JP3633950B2 - Coin supply method and coin supply device - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a coin replenishing method and a coin replenishing device for replenishing a coin dispensing device provided in a ball lending machine or a money changer arranged on an amusement island.
[0002]
[Prior art]
Conventionally, a coin replenishing device has been connected to a change machine installed at the island edge of amusement islands where pachinko machines and the like are arranged in order to replenish change coins. This coin replenishing device is a device that transports coins from a safe on the island edge of the amusement island to a money changer using a lifter etc., and uses the coins collected in the safe by a recovery conveyor to turn it into a money changer. It was intended to prevent the shortage of exchange coins being stockpiled.
[0003]
By the way, due to recent advances in technology, the size of money changers has increased, and there are cases where money changers are placed between pachinko machines near the center of the amusement island instead of the island edge of the amusement island. This is mainly for the convenience of the user, and there is an advantage that it is possible to exchange money without going to a money changer located far away.
[0004]
[Problems to be solved by the invention]
However, according to the prior art, when the money changer is arranged near the center of the game island, it is difficult to supply coins to the money changer.
That is, in order to supply coins to the money changer near the center of the amusement island, for example, as one method, the “medal collection and delivery device” disclosed in Japanese Utility Model Publication No. 4-448 is applied, and the lifter is removed from the safe. It is possible to use a method of lifting coins to the upper part of the game island by using it, transporting the coins to the vicinity of the center of the game island by a distribution conveyor disposed on the upper part of the game island, and supplying the coins to the money changer. However, the replenishment conveyor is very long and difficult to maintain and manage, a large installation space is required to place the replenishment conveyor, etc. on the top of the amusement island. Considering the high cost, it was not a good idea to install such a device for only one money changer.
[0005]
Another possible method is to move the safe itself to the vicinity of the money changer near the center of the amusement island and replenish with the same coin replenishing device. However, in this case, two collection conveyors must be installed so that coins can be collected from both ends of the amusement island to the central safe, and a pachinko machine with users if possible in the center of the amusement island. However, it was still not a good idea to think that it would be necessary to take up the space for installing the safe even though I wanted to install it. Also, especially considering that the work of collecting money from the safe must be done between customers and that the safe cannot be monitored from the island side, the safe itself is still installed on the island edge of the amusement island. Sometimes it was preferable.
[0006]
For these reasons, no coin replenishing device is connected to the money changer located in the center of the amusement island, and the clerk must manually replenish the coins to be paid out. It was. In addition, when there are many users, there is a problem that it becomes impossible to exchange money as soon as the clerk neglects attention.
[0007]
Therefore, an object of the present invention is to provide a coin replenishing method and a coin replenishing device capable of replenishing coins to a change machine at an arbitrary position on a game island.
[0008]
[Means and Actions for Solving the Problems]
In order to achieve the above-described object, the present invention provides a coin replenishing method for replenishing coins for dispensing to a coin dispensing device provided in a ball lending machine or a money changer arranged on a game island as described in claim 1.
A coin that is thrown into a ball lending machine and transported to a safe by a recovery conveyor is mixed with two or more face values.Before reaching the safeSeparating from the collection conveyor, the coins having a predetermined face value are selected from the separated coins by a sorter, and the selected coins having the specified face value are guided to the coin dispensing device to supply the coins for paying out. On the other hand, the coins other than the coins of the predetermined face value sorted by the sorter are returned to the collection conveyor on the downstream side in the transport direction of the collection conveyor from the position separated from the collection conveyor.
[0009]
The coin dispensing device here refers to a device that dispenses change in the case of a ball lending machine, and a device that dispenses changed coins in the case of a money changer.
According to the coin replenishing method of the present invention, when coins thrown into a ball lending machine or the like are transferred to the safe through the vicinity of the coin dispensing device by the collection conveyor,Before reaching the safeSeparated from the collection conveyor. Then, a coin having a predetermined face value is selected from the separated coins by a sorter, and the selected coin having a specified face value is guided to a coin dispensing device. Therefore, the coins for payout can be replenished without transporting the coins from the safe to the coin payout device as in the prior art. In addition, since the sorter sorts out coins of a predetermined face value to be supplied to the coin dispensing device, coins other than the predetermined face value remain, but the coins other than the predetermined face value remain from a position separated from the collection conveyor. Is also returned to the collection conveyor downstream of the collection conveyor in the transport direction.
