JP4132639B2 - Coin sorting machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a coin processing apparatus that is used in vending machines, money changers, service devices, etc., and that sorts and stores input coins by denomination and also pays out coins that have been selected and stored as change. The present invention relates to a coin sorting device that sorts into two.
[0002]
[Prior art]
A vending machine, a change machine, a service device, etc. have conventionally been provided with a coin processing device that sorts and stores input coins according to denomination and discharges the sorted coins as change. In general, the apparatus is provided with a coin sorting device that sorts the correctness of the inserted coins and the denomination of the true coins.
[0003]
The conventional coin sorting device 51 is provided with a coin guide passage 4 for guiding the coins inserted from the coin insertion slot 5 as shown in FIG. The passage 4 is disposed downstream of the coin identifying means (not shown) for identifying whether the coin is true or false and the denomination of the true coin, and corrects the coin based on the identification result by the coin identifying means. A correct / false sorting lever 19 for sorting into the coin guide passage 20 or the false coin guide passage 21 is provided.
Of these, the genuine / false sorting lever 19 is a lever that expands one of the genuine coin guide passage 20 and the false coin guide passage 21 and simultaneously closes the other. As shown in FIG. The coin guide passage 21 is expanded.
In addition, the genuine coin guide passage 20 is provided with several kinds of sorting levers for sorting the genuine coins into the respective coin passages according to the denominations. Each coin tube is accommodated (not shown).
In addition, a sensor 23 that detects that a specie has passed is disposed upstream of the specie guide passage 20.
[0004]
In the coin sorting device 51 having such a configuration, when the coin inserted from the coin insertion slot 5 is guided into the coin guide passage 4 and determined to be the genuine coin X by the coin identifying means, the determination is made. Based on this, the true / false sorting lever 19 is operated to open the true coin guide passage 20 and the true coin X is guided to the true coin guide passage 20.
Further, when the sensor 23 detects that the genuine coin X has passed through the sensor 23 of the genuine coin guide passage 20, the true / false sorting lever 19 is operated based on the detection to block the genuine coin guide passage 20. At the same time, it is determined that the money transaction has been properly performed and the product is discharged from the vending machine.
If the inserted coin is determined to be a fake coin by the coin discriminating means 8, the correct / false sorting lever 19 does not operate, so that the fake coin is guided to the fake coin guide passage 21 and returned from a coin dispensing port (not shown). Is done.
[0005]
On the other hand, in the conventional coin sorting device 51 that performs such an operation, the true coin X tied with the hanging thread is thrown from the coin insertion slot 5, and the true coin X is guided to the true coin guide passage 20 to be sensor 23. After the product is discharged by this, there is a fear that the genuine coin X is pulled out from the coin slot 5 via the hanging thread and the product is stolen.
[0006]
Therefore, in the conventional coin sorting device 51, a lever 53 made of one plate piece is usually provided on the side wall of the coin guide passage 4 located upstream of the correct / false sorting lever 19 and downstream of the coin identifying means. As shown in FIG. 12, when trying to pull out the true coin X guided by the true coin guide passage 20 from the coin insertion slot 5 through the hanging thread 29, the pivot is supported via the shaft 52. Since the lever 53 comes into contact with a part of the genuine coin and prevents the genuine coin from flowing backward in the coin guide passage 4, this prevents as much as possible the mischief of pulling out the genuine coin and stealing the product. is doing.
[0007]
[Problems to be solved by the invention]
By the way, according to the conventional coin sorting device 51, the coin withdrawal preventing means 41 is composed of the lever 53 made of one plate piece as described above, and the lever 53 is engaged with a part of the genuine coin. Since the true coin was prevented from being pulled out, the leading end of the lever 53 collided with one wall surface of the coin guide passage 4 by the pulling-out operation of the true coin X, whereby the lever 53 was moved through the shaft 52 by the repulsive force. It was rocking. Therefore, as shown in FIG. 12, the true coin X once engaged with the lever 53 and prevented from being pulled out is guided further downstream of the coin guide passage 4 by the hanging thread 29 as shown in FIG. When the coin X is pulled up again, there is a problem that depending on the timing at which the true coin X is pulled up, the true coin X does not engage the lever 53 and flows back through the coin guide passage 4 and is pulled out from the coin insertion slot 5.
