JP4382203B2 - Coin dispenser - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a coin dispensing device used in game machines, money changers and the like.
[0002]
[Prior art]
As a conventional coin dispensing device of this type, for example, there is a coin dispensing device disclosed in Japanese Patent Laid-Open No. 9-319908.
[0003]
These are a base made of a circular recess whose bottom surface for receiving coins is a flat surface, a rotating disk rotatably disposed in the circular recess of the base, and a circumferential direction of the rotating disk, A plurality of openings penetrating the rotating disk in the thickness direction, and provided integrally with the rotating disk, and by rotating together with the rotating disk, the coin on the bottom surface of the circular recess is sent out in a direction away from the center of the rotating disk, The same number of fins as the opening, an actuator for rotating the rotating disk, a coin feeding opening formed by cutting out a part of the peripheral wall of the circular recess, and the rotation of the rotating disk in the coin feeding opening A guide roller disposed at the upstream end position in the direction and a detection roller disposed downstream in the rotational direction from the guide roller. The detection roller is biased by a spring in at least one direction, and is moved by a coin sent by the fin against the biasing force of the spring, and the guide roller and the detection roller which are pushed and expanded by the coin. A coin throwing device for throwing out the coin through the gap, and a predetermined number of coins stored in a coin hopper disposed above the rotating disk are urged by the spring and urged by the spring. I try to throw out well.
[0004]
In the coin payout device disclosed in Japanese Patent Laid-Open No. 9-319908, in order to more reliably detect the number of coins to be thrown out, the two detection rollers are arranged in parallel in the coin throwing direction, The detection roller is swingably supported by a detection lever. Therefore, when the two detection levers are largely swung when coins are thrown out, an optical sensor is attached at a position where they are crossed by the tip of the levers, thereby reliably counting the number of coins thrown out.
[0005]
[Problems to be solved by the invention]
However, in the coin payout device disclosed in Japanese Patent Laid-Open No. 9-319908, three rotating rollers including the two detection rollers and the guide roller are necessary for counting the number of coins to be thrown out. However, the structure is complicated and the manufacturing cost is high. Furthermore, since the sensor for counting the number of coins to be thrown is in an open state, it is possible to cover the sensor by putting a shielding plate directly into the sensor from the outside. Was prevented from counting up, and extra coins could be paid out.
[0006]
In order to avoid this problem, it is common practice to attach a cover to the sensor.
[0007]
However, even if the cover is attached only to the sensor, even if a stick-shaped foreign object is inserted from the coin feed opening and the two detection rollers are always pushed out by the foreign object, the sensor counts up. Was similarly blocked, and there was a problem of paying out extra coins.
[0008]
In order to prevent such a problem, there is a coin dispensing device as disclosed in JP-A-6-266922.
[0009]
This coin dispensing apparatus is configured by attaching a protective cover, in which a coin discharge port is separately formed, to the outside of the coin delivery opening. The protective cover is usually provided with a rotatable shielding plate that shields the coin discharge port and is rotated to a retracted position by pressing the coin to open the coin discharge port when the coin is paid out.
[0010]
However, even in this coin dispensing device, it is possible to prevent foreign objects from counting up by inserting foreign matter from the coin discharge port when the shielding plate is opened and urging the detection roller in one direction at all times. It was not a fundamental solution. Moreover, the coin-throwing device is large due to the protective cover.
[0011]
The present invention has been made in view of the above-mentioned conventional problems, and by counting the number of coins to be thrown out reliably with a small number of parts, extra coins can be thrown out or the number of coins to be thrown out is insufficient. It is an object of the present invention to provide a coin throwing device that can prevent illegal acts that cause an excessive amount of coins to be thrown out.
[0012]
[Means for Solving the Problems]
The present invention provides a base having a flat bottom for receiving coins, a rotating disk rotatably disposed on the base, and a circumferential direction of the rotating disk. A plurality of openings penetrating into the rotating disk, the coins on the base being sent out in a direction away from the center of the rotating disk by rotating together with the rotating disk, and the same number of fins as the openings, and the rotating disk An actuator for rotation, a coin delivery opening formed in the base, a detection roller swingably disposed in the vicinity of the coin delivery opening, and biased by a spring in at least one direction; and the detection roller The detection lever that is slidably disposed near the detection roller and interlocks with the detection roller, and the number of coins is counted by the swing of the detection lever. Sensor means, and in conjunction with the swing of the detection roller against the biasing force of the spring by the coin pushed out by the fin and thrown out from the coin delivery opening, In the coin dispensing device in which the detection lever swings from a normal position corresponding to the detection roller before swinging to a corresponding detection position after the detection roller swings, the detection lever is coaxially parallel to the rotating disk in the circumferential direction. And a push-back portion having the same number as that of the opening, each of which is rotated integrally with the rotating disk and capable of forcibly returning the detection lever at the detection position toward the normal position. The above object is achieved by the coin dispensing device.