[0010]
When coins are replenished by this coin replenishing method, the coin replenishing device according to claim 2 is preferably used.
That is, as illustrated in FIG. 1, in a coin replenishing device that replenishes coins for dispensing to a coin dispensing device M <b> 1 provided in a ball lending machine or a money changer arranged on the game island,
A collection conveyor M4 that conveys coins containing two or more kinds of face values thrown into the ball lending machine M2 to the safe M3;
The coins conveyed by the collection conveyor M4 areBefore reaching the safe M3Separation means M5 separable from above the recovery conveyor M4;
A sorter M9 for sorting coins having a predetermined face value from the coins separated by the separating means M5;
A supply flow path for supplying coins of a predetermined face value selected by the selector M9 to the coin dispensing device M1,
A return flow path for returning coins other than the coins of the predetermined face value selected by the selector M9 to the recovery conveyor M4 on the downstream side in the transport direction of the recovery conveyor M4 from the separation means M5;
Detection means M7 for detecting whether or not coins need to be replenished to the coin dispensing device M1,
This is a coin replenishing device provided with replenishment control means M8 for operating the separating means M5 according to the detection result by the detecting means M7.
[0011]
According to this coin replenishing device, when the detecting means M7 detects that it is necessary to replenish coins to the coin dispensing device M1, the replenishing control means M8 operates the separating means M5 and is conveyed by the recovery conveyor M4. The coin is separated by the separating means M5Before reaching safe M3A coin having a predetermined face value is selected from the coins separated from the transport path and separated by the separating means M5 by a sorter M9, and the coin having a specified face value selected by the sorter M9 is coined via a supply channel. Supply to the dispensing device M1. Therefore, even if the coins are not transported from the safe M3 to the coin dispensing device M1, the coins transferred to the safe M3 through the vicinity of the coin dispensing device M1 by the collecting conveyor M4 are selected from the coins having a predetermined face value, It is possible to replenish coins by guiding the selected coins to the coin dispensing device M1. The sorter M9 sorts out coins having a predetermined face value to be supplied to the coin dispensing device M1, so that coins other than the predetermined face value remain, but the coins other than the given face value are separated from the collection conveyor M4. It is returned to the recovery conveyor M4 on the downstream side in the transport direction of the recovery conveyor M4 from the position.
[0015]
【Example】
Next, embodiments of the present invention will be described with reference to the drawings.
As shown in FIGS. 2 and 3, the game island 1 on which the coin replenishing device as an example is installed is an alternately arranged pachinko machine 2 and ball lending machine 3, and 500 yen thrown into the ball lending machine 3. A collection conveyor 5 that conveys balls and 100 yen coins along the pachinko machine 2 and the ball lending machine 3, a safe 6 that collects coins conveyed to the collection conveyor 5, and a central portion of the amusement island 1 And a ball polishing machine 9 disposed behind the money changer 7.
[0016]
In this amusement island 1, the coin replenishing device includes the recovery conveyor 5, a separator 11 that separates the coins conveyed by the recovery conveyor 5 from the conveyor, and a lifter 13 that lifts the coins separated by the separator 11 upward. And a sorter 15 that sorts 500-yen coins and 100-yen coins from the coins lifted by the lifter 13, and a bellows-like shape that leads the 500-yen coins obtained by sorting with the sorter 15 to the money changer 7. Consists of a supply flow path 17 and a bellows-shaped return flow path 19 that guides 100-yen coins obtained by sorting by the sorter 15 to the recovery conveyor 5, and is loaded into the ball lending machine 3 and conveyed by the recovery conveyor 5 The collected 500 yen coins are separated from the conveyor before being collected into the safe 6 and led to the money changer 7.
[0017]
Next, characteristic portions of these configurations will be described in more detail along the coin replenishment route.
The coins thrown into the ball lending machine 3 fall on the collection conveyor 5 through the bellows-shaped collection channel 21 and are conveyed to the collection conveyor 5 to reach the separator 11.