In view of the above-described circumstances, an object of the present invention is to provide a coin sorting device that prevents the withdrawal of coins as much as possible.
[0008]
[Means for Solving the Problems]
In order to solve the above-described problem, in the present invention, a coin guide passage for guiding coins inserted from a coin insertion slot, and a coin disposed in the coin guide passage and guided to the coin guide passage are inserted into the coin insertion path. In the coin sorting device comprising a coin withdrawal preventing means for preventing the coin from being pulled out from the mouth through the withdrawal member, the coin withdrawal preventing means comprises a first lever rotatably supported on the coin guide passage, A second lever that is rotatably supported by the coin guide passage and has a tip abutting against the back surface of the first lever. The coin guided by the coin guide passage is inserted through the pull-out member. When pulling out from the coin slot, the momentum of the first lever that swings by engaging with the coin is converted into the momentum of the second lever that swings by contacting the first lever. And so as to be absorbed.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the coin sorting device according to the present invention will be described in detail in Examples.
FIG. 1 is a conceptual front view of a principal part of a coin sorting device 1 according to the present invention, and the same parts as those in FIGS. 11 to 13 are denoted by the same reference numerals.
[0010]
As shown in FIG. 1, the coin sorting device 1 includes a main plate 2 and a gate plate 3 that is rotatable about the main plate 2 via a shaft 10. A coin guide passage 4 (FIG. 2) is formed between them.
The coin guide passage 4 includes a gate rail 6 disposed in the gate plate 3 and a guide rib 3 a extending along the gate rail 6. The guide rib 3 a is formed in the gate plate 3. ing.
The coin guide passage 4 is provided with a coin identifying means 8 for identifying the correctness of the coin guided by the coin guide passage 4 and the denomination of the true coin.
[0011]
Further, at the end of the coin guide passage 4 located downstream of the coin identifying means 8, the coin guided by the coin guide passage 4 passes through a hanging thread 29 (FIG. 7) that is a withdrawal member from the coin insertion slot 5. Coin withdrawal preventing means 11 is provided to prevent the coins from being pulled out.
This coin withdrawal preventing means 11 is a schematic cross-sectional view of an essential part of the coin sorting device 1 of FIG. 1 and a substantially arc-shaped recess 2a formed in the main plate 2 which is one wall surface of the coin guide passage 4. 2, a first lever 13 rotatably supported on a gate plate 3, which is the other side wall of the coin guide passage 4, via a shaft 12, and can be rotated on the gate plate 3 via a shaft 12. An L-shaped second lever 25 that is supported and whose front end 25 a abuts against the back surface of the first lever 13, and a correct / false distribution lever 19 disposed downstream of the first lever 13 and the second lever 25. (FIG. 1).
[0012]
Among these, the first lever 13 has two lever portions 14 and 15 having different inclinations as shown in FIG. 3 which is an enlarged conceptual diagram of the main part of FIG. 2 and FIG. 4 which is a right side view of FIG. Are connected by a connecting portion 13d, and an end portion bifurcated into two ends is formed at the tip end 13a, and between these end portions is thickened by a fleshing portion 13e.
[0013]
Further, the gate plate 3 supporting the first lever 13 and the main plate 2 are perpendicular to a plane inclined by a predetermined angle C with respect to the ground plane of the coin sorting device 1, as shown in FIG. Therefore, one end of the tip 13a of the first lever 13 protrudes into the coin guide passage 4 due to its gravity in the initial state, and a surface 13f formed at the end has a surface 13f. It is in contact with a groove 2b (not shown in FIG. 1) of the main plate 2, which is one side wall of the coin guide passage 4. 2 and 1 is a hole formed in the gate plate 3 for projecting the tip 13a of the first lever 13 into the coin guide passage 4.