[0013]
The push-back portion may be constituted by the tip of the fin.
[0014]
Further, the detection roller is swingably disposed so as to approach and separate from the center of the rotating disk, and is urged in the separation direction by the spring and passes through the coin feeding opening. When the detection roller is swung to the proximity side against the urging force of the spring by a coin, the detection roller is set to intervene within the rotation radius of the push-back portion, The push-back unit forcibly pushes back the detection roller located within the rotation radius to the separation side by its own rotation, so that the detection lever at the detection position is linked to the detection roller. It may be forcibly returned to the normal position side.
[0015]
In the present invention, the push-back portion may be formed in parallel in the circumferential direction of a push-back disk that is arranged to be rotatable integrally with the rotary disk on the back side of the base.
[0016]
Furthermore, the detection lever may be formed with a receiving portion that can contact the push-back portion at the detection position.
[0017]
Here, “interlocking” is not limited to a state in which the detection roller and the detection lever are completely integrated, but includes a case where the detection roller and the detection lever operate together for some reason. In addition, “return” is not limited to the return of the detection lever completely to the original position, but it is possible to cross at least the detection point of the detection means (position where the signal is turned on / off). It means a state.
[0018]
Further, the sensor means is not limited to the one disposed at the detection position of the detection lever. This includes a case where the sensor means is disposed on the normal position side of the detection lever, and the detection lever swings and retracts to the detection position side to “detect” the coin.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0020]
As shown in FIG. 1, the coin dispensing apparatus 10 according to the example of this embodiment includes a base 12 and a motor shaft of a motor 26 at a central position of the circular recess 12 </ b> A in the circular recess 12 </ b> A of the base 12. 26A, a sub-disk 14 that is rotationally driven along the bottom surface 13 of the circular recess 12A, a rotary disk 16 that is integrally provided on the upper side of the sub-disk 14, and a position above the rotary disk 16. The coin hopper 18 and a coin throwing control mechanism 32 provided in the base 12 at the position of the coin feeding opening 20 formed in a groove shape continuously from the circular recess 12A. .
[0021]
A plurality of openings 16A are formed in the circumferential direction of the rotating disk 16 so that the coin 24 falling from the coin hopper 18 is dropped onto the bottom surface 13 in parallel with the bottom surface 13 of the circular recess 12A. Has been. Instead of the circular recess 12A, an outer peripheral wall standing on the base 12 along the outer periphery of the circular recess 12A may be formed on the base 12. Here, the coin means a circular plate-like body such as a coin or medal.
[0022]
The sub-disk 14 has the same number of fins 15 as the openings 16A, and the coins 24 that have fallen into the guide grooves 15A formed between the fins are sent out radially outward when rotating clockwise in FIG. Has been.
[0023]
As shown in FIG. 1 and FIG. 2, which is a perspective view seen from the back side, the coin throwing control mechanism 22 is provided on the back side of the coin feeding opening 20 in the base 12 by a detection base rotating shaft 28. 12, a detection base 30 supported in a swingable manner parallel to the back surface of the sensor 12, a detection lever 34 attached to the detection base 30 by a detection lever shaft 32 on the back side thereof, and the detection base. A guide roller 36 that is attached to the upper surface of 30 and protrudes upward from a guide roller hole 20A formed at a downstream end position in the rotational direction of the rotary disk 16 in the coin delivery opening 20, and an upper side of the detection lever 34 Attached to the base 12 and formed in the vicinity of the downstream end of the coin delivery opening 20 in the rotational direction of the rotating disk. A detection roller 38 projecting from the hole 20B, and is configured with a.
[0024]
Here, the detection base 30 is formed with an arcuate rotation guide groove 40A centered on the detection base rotation shaft 28, and the detection base rotation guide shaft 40B is inserted through the rotation guide groove 40A. Accordingly, the swing range of the detection base 30 around the detection base rotation shaft 28 is limited to the length range of the rotation guide groove 40A.