[0018]
As shown in FIG. 4A, the separator 11 is configured to lower the shutter 31 until it abuts on the collection conveyor 5 and to block the conveyance path obliquely with respect to the traveling direction of the collection conveyor 5. Yes. For this reason, when the coin C is conveyed by the collection conveyor 5, the coin C abuts against the shutter 31 and is pushed away toward the front of the game island, and spills from the collection conveyor 5. As shown in FIG. 4B, the shutter 31 includes an arm 34 that rotates about a fulcrum 33 and a solenoid 36 that rotates by pulling one end of the arm 34 via a tension bar 35 when energized. It is attached to an operating mechanism comprising a spring 37 that biases the arm 34 that has been pulled and rotated by the solenoid 36 so as to pull it back, and is configured to descend as the arm 34 rotates.
[0019]
Coins spilled from the recovery conveyor 5 by the separator 11 are received by the lifter 13.
As shown in FIG. 5, the lifter 13 receives a coin spilled from the separator 11, rotates a first conveyor belt 42 supported by a plurality of rollers, and rotated by a plurality of rollers. The second conveyor belt 43, a motor 45 that drives the second conveyor belt 43 via a drive pulley 44, and a lower reverse roller that rotates as the lower pulley 46 on which the second conveyor belt 43 is hung is rotated. 47 and an upper reversing roller 48 that rotates as the drive pulley 44 rotates.
[0020]
The first conveyor belt 42 is an endless belt, a coin introducing portion 42a extending in the lateral direction so as to close the opening of the bottom surface 41a of the hopper 41, and a rising portion that rises smoothly and smoothly upward from the coin introducing portion 42a. 42b and a return part 42c that continues the rising part 42b to the coin introduction part 42a are formed, and are in a state of being given tension by a tension roller 42d.
[0021]
The second conveyor belt 43 is also an endless belt. The second conveyor belt 43 rises while being in contact with the raised portion 42b of the first conveyor belt 42. The second conveyor belt 43 is slightly lowered away from the first conveyor belt 42, and from the lowered position. A coin discharge portion 43b extending in the horizontal direction and a return portion 43c that continues the coin discharge portion 43b to the ascending portion 43a are formed, and a tension is applied by a tension roller 43d.
[0022]
The lower reversing roller 47 is composed of a metal roller shaft 47a and two rubber ring members 47b, as shown in FIGS. The ring member 47b, when attached to the lower reversing roller 47, has a stepped columnar shape with a thin small-diameter portion 47c on the outside and a thick large-diameter portion 47d on the inside, and is provided at four locations on the circumferential surface at equal intervals. The concave portion 47e is formed, and the small-diameter portion 47c is formed with a convex portion 47f having the same diameter as that of the large-diameter portion 47d. The ring member 47b is attached to the roller shaft 47a at an interval to form a groove 47g. As shown in FIG. 5, the lower reversing roller 47 configured as described above is disposed above the first conveyor belt 42 with a gap of approximately 1 to less than 2 coins, and has been carried in a stacked manner. The coins are flipped off to eliminate stacking, prevent clogging at the pinched portion A of the first and second conveyor belts 42 and 43, and allow the coins to be lifted up efficiently. The belt guide member 42e in the coin introducing portion 42a is disposed at a position that does not reach just below the lower reversing roller 47. This is to prevent the lower reversing roller 47 from clogging by letting the conveyor belt 42 escape downward if the lower reversing roller 47 fails to flip a coin.
[0023]
The upper reversing roller 48 is the same member as the lower reversing roller 47. As shown in FIG. 5, two or more coins are disposed above the belt guide member 43f installed in the coin discharging portion 43b of the second conveyor belt 43. They are arranged at intervals that overlap and cannot pass.
[0024]
In the lifter 13 configured as described above, when the motor 45 is driven, the second conveyor belt 43 is rotated clockwise by the driving pulley 44. At this time, the first conveyor belt 42 is rotated counterclockwise in the figure by the frictional force between the ascending portion 43a and the ascending portion 42b generated along with the rotation of the second conveyor belt 43. The lower reversing roller 47 is rotated counterclockwise in the figure by the lower pulley 46 rotated by the second conveyor belt 43, and the upper reversing roller 48 is rotated in the clockwise direction by the driving pulley 44.
