lending operation after power-on is a ball lending operation based on the insertion of a 500 yen coin, five unit ball lending operations are repeated. Therefore, the ball lending control device 34 converts the ball stopper solenoid 47 into the closed state immediately before shifting to the third unit ball lending operation or the fourth unit ball lending operation, and generates the shortage number of rental ball discharge numbers. .
With this configuration, after the unit ball lending operation has been performed several times, the number of discharges of the rental ball is insufficient, which makes it difficult for the player to feel uncomfortable or distrust.
[0069]
【Effect of the invention】
As described above, the present invention has the following effects.
According to the invention of claim 1,Ball stop mechanism abnormality detection means is a pre-operation means for supplying a drive signal to a drive source of the ball stop member to bring the ball stop member of the ball stop mechanism into the ball locking state when the ball discharging device is not operating. Generating an insufficient state in which the ball discharging device causes the ball discharging device to execute the ball discharging operation while maintaining the ball locking state of the ball stopper by the pre-operation means, and discharging the number of gaming balls smaller than the prescribed discharging number. Even though the ball discharge device generates an insufficient state in which the ball discharging device discharges the number of game balls smaller than the predetermined discharged number by the insufficient state generating means, the game balls of the defined discharged number have It is judged that an abnormality has occurred in the ball stopper mechanism when discharged.Detection of abnormality of ball stopping mechanism linked to ball discharging operation by ball discharging devicebe able to. Therefore,Even if an abnormality such as a failure occurs in the ball stopper mechanism, this abnormality can be reliably detected without missing. Then, the abnormal notification means can surely notify the clerk or the like of the game arcade of the detected abnormality.
Therefore, even if the ball stopping mechanism is not used for a long period of time, the ball stopping mechanism can be maintained in an operable state, and the ball discharging device discharges an unexpected gaming ball due to a failure or the like. When the ball is dropped, the ball stopper mechanism can be operated reliably, and it is possible to prevent the game arcade from being disadvantaged.
[0070]
According to the invention of claim 2,The ball discharging device is provided with a discharging sensor for counting the number of game balls discharged, and the ball stopper mechanism abnormality detecting means is not paid out when the shortage state of the game ball discharging number by the shortage state generating means occurs. And a time-up time of the unpaid discharge operation timer, and supply a drive signal to the drive source of the ball stopper to retract the ball stopper of the ball stopper mechanism from the ball flow downstream path to automatically set the shortage state. If the number of gaming balls passing through the discharge sensor does not reach the number of unpaid even if the unpaid discharge operation timer has timed out,Since it is determined that an abnormality has occurred in the ball stopper mechanism, the operation check of the ball stopper mechanism can be automatically performed in the game ball payout process at the time of business. For this reason, the burden placed on the store clerk or the like of the game arcade can be reduced.
[0071]
According to the third aspect of the invention,The pre-operation means operates the ball stopper mechanism every time the main power is turned on to forcibly stop the flow of the gaming balls in the ball flow down path, and the shortage state generation means is after the main power is turned on. An insufficient state is generated at the first time of the ball discharging operation by the ball discharging device, and the insufficient state eliminating means confirms the normal operation of the ball stopping mechanism by the occurrence of the insufficient state. Since the game balls for the number of unpaid bills are discharged from the ball discharge device by evacuating from the flow down path,Check if the ball stop mechanism functions properly at the first ball discharge after turning on the main powercan do. Therefore,Even if an abnormality occurs in the ball stopper mechanism, it is possible to immediately grasp that the abnormality has occurred. For this reason, prompt action is possible, and it is possible to more reliably prevent the game arcade from being disadvantaged.
Brief Description of the Drawings
FIG. 1 is a view showing a ball rental machine installed in an island facility in a state of being arranged next to a pachinko machine.
FIG. 2 is a view for explaining the internal structure of a ball lending machine.
FIG. 3 is a view for explaining the main part structure in the ball lending machine.
FIG. 4 is a diagram for explaining an electrical configuration of a ball lending machine.
FIG. 5 is a flowchart illustrating main processing of the ball lending control device.
FIG. 6 is a flowchart illustrating timer interrupt processing performed in parallel with main processing;
FIG. 7 is a flowchart illustrating initialization processing.
FIG. 8 is a flowchart illustrating a trouble monitoring process.
FIG. 9 is a flowchart illustrating a discharge error monitoring process.
FIG. 10 is a flowchart illustrating remaining number payout processing.
FIG. 11 is a flowchart illustrating ball stop mechanism abnormality monitoring.
FIG. 12 is a flowchart illustrating a ball lending process.
FIG. 13 is a flow chart illustrating a rental ball discharge process.
[Description of the code]
1 Pachinko machine
2 island equipment
3 ball rental machine
4 machine frames
5 front frame
6 game area
7 game board
8 Front glass
9 Glass frame
10 upper dishes
11 Opening and closing panel
12 ashtray
13 lower plate
14 Launch operation handle
21 ball rental machine housing
22 status notification unit
23 coin slot
24 Return button
25 ball number indicator
26 Nozzle member
27 Return port
30 ball discharge unit
31 supply ball supply route
32 ball stop mechanism
33 Ejection flow downstream
34 ball rental controller
35 Installation status monitoring unit
36 coin identification machine
40 green leaves
41 ball supply bowl
42 Movable shutter
43 Supply ball detection mechanism
44 Supply ball detection member
45 refilling ball detection switch
46 ball stopper
47 ball stop solenoid
Ball passage of 50 ball discharge unit
51 Discharge sensor
52 ball locking member
53 Discharge solenoid
60 control unit
61 EEPROM
62 Reset switch
63 1st setting switch
64 2nd setting switch
65 sales contact output
66 Overflow switch
67 Installation status monitoring switch
68 7-segment board
69 relay board

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