[0025]
Further, a detection base spring 42 is mounted between the detection base rotation guide shaft 40B and the spring hooking side portion 42A of the detection base 30, whereby the detection base 30 is connected to the detection base rotation shaft 28. 1 is urged clockwise in FIG. 1 (counterclockwise in FIG. 2).
[0026]
A detection lever spring 44 is mounted between the spring hooking portion 44 </ b> A of the detection lever 34 and the detection base rotation shaft 28, and the detection lever 34 is detected by the tensile force of the detection lever spring 44. The shaft 32 is urged counterclockwise in FIG. 1 (clockwise in FIG. 2) about the shaft 32.
[0027]
As clearly shown in FIG. 2, the sensor base 31 is bent at a right angle downward on the free end side of the detection base 30.
[0028]
The sensor base 31 has a state in which the detection base 30 is not swung, and the detection lever 34 resists the biasing force of the detection lever spring 44 so that the distance between the guide roller 36 and the detection roller 38 is a coin. When it swings counterclockwise in FIG. 2 until it reaches the diameter, a coin throw that can be counted up by one coin thrown by being traversed by the shielding portion 34A at the tip of the detection lever 34 A sensor 46 is provided.
[0029]
That is, in conjunction with the swinging of the detection roller 38 (in the present embodiment, integrated), the detection lever 34 swings from the normal position corresponding to the position before the detection roller 38 swings. After the movement, the coin can be swung to the corresponding detection position, whereby the coin throwing sensor 46 counts up one coin to be thrown out.
[0030]
Further, as shown in FIG. 3, the detection roller 38 is disposed so as to be swingable so as to be able to approach and separate from the center of the rotating disk 16, and the detection roller 38 is attached to the detection lever spring 44. On the contrary, when swinging in the center direction of the rotating disk 16 until the distance from the guide roller 36 is equal to the coin diameter, the coin 24 is sent out through the gap between the detection roller 38 and the guide roller 36. It can be thrown out from the opening 20. At this time, the position of the detection roller 38 in the radial direction of the rotating disk 16 is set within the rotating radius of the tip of the fin 15 of the sub disk 14.
[0031]
The tip of the fin 15 of the sub-disk 14 is a push-back portion that can forcibly push back the detection roller 38 that is swinging until the gap with the guide roller 36 is equal to the coin diameter. 50.
[0032]
That is, the push-back unit 50 feeds the coins in the direction of the opening 20 and then rotates together with the rotating disk 16 to detect the detection position via the detection roller 38. The detection lever 34 can be returned to the normal position side.
[0033]
The tip of the fin 15 of the sub-disk 14 is in contact with the coin 24 at an inclination that pushes the coin 24 (the detection roller 38 thereafter) outward when the sub-disk 14 rotates clockwise in FIG. A guide surface 15B is formed.
[0034]
Reference numerals 35 in FIGS. 2 and 3 denote stoppers for restricting the detection lever 34 from swinging clockwise in FIG. 2 (counterclockwise in FIG. 3).
[0035]
Next, the operation of the coin dispensing apparatus 10 according to the example of the above embodiment will be described.
[0036]
The coin 24 that has been inserted into the coin hopper 18 and has reached the bottom surface 13 in parallel with the bottom surface 13 of the circular recess 12A from the opening 16A due to the rotation of the rotating disk 16 is rotated in accordance with the rotation of the rotating disk 16. It is pushed out radially outward along the guide groove 15A of the fin 15 corresponding to 16A.
[0037]
As shown in FIG. 4 (A), the coin 24 abuts on the guide roller 36 and is inserted between the coin roller 36 and the detection roller 38 so that the detection roller 38 is moved to the detection lever spring 44 (FIG. 1), when the center 24A of the coin 24 exceeds the straight line passing through the center of the guide roller 36 and the detection roller 38 (FIG. 4). (See (B)), the coin 24 is pushed out vigorously by the urging force of the detection lever spring 44 (see FIG. 4C) and thrown out from the coin feeding opening 20.
[0038]
In the state of FIG. 4B, the shielding portion 34A of the detection lever 34 shields the coin throwing sensor 46 attached to the sensor base 31, whereby the number of throwing coins 24 is counted up once. The
[0039]
Next, the operation of the coin dispensing apparatus 10 during an illegal act of trying to pay out extra coins will be described.