[0014]
On the other hand, as shown in FIGS. 1 and 4, the second lever 25 is an L-shaped lever disposed on the side of the first lever 13, and the tip 25a thereof is as shown in FIG. It is formed in a cylindrical shape.
[0015]
The correct / false sorting lever 19 shown in FIG. 1 is disposed at the end of the coin guide passage 4 located downstream of the coin withdrawal preventing means 11.
The genuine / false distributing lever 19 is rotatably supported by the main plate 2 and distributes coins to the genuine coin guide passage 20 and the false coin guide passage 21 based on the authenticity of the coins by the coin identifying means 8. A lever that separates, when one of the genuine coin guide passage 20 and the false coin guide passage 21 is expanded, the other guide passage is closed. In addition, as shown in FIG. 2, the genuine / false sorting lever 19 normally opens the false coin guide passage 21 and closes the genuine coin guide passage 20.
In addition, a magnetic sensor 23 that detects that a coin has passed is disposed upstream of the genuine coin guide passage 20.
[0016]
Next, the operation of the coin sorting device 1 will be described, and the configuration will be described in more detail.
[0017]
When the correct coin X is inserted from the coin insertion slot 5 of the coin sorting apparatus 1 of FIG. 1, the correct coin X is guided into the coin guide passage 4 and passes through the coin identifying means 8.
Further, when the coin X that has passed through the coin identifying means 8 is determined to be a genuine coin by the coin identifying means 8, the true / false sorting lever 19 is operated, and as shown in FIG. While the guide passage 20 is expanded, the fake coin guide passage 21 is closed.
On the other hand, the first lever 13 (FIG. 1) of the coin pull-back means located downstream of the coin identification means 8 has the surface 13f of the tip 13a of the coin guide passage 4 in the initial state shown in FIG. The coin X that has passed through the coin identifying means 8 reaches the first lever 13 as shown in FIG. Since the lever portion 14 of the first lever 13 is pressed and the first lever 13 is rotated clockwise around the shaft 12 to retract the tip 13a from the coin guide passage 4, the true coin X is the first lever. 13 and guided upstream of the genuine coin guide passage 20 as shown in FIG.
The first lever 13 rotates counterclockwise around the shaft 12 due to the gravity of the first lever 13 itself after the specie X passes, and immediately returns to the initial position as shown in FIG. .
As shown in FIG. 5, when the first lever 13 rotates clockwise, the tip 25 a of the second lever 25 is pressed by the first lever 13, so the second lever 25 is centered on the shaft 12. Rotate clockwise. As shown in FIG. 6, when the first lever 13 returns to the initial position, the second lever 25 also rotates counterclockwise around the shaft 12 by its own weight and immediately returns to the initial position.
Further, when the magnetic sensor 23 detects that the genuine coin X has passed the magnetic sensor 23 (FIG. 6) of the genuine coin guide passage 20, the true / false sorting lever 19 closes the true coin guide passage 20, Judge that the money transaction was done properly and discharge the product from the vending machine.
In addition, the genuine coin guide passage 20 through which the genuine coin X is guided is provided with several kinds of sorting levers for sorting the true coin X into the respective coin passages of the denomination based on the denomination of the denomination by the coin identifying means 8. The genuine coins X distributed by the distribution lever are guided into the coin passage of the denomination and are then accommodated in the corresponding coin tube.
[0018]
On the other hand, when the genuine coin X to which the hanging thread 29 (FIG. 7) is tied is inserted from the coin insertion slot 5, as described above, the genuine coin X passes through the coin guide passage 4 and is guided to the genuine coin. The product is guided to the passage 20 and detected by the magnetic sensor 23, thereby discharging the product. Thereafter, as shown in FIGS. 7 and 8, the genuine coin X is passed from the coin insertion slot 5 through the hanging thread 29. If the first lever 13 is already returned to the initial position, the peripheral surface of the true coin X comes into contact with the lower end of the fleshing portion 13 e of the tip 13 a of the first lever 13.
Therefore, even if it tries to withdraw the true coin X, the reverse flow of the true coin X in the coin guide passage 4 is prevented as much as possible by the fleshing portion 13e of the first lever 13. This prevents a mischief of stealing goods without making a transaction.