[0025]
In this state, when coins are put into the hopper 41 from the separator 11, the coins are transferred by the coin introduction part 42 a of the first conveyor belt 42. At this time, as shown in FIG. 7A, when a large number of coins are overlapped and conveyed to the first conveyor belt 42, the lower reversing roller 47 that rotates at a speed faster than this transfer speed is At 47e, the edge of the coin C is caught and played. As a result, only one coin passes under the lower reversing roller 47, and when it overlaps more than that, the overlap is broken, and the first and second conveyor belts 42 and 43 are sandwiched at the sandwiching portion A. That is preventing. At this time, since the lower reversing roller 47 includes the two ring members 47b, the coin is bounced at two points and strongly pushed back.
[0026]
By the way, when the first conveyor belt 42 and the lower reverse roller 47 are driven, a large number of coins C may rise and rotate in front of the lower reverse roller 47 as shown in FIG. However, since the groove 47g is provided in the lower reversing roller 47, when a part of the coins C1 enters the groove 47g, the coins C2 and C3 on both sides thereof are out of balance and fall down. Further, as shown in FIG. 7C, when the coin C rises and rotates at both ends of the lower reversing roller 47, the coin C leans against the side wall W surrounding the conveyor belt 42, so that it is easy to maintain the balance. Every time the reversing roller 47 rotates, the coin C that rises at the convex portion 47f is flipped, so that the coin C is also out of balance and falls down. In this lower reversing roller 47, the convex portions 47f on the left and right ends are provided at positions shifted from each other by 180 degrees, so that the coins rising at both ends are flipped alternately, and more balanced. Easy to collapse.
[0027]
In this way, the coins whose overlap has been eliminated to some extent are sandwiched between the rising portion 42b of the first conveyor belt 42 and the rising portion 43a of the second conveyor belt 43 shown in FIG. The second conveyor belt 43 overflows on the coin discharge portion 43b.
[0028]
When the coin is transferred by the coin discharge portion 43 b, the upper reversing roller 48 that rotates at a speed faster than the transfer speed eliminates the overlapping of coins in the same manner as the lower reversing roller 47. Only one coin passes under the upper reversing roller 48, and when it overlaps more, the overlap is broken. Even if the upper reversing roller 48 strongly flips the coin, the guard plate 49 is provided, so there is no fear that the coin will be caught in the roller 43e.
[0029]
Coins that have passed under the upper reversing roller 48 are supplied to the sorter 15 one by one without overlapping.
As shown in FIG. 5, the sorter 15 is disposed inside the side wall 51, and a 500-yen coin slides down the top surface, but a 100-yen coin spills out, and a 100-yen coin dropped from the rail 52 passes through. 100-yen passage 53, a 500-yen passage 54 through which a 500-yen coin sliding down on the rail 52 passes, and a passage restriction that is arranged so as to be rotatable about a shaft 55 and prevents the passage of the 100-yen coin A member 56, a 100-yen counting sensor 57 that counts the number of coins that have passed through the 100-yen passage 53, and a 500-yen counting sensor 58 that counts the number of coins that have passed through the 500-yen passage 54 are provided.
[0030]
As shown in FIG. 8, the rail 52 is disposed on the inner side of the opposite side wall 51 with a dimension Q slightly larger than the diameter P of the 500 yen coin, with a dimension S slightly larger than the diameter R of the 100 yen coin. ing. Therefore, when coins supplied one by one from the lifter 13 are transferred to the rail 52 and begin to slide down, the 500-yen coin is completely carried by the rail 52 and slides down, but the 100-yen coin is not carried and the rail 52 Fall from. Even if the edge of the 100-yen coin slips to some extent while being caught by the rail 52, the 100-yen coin does not continue to slide down because it hits the passage restricting member 56 shown in FIG. Note that the passage restricting member 56 is attached to the weight 56a so that when the weight of a 500-yen coin is applied, the weight is adjusted to be pushed up by rotating around the shaft 55. Therefore, the passage of the 500-yen coin is not blocked. . Thus, the sorted 500-yen coins and 100-yen coins pass through the 100-yen passage 53 and the 500-yen passage 54, respectively, and the numbers are counted by the 100-yen counting sensor 57 and the 500-yen counting sensor 58, respectively. The 100-yen counting sensor 57 and the 500-yen counting sensor 58 are photosensors arranged so that the falling coins pass between the light projecting unit and the light receiving unit.