[0040]
As shown in FIG. 5A, a foreign object 52 such as a wire or a bar is inserted through the coin feeding opening 20, and the detection roller 38 (or the detection lever 34) is brought inside by the foreign object 52. When pushed in, the detection lever 34 does not normally swing, so that the coin is thrown out as shown in FIG. 5B while the count-up by the coin throw-out sensor 46 is blocked. Thrown from the unit 20.
[0041]
However, as shown in FIG. 5C, the detection roller 38 is pushed back in the separation direction with respect to the center of the rotating disk 16 by the push-back portion 50 constituted by the tip of the fin 15 to detect this. The detection lever 34 is forcibly pushed back from the detection position toward the normal position via the roller 36. Therefore, even for an illegal act such as inserting the foreign object 52, the coin throwing sensor 46 can reliably count up the coin 24A to be thrown out next time.
[0042]
Further, the case where the detection roller 38 does not return to the original position due to the malfunction of the detection lever spring 44 after the coin 24 has been thrown out is the same as shown in FIG. The push-back unit 50 pushes the detection roller 38 within the rotation radius of the push-back unit 50 to return it to the original position.
[0043]
Therefore, even if the detection lever spring 44 is malfunctioning, the coin 24 is accidentally thrown out with the gap between the detection roller 38 and the guide roller 36 being always open, resulting in an erroneous counting of the number of coins. There is no such thing.
[0044]
Next, a case where coins are not thrown out will be described.
[0045]
As shown in FIG. 6A, the coin 24 pushed by the sub disk 14 does not enter between the detection roller 38 and the guide roller 36, and the contact between the detection roller 38 and the coin 24, the sub disk 14 When the contact point between the fin 15 and the coin 24 and the center 24A of the coin 24 are arranged on a straight line, the detection lever shaft 32 is located on the left side (outside) in the drawing from the straight line. The force that rotates the lever 34 clockwise does not act.
[0046]
Therefore, the detection lever 34 does not swing against the detection lever spring 44, and the coin throwing sensor 46 does not count up coin throwing.
[0047]
At this time, a force that rotates the detection lever 34 in the counterclockwise direction acts on the detection lever 34, but the detection lever 34 abuts against a stopper 35 provided on the detection base 30 and further counterclockwise. Is unable to swing.
[0048]
When the rotating disk 16 further rotates in this state, the detection base 30 is swung counterclockwise against the detection base spring 42 around the detection base rotation shaft 28 as shown in FIG. The detection roller 38 is displaced in a direction away from the center of the rotary disk 16, whereby the fin 15 moves while pushing the coin 24 inward without interfering with the detection roller 38.
[0049]
At this time, the guide roller 36 supported by the detection base 30 swings in the guide roller hole 20A in a direction approaching the detection roller 38 (see FIG. 6B), thereby the detection roller 38 and the guide. Since the roller 36 and the detection lever are provided on the detection base, the distance between the viewpoints of the detection roller and the guide roller is the same even when the medal is locked. Therefore, if the medal passes between the two rollers, it is absolutely counted. It is a mechanism to do.
[0050]
On the other hand, the detection base 30 is urged clockwise by the detection base spring 42 around the detection base rotating shaft 28 as described above, and therefore, as shown in FIG. According to the rotation, the position of the contact point of the coin 24 changes due to the pressure, and the coin 24 moves in the guide groove 15A of the fin 15 toward the center of the rotating disk 16, that is, returned to the guide groove 15A. When 15 further rotates clockwise, it is thrown out next time.
[0051]
Therefore, even when the coin 24 is not normally thrown out between the guide roller 36 and the detection roller 38, the coin throwing sensor 46 does not count up accidentally, or the coin 24 is jammed and no lock is generated.
[0052]
Next, the coin dispensing apparatus 60 according to the second example of the embodiment shown in FIG. 7 will be described in detail.
[0053]
The coin throwing device 60 is provided with a push-back disk 62 rotatably supported by the motor shaft 26A on the back surface of the base 12, and the outer edge of the push-back disk 62 is formed with the opening 16A. The same number of the push-back portions 50 are provided at equal intervals in the circumferential direction.
[0054]
Further, as shown in FIG. 7 and FIG. 8 which is a perspective view seen from the back side, the coin throwing control mechanism 32 is provided with a detection lever shaft 32 on the back side of the coin feeding opening 20 in the base 12. 12 is mounted on the upper side of the detection lever 34 so as to be swingable in parallel with the back surface of the coin 12, and in the vicinity of the downstream end of the coin delivery opening 20 in the base 12 in the rotating disk rotation direction. A detection roller 38 protruding from the formed detection roller hole 20B, and a spring support portion 64 provided on the outer side in the radial direction of the rotary disk 16 than the detection lever shaft 32 are configured.