Further, the true coin X that engages with the first lever 13 in this way is guided to the concave portion 2a side of the main plate 2 as shown in FIG. And abut against the recess 2a.
Therefore, even if it tries to withdraw the true coin X, the reverse flow of the true coin X in the coin guide passage 4 is prevented as much as possible by the first lever 13 and the recess 2a. The withdrawal of the true coin X is further prevented, and the mischief of stealing goods without making a transaction can be prevented.
Furthermore, in the coin sorting device 1 of the first embodiment, when the magnetic sensor 23 detects that the true coin X has passed through the magnetic sensor 23 of the true coin guide passage 20, the correct / false sorting lever 19 is set to be correct. The coin guide passage 20 is closed. Therefore, the true coin X that comes into contact with the first lever 13 and the recess 2 a is also pressed down by the true / false sorting lever 19.
Accordingly, the reverse flow of the true coin X in the coin guide passage 4 is further prevented as much as possible, thereby further preventing the withdrawal of the true coin X and stealing the goods without making a transaction. Tampering can be prevented.
[0019]
On the other hand, when the first lever 13 prevents the true coin X from being pulled out as described above, the surface 13f formed on the tip 13a of the first lever 13 is shown in FIG. As described above, the first lever 13 will oscillate counterclockwise via the shaft 52 as shown by the arrow A in FIG. 9 due to the repulsive force because it collides with the main plate 2 which is the wall surface of the coin guide passage 4. And
[0020]
However, since the front end 25a of the second lever 25 is in contact with the back surface of the first lever 13, the first lever 13 which attempts to swing counterclockwise via the shaft 12 is the second lever 25. The momentum of the first lever 13 is converted into the momentum of the second lever 25 and absorbed.
Therefore, as shown in FIG. 9, the second lever 25 swings counterclockwise through the shaft 12 by the absorbed momentum, while the first lever 13 is prevented from swinging as much as possible. Is done.
That is, the speed at which the first lever 13 tries to swing before colliding with the second lever 25 is v, and the speed before the second lever 25 collides with the first lever 13 is V. (However, V = 0), the speed after the first lever 13 collides with the second lever 25 is v ′, and the second lever 25 collides with the first lever 13 Assuming that the speed is V ′ (where each speed is a vector quantity), when the mass of the first lever 13 is m and the mass of the second lever 25 is M, the law of conservation of momentum mv + MV = m ′ Since v ′ + M′V ′ is established, if the second lever 25 converts and absorbs as much momentum as possible due to the collision between the first lever 13 and the second lever 25, the first lever 13 Since the speed v ′ after the collision can be made as small as possible, It is possible to prevent the oscillation of the bar 13 as possible.
Therefore, when the genuine coin X once engaged with the first lever 13 and prevented from being pulled out as described above is further guided to the downstream of the coin guide passage 4 by the hanging thread 29 and then pulled up again, As shown in FIG. 10, the true coin X is surely engaged with the first lever 13 regardless of the timing of the raising of the true coin X, thereby causing the coin guide passage 4 to flow backward, Pulling out from the coin insertion slot 5 can be prevented as much as possible.
[0021]
As described above, in the coin sorting device 1 of the present invention, the coin withdrawal preventing means 11 is rotatably supported by the coin guide passage 4 and the first lever 13 rotatably supported by the coin guide passage 4. Since the tip 25a is composed of the second lever 25 that abuts against the back surface of the first lever 13, the genuine coin X guided by the coin guide passage 4 is passed through a hanging thread 29 that is a drawing member. When pulling out from the coin insertion slot 5, the momentum of the first lever 13 that swings by engaging with the coin X is converted to the momentum of the second lever 25 that swings in contact with the first lever 13. Therefore, the genuine coin X (FIG. 7) once engaged with the first lever 13 and prevented from being pulled out is further coupled to the coin guide passage 4 by the hanging thread 29 as shown in FIG. After being guided down the road and then lifted again Even if it exists, as shown in FIG. 10, the swing of the first lever 13 is prevented as much as possible, and the true coin X can be reliably engaged with the first lever 13, so that the coin It is possible to further prevent the true coin X from being drawn out from the insertion slot 5 and the theft of goods by the true coin pull-out X.