[0031]
The 500 yen coins coming out from the sorter 15 are supplied to the money changer 7 through the supply flow path 17. As shown in FIGS. 9A and 9B, the money changer 7 includes a safe 61 that can store a large amount of 500 yen coins, and a dispensing hopper 62 that is supplied with coins little by little from the safe 61. A bill receiving unit 64 for performing authenticity determination, denomination of face value, discharging of bills, recovery of regular bills, and the like of bills inserted from the bill insertion slot 63. An external supply port 65 is formed on the back side of the safe unit 61, and coins conveyed by the supply flow path 17 are supplied from there. The safe unit 61 is provided with a replenishment request sensor 66 for detecting the remaining amount of stored coins, and the payout hopper 62 is also provided with a detention sensor 67 for detecting the remaining amount of stored coins. Yes. The replenishment request sensor 66 detects the presence / absence of coins based on the state of conduction between two metal plates provided in the safe unit 61. When coins come into contact with the two metal plates, the replenishment request sensor 66 becomes energized, and conversely, there are insufficient coins. It is a continuity sensor that uses the fact that power is cut off when a coin leaves the metal plate. In the embodiment, the replenishment request sensor 66 is turned off when energized and turned on when energized. As the replenishment request sensor 66, in addition to such a continuity sensor, an optical sensor arranged so that coins block the optical path, or a magnetic sensor detecting the distance of the coins can also be used.
[0032]
On the other hand, in FIG. 5, the 100-yen coins coming out of the sorter 15 are returned to the collection conveyor 5 by the return channel 19. Here, as shown in FIG. 2, the return channel 19 is connected to the downstream side of the separator 11. Therefore, the returned 100-yen coin is not separated again by the separator 11 and is conveyed to the safe 6.
[0033]
In the above configuration, the recovery conveyor 5 is continuously operated when the power is turned on, and the coins input to the ball lending machine 3 are always recovered to the safe 6. The operation of the separator 11 and the lifter 13 are controlled by a control unit 71 described below.
As shown in FIG. 10, a separator drive circuit 73 for operating the separator 11 and a lifter drive circuit 75 for operating the lifter 13 are connected to the control unit 71, and a drive signal is sent to each circuit. Output. Further, the above-mentioned 100-yen counting sensor 57, 500-yen counting sensor 58, replenishment request sensor 66, and the like are connected, and detection signals from these sensors are respectively input. The control unit 71 is a logical operation circuit configured around a known CPU, ROM, RAM, and the like.
[0034]
Next, operation | movement of the coin supply apparatus controlled by this control part 71 is demonstrated based on the flowchart of FIG.
First, the control unit 71 checks whether or not it is necessary to supply coins to the money changer (S10). In the embodiment, when the replenishment request sensor 66 is turned off, it is determined that replenishment is necessary. When replenishment is necessary (S10: YES), the lifter 13 is operated (S20), and the separator 11 is operated with a slight delay (S30). Here, the operation timing of both is slightly delayed because the separator 11 supplies coins after the lifter 13 is in a steady operation state. Even if the separator 11 and the lifter 13 are simultaneously operated. I do not care.
[0035]
When the separator 11 and the lifter 13 are operated, the coins conveyed to the recovery conveyor 5 are dammed up by the shutter 31 of the separator 11, passed to the lifter 13, and sorted by the sorter 15. 7 and 100 yen coins are sent to the collection conveyor 5.
[0036]
While coins are being replenished, the control unit 71 checks whether or not replenishment is still necessary (S40). In the embodiment, when the replenishment request sensor 66 is turned on, it is determined that replenishment is unnecessary. If replenishment becomes unnecessary (S40: YES), the operation of the separator 11 is stopped (S50), and the lifter 13 is stopped with a slight delay (S60). Here, the reason why the stop of the lifter 13 is slightly delayed is to prevent coins from remaining in the lifter 13.
[0037]
By the way, conventionally, coins thrown into the ball lending machine 3 are counted by a counting sensor provided in the ball lending machine 3, and coins collected in the safe 6 separately are counted by a counting sensor attached to the safe 6. If the values counted by both do not match, it is checked whether or not coins are caught on the way of the recovery conveyor 5 or the like. In this regard, when the coin replenishing device is introduced, coins thrown into the ball lending machine 3 are not necessarily collected in the safe 6, but the 100 yen counting sensor 57 and the 500 yen counting sensor 58 are provided. The number of coins that have been returned and the number of coins that have been returned can be confirmed, and maintenance and inspections such as when a coin is caught are easy.