[0055]
Further, the coin throwing control mechanism 22 is fixed to the back surface of the base 12 so as to be positioned on the free end side of the detection lever 34, and the coin throwing control fixed to the sensor base 31. And an output sensor 46.
[0056]
The detection lever 34 is provided with a spring hooking portion 44A, and the detection lever spring 44 is mounted between the spring hooking portion 44A and the spring support portion 64, whereby the detection lever 34 is 7 is biased counterclockwise in FIG. 7 (clockwise in FIG. 8) about the detection lever shaft 32.
[0057]
Further, the detection lever 34 is formed with a receiving portion 66 protruding in the direction of the push-back portion 50, and is integrated with the detection lever 34 with respect to the center of the rotating disk 16 (motor shaft 26A). It can swing in the approach and separation directions. Further, the protrusion of the receiving portion 66 in the direction of the motor shaft 64 is such that when the detection lever 34 is set to the detection position in conjunction with the swing of the detection roller 38, the receiving portion 66 is moved to the push-back portion 50. It is set so as to be able to come into contact. In other words, the receiving part 64 intervenes within the turning radius of the push-back part 50 by its own swing.
[0058]
The other configuration of the coin throwing device 60 is almost the same as that of the coin throwing device 10 already shown in the first example of the embodiment. Detailed description will be omitted by adding reference numerals.
[0059]
According to the coin throwing device 60, as shown in FIG. 9A, the detection roller 38 (or the detection lever 34) is detected by the foreign matter 52 inserted from the outside through the coin delivery opening 20. 9B, as shown in FIG. 9B, after the coin 24 is smoothly thrown out from the coin feeding opening 20 by the rotation of the fin 15, FIG. As shown in (C), the push-back portion 50 provided on the push-back disc 62 that rotates integrally with the rotary disc 16 and the receiving portion 64 provided on the detection lever 34 come into contact with each other. The detection lever 34 at the detection position is forcibly returned to the normal position side by the rotation of the push-back portion 50.
[0060]
Therefore, it is possible to reliably prevent an illegal act that prevents the coin throwing sensor 46 from counting up by inserting the foreign matter 52. In particular, the coin throwing device 60 pushes back the detection lever 34 directly. This is very effective when the detection lever 34 is directly pushed by the foreign matter 52.
[0061]
Next, a coin dispensing apparatus 70 according to a third example of the embodiment shown in FIG. 10 will be described.
[0062]
The coin throwing device 70 includes a detection lever 34 that counts up a coin by shielding the coin throwing sensor 46 and a detection roller base 72 that supports the detection roller 38 separately from the detection lever 34. The shaft 32 is provided so as to be swingable independently.
[0063]
A spring hooking portion 44A is provided on the free end side of the detection roller base 72. A tension spring is provided between the spring hooking portion 44A and the spring support portion 64 provided in the vicinity of the detection lever shaft 32. A detection roller spring 74 is mounted. A spring receiving portion 34B is provided on the free end side of the detection lever, and a compression spring 76 is mounted between the spring receiving portion 34B and the spring hooking portion 44A. The detection roller base 72 is provided with a stopper 72A, and the detection lever 34 is urged counterclockwise in FIG. 10 by the compression spring 76 and stops in contact with the stopper 72A. It is like that.
[0064]
The other configuration of the coin dispensing device 70 is substantially the same as that of the coin dispensing device 60 shown in the second example of the embodiment. Detailed description will be omitted by attaching.
[0065]
In the coin dispensing device 70, the detection roller 38 and the detection lever 34 normally swing in conjunction with each other. However, when the detection roller 38 is pushed into the interior by a foreign object, the detection lever 34 “only” normally moves from the detection position against the urging force of the compression spring 74 by the rotation of the push-back portion 50. Return to position. Therefore, even if the detection roller 38 is pushed in by any strong force due to a foreign object, only the detection lever 34 can reliably swing and the number of coins can be counted. A transient load is not caused on the rotating motor 26.
[0066]
In each example of the above embodiment, only the case where the push-back unit 50 directly returns the detection lever 34 (detection roller 38) is shown, but the present invention is not limited to this. This includes the case where a link mechanism or the like is disposed between them to push back indirectly.