[0038]
As described above, according to the coin replenishing device of the present embodiment, when the coins thrown into the ball lending machine 3 are transferred to the safe 6 through the vicinity of the money changer 7 by the recovery conveyor 5, Before the coins are collected in the safe 6, they are separated from the conveyor and supplied to the money changer 7. Therefore, it is possible to efficiently rotate coins on the amusement island and replenish coins for payout without using a large-scale device that transports coins from the safe 6 to the money changer 7 as in the past. can do.
[0039]
Further, the money changer 7 can be arranged at an arbitrary position, and the safe 6 can be arranged at the most suitable position on the amusement island, such as the conventional island edge. Therefore, the ease of management on the pachinko parlor side and the convenience of customers are compatible, and the degree of freedom in designing the entire amusement island is increased.
[0040]
Furthermore, the conventional recovery conveyor 5 can be used as it is, and a coin replenishing device can be configured simply by adding the lifter 13 and the like, so the cost required for installation is reduced.
Furthermore, since the coins are sorted using the sorter 15, there is no limit on the coins that can be used in the ball lending machine 3.
[0041]
In addition, since coins are automatically replenished, there is no need for the pachinko store to pay attention to the shortage of coins and supply manually, reducing labor on the pachinko store and improving the operating rate of the money changer. Can do.
Even if a problem occurs in the lifter 13 or the like, the automatic changer 7 can no longer be automatically replenished, so there is no effect on the pachinko machine 2 and the ball lending machine 3, and the coins of the ball lending machine 3 Will be collected in the safe 6 and will not interfere with the operation of the pachinko parlor.
[0042]
Although the embodiments of the present invention have been described above, the present invention is not limited to these embodiments, and various modes within the scope of the present invention can be adopted..
[0043]
For exampleIn the method of the embodiment, as the replenishment timing, replenishment is started when it is detected that the remaining amount of coins for payout is small, and replenishment is stopped when it is detected that the amount of coins is sufficient. Replenishment may be started when the number of times exceeds the predetermined number, or when a certain time for which a shortage of coins is predicted has elapsed, or the predetermined number of coins has been replenished by counting the number of coins to be replenished In some cases, branching may be terminated. Alternatively, if a path is formed so that the branch path cannot be entered when the branch path becomes full, the coin can be automatically branched only when necessary.
[0045]
Furthermore, the second conveying means is not limited to the lifter that holds the coins between the two conveyors as shown in the embodiment, and may have any configuration as long as the separated coins can be conveyed to the coin dispensing device. Good. More specifically, a bucket mounted on the conveyor lifts the coin, a protrusion of the conveyor scoops the coin up, a coin that pushes the coin into the rail from below, and pushes it up in order. Further, if the first conveying means is above the coin dispensing device, it may be a conveying means for dropping coins by its own weight.
[0046]
In addition, in the embodiment, the separator 11 and the lifter 13 are operated only at the timing when replenishment is necessary, but the lifter 13 may be always operated. However, the working example is preferable in view of the operating cost. Further, the separator 11 may be always in an operating state (for example, a shutter fixed on the conveyor surface), and all coins conveyed to the recovery conveyor 5 may be branched. In that case, coins will be replenished excessively, but if the excess coins are configured to overflow from the coin dispensing device and the overflowing coins are returned to the collection conveyor, the coins will be collected in the amusement island before they are collected into the safe. It will be operated efficiently.
[0047]
Moreover, in the Example, although the structure which has arrange | positioned only one exchange device in the center part of the game island was shown, of course, you may arrange | position two or more.
[0048]
【The invention's effect】
As described above, according to the coin replenishing method of the present invention, before coins are collected into the safe, the coins are efficiently rotated within the amusement island, and a new long and complicated transport route is provided without providing a coin for dispensing. Can be replenished. Therefore, since the money changer and ball lending machine equipped with a coin dispensing device can be installed at any location, and the safe can be installed on the same island as before, it is easy to manage the safe and the convenience of the user of the money changer. Are compatible, and the degree of freedom in designing the entire amusement island is increased. Further, since it is not necessary for the pachinko store side to pay attention to the shortage of coins and supply manually, the labor of the pachinko store side can be reduced and the operating rate of the money changer can be improved.