[0067]
【The invention's effect】
Since the present invention is configured as described above, it is possible to reliably throw out without making a mistake in counting the number of coins to be thrown, and to insert more than the predetermined number of coins by inserting foreign objects or the like. It has an excellent effect of preventing illegal acts.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view showing a coin dispensing device according to a first example of an embodiment of the present invention. FIG. 2 is a perspective view of a coin dispensing control mechanism of the coin dispensing device as viewed from the back. [Fig. 4] Plan view showing the coin throwing control mechanism [Fig. 4] Plan view showing the process of throwing coins by the coin throwing device [Fig. 5] Throwing coins by the coin throwing device during fraud FIG. 6 is a plan view showing a process when coins cannot be normally thrown in the coin throwing apparatus. FIG. 7 is a coin throwing apparatus according to a second example of the embodiment of the present invention. FIG. 8 is a perspective view of the coin-throwing control mechanism of the coin-throwing device as seen from the back side. FIG. 9 is a plan view showing a process of throwing coins by the coin-throwing device during fraud. FIG. 10 shows a third example of the embodiment of the present invention. Perspective view of the main part of the coin dispensing apparatus from the back according EXPLANATION OF REFERENCE NUMERALS
DESCRIPTION OF SYMBOLS 10, 60, 70 ... Coin throwing device 12 ... Base 12A ... Circular recessed part 13 ... Bottom 14 ... Sub disk 15 ... Fin 15A ... Guide groove 15B ... Inclined guide surface 16 ... Rotating disk 16A ... Opening 18 ... Coin hopper 20 ... Coin delivery Opening portion 22 ... Coin throwing control mechanism 24 ... Coin 24A ... Center 26 ... Motor 26A ... Motor shaft 28 ... Detection base rotating shaft 30 ... Detection base 31 ... Sensor base 32 ... Detection lever shaft 34A ... Shielding portion 36 ... Guide roller 38 ... detection roller 40A ... rotation guide groove 40B ... detection base rotation guide shaft 42 ... detection base spring 44 ... detection lever spring 46 ... coin throwing sensor 50 ... push-back part 62 ... push-back disk 64 ... receiving part

Claims (5)

A base having a flat bottom surface for receiving coins, a rotating disk rotatably disposed on the base, and a plurality of disks disposed in the circumferential direction of the rotating disk and penetrating the rotating disk in the thickness direction An opening provided on the rotating disk, and the same number of fins as the opening for sending coins on the base away from the center of the rotating disk by rotating together with the rotating disk, and an actuator for rotating the rotating disk A coin feeding opening formed in the base, a detection roller swingably disposed in the vicinity of the coin feeding opening, and urged by a spring in at least one direction, and a swing in the vicinity of the detection roller. A detection lever that is movably arranged and interlocks with the detection roller, and a sensor hand that counts the number of coins by swinging the detection lever And the detection roller is swayed against the urging force of the spring by the coin pushed out by the fin and thrown out from the coin feeding opening. In a coin throwing device in which a lever swings from a normal position corresponding to the detection roller before swinging to a corresponding detection position after the detection roller swings,
The opening that is coaxially arranged in parallel in the circumferential direction with the rotating disk and that can rotate together with the rotating disk and forcibly return the detection lever at the detection position in the normal position direction. A coin throwing device comprising the same number of push-back portions as the number of pushing-back portions. 2. The coin dispensing device according to claim 1, wherein the push-back portion is constituted by a tip of the fin. 3. The coin according to claim 1, wherein the detection roller is swingably disposed so as to approach and separate from the center of the rotating disk, and is biased in the separation direction by the spring. When the detection roller is swung to the proximity side against the biasing force of the spring by the coin passing through the opening, the detection roller is set to intervene within the rotation radius of the push-back portion. Has been
The detection lever at the detection position is interlocked with the detection roller by forcibly returning the detection roller located within the rotation radius to the separation side by the rotation of the push-back unit. A coin dispensing device forcibly returning to the normal position side. 2. The coin according to claim 1, wherein the push-back portion is formed in parallel in a circumferential direction of a push-back disk that is arranged to be rotatable integrally with the rotary disk on the back side of the base. Throwing device. 5. The coin dispensing apparatus according to claim 4, wherein the detection lever is formed with a receiving portion capable of contacting the push-back portion when the detection lever is in the detection position.

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