[0049]
In particular, according to the coin replenishing device according to claim 2, since it operates only when necessary, the operating cost can be kept low..
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram illustrating the configuration of the present invention.
FIG. 2 is a plan layout view of an amusement island on which the coin replenishing device of the embodiment is arranged.
FIG. 3 is a schematic perspective view of an amusement island where the coin replenishing device of the embodiment is arranged.
FIG. 4 is a configuration diagram illustrating a separator according to an embodiment.
FIG. 5 is a configuration diagram illustrating a lifter and a sorter according to an embodiment.
6A and 6B show a lower reversing roller of the embodiment, in which FIG. 6A is a left side view thereof, FIG. 6B is a front view thereof, and FIG. 6C is a right side view thereof.
FIG. 7 is an explanatory diagram for explaining the operation of the lower reversing roller of the embodiment.
FIG. 8 is an explanatory diagram for explaining a relationship between a rail interval of a selector and a size of a coin.
9A and 9B show a money changer according to the embodiment, in which FIG. 9A is a front view thereof and FIG.
FIG. 10 is a block diagram illustrating a configuration of a control circuit according to an embodiment.
FIG. 11 is a flowchart for explaining a control operation by the control unit of the embodiment.
[Explanation of symbols]
M1 ... coin dispensing device, M2 ... ball lending machine, M3 ... safe, M4 ...Recovery conveyor, M5 ... Separation means, M7... Detection means, M8... Replenishment control means, M9.SorterDESCRIPTION OF SYMBOLS 1 ... Amusement island, 2 ... Pachinko machine, 3 ... Ball lending machine, 5 ... Collection conveyor, 6 ... Safe, 7 ... Money changer, 9 ... Ball polisher , 11 ... Separator, 13 ... Lifter, 15 ... Sorter, 17 ... Supply flow path, 19 ... Return flow path, 21 ... Recovery flow path, 31 ... Shutter , 33 ... fulcrum, 34 ... arm, 35 ... tension bar, 36 ... solenoid, 37 ... spring, 41 ... hopper, 42, 43 ... first and second Conveyor belt, 44 ... Drive pulley, 45 ... Motor, 46 ... Lower pulley, 47 ... Lower reversing roller, 48 ... Upper reversing roller, 49 ... Guard plate, 51 ... Side wall, 52 ... rail, 53 ... 100 yen passage, 54 ... 500 yen passage, 55 ... shaft, 56 ... Over-regulating member, 57 ... 100 yen counting sensor, 58 ... 500 yen counting sensor, 61 ... safety unit, 62 ... dispensing hopper, 63 ... banknote insertion slot, 64 ... banknote receiving 65, external supply port, 66 ... supply request sensor, 67 ... lock sensor, 71 ... control unit, 73 ... separator drive circuit, 75 ... lifter drive circuit.

Claims (2)

In a coin replenishment method of replenishing coins for dispensing to a coin dispensing device provided in a ball lending machine or a money changer arranged on amusement islands,
A coin having two or more types of face value that is put into a ball lending machine and transported to a safe by a recovery conveyor is separated from the recovery conveyor before reaching the safe, and from the separated coins A coin having a predetermined face value is sorted by a sorter, and the selected coin having a given face value is led to the coin dispensing device to replenish coins for payout, while the coins other than the coin having the given face value sorted by the sorter are used. A coin replenishing method, wherein coins are returned to the collection conveyor on the downstream side in the transport direction of the collection conveyor from a position separated from the collection conveyor. In a coin replenishment device that replenishes coins for withdrawal to a coin dispensing device provided in a ball lending machine or a money changer arranged on amusement islands,
A collection conveyor that transports coins with two or more types of face value thrown into a ball lending machine to a safe;
Separating means capable of separating the coins conveyed by the collection conveyor from the collection conveyor before reaching the safe ;
A sorter for sorting coins having a predetermined face value from the coins separated by the separating means;
A supply flow path for supplying coins having a predetermined face value sorted by the sorter to the coin dispensing device;
A return flow path for returning coins other than the coins of the predetermined face value sorted by the sorter to the collection conveyor on the downstream side in the transport direction of the collection conveyor with respect to the separation means;
Detecting means for detecting whether or not coins need to be replenished to the coin dispensing device;
A coin replenishing device, comprising: a replenishment control means for operating the separation means according to a detection result by the detection means.

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