[0022]
In addition, conventionally, since the pulling operation of repeating the true coin X to collide with the first lever 13 was performed in order to try to pull out the true coin X, there was a problem that the first lever 13 was damaged. However, in the coin sorting device 1 provided with the second lever 25, the first lever 13 can be prevented from always swinging and the true coin X can be prevented from being pulled out. The operation of causing X to collide can be prevented as much as possible, thereby preventing the first lever 13 from being damaged as much as possible.
[0023]
In the above-described coin sorting device 1, the pull-out prevention means 11 is further configured to include a recess 2 a formed on the wall surface of the coin guide passage 4, so that the genuine coin X guided to the coin guide passage 4 can be used. When pulling out from the coin slot 5 via the hanging thread 29, the true coin X can be brought into contact with the recess 2a as the pull-out preventing means 11 and the first lever 13 at two locations. The posture is fixed securely, and it is possible to further prevent the genuine coin X from escaping from the contact with the first lever 13 due to the fluctuation of the posture and backflowing in the coin guide passage 4. It is possible to prevent as much as possible the stealing of the goods by the withdrawal of the true coin X and the withdrawal of the true coin X.
Further, in this coin sorting device 1, the withdrawal preventing means 11 is further provided with a correct / false sorting lever 19, so that the true coin X is further pushed by the true / false sorting lever 19 and Since the fluctuation of the posture is further prevented, it is possible to prevent the genuine coin X from being pulled out from the coin insertion slot 5 and to prevent the goods resulting from the withdrawal of the genuine coin X from being stolen as much as possible.
[0024]
In the coin sorting device 1 of the first embodiment, when a false coin is inserted from the coin insertion slot 5 and determined to be a false coin by the coin identifying means 8 (FIG. 1), the correct / false sorting lever of FIG. No. 19 does not operate, so that the fake coins are guided to the fake coin guide passage 21 and returned from a coin dispensing port (not shown).
[0025]
In the coin sorting device 1 according to the first embodiment, the first lever 13 of the coin withdrawal preventing means 11 has a fleshing portion 13e between the ends of the tip 13a of the lever branched into two. However, the first lever 13 of the coin withdrawal preventing means 11 may be a lever having a shape in which the tip 25a of the second lever 25 abuts on the back surface thereof. The first lever 13 may be a lever in which the fleshing portion 13e is not provided and the tip 13a is branched into two, and with such a lever, the coin can be pulled out and the Needless to say, the effects of the present invention for preventing theft of goods by pulling out can be achieved.
If the first lever 13 is composed of the lever having the tip 13a branched into two as described above, the coin X is guided to the coin guide passage 4 through the hanging thread 29. When pulling out from the mouth 5, the peripheral surface of the true coin X abuts between the ends of the tip 13 a branched into two of the first lever 13, and the fluctuation of the posture of the true coin X is caused by the respective ends. Since it can be regulated, the first lever 13 is more securely engaged with the true coin X, whereby the posture of the true coin X is further fixed and the withdrawal of the true coin X is further prevented. .
[0026]
In the coin sorting device 1 of this embodiment, the coin withdrawal preventing means 11 is disposed in the coin guide passage 4 located downstream of the coin identifying means 8 and upstream of the authenticity sorting lever 19. However, in this invention, the arrangement position of the coin withdrawal preventing means 11 may be a coin passage that guides the coin, and even if the coin withdrawal prevention means 11 is disposed in any coin passage, Pulling out can be prevented.
[0027]
Further, in particular, as in the coin sorting device 1 of the above-described embodiment, the coin withdrawal preventing means 11 is downstream of the coin identifying means for identifying the true / false of the coin and the denomination of the genuine coin, When arranged in the coin guide passage located upstream of the true / false sorting lever 19 to be distributed to the guide passage 20, the true coin X guided to the true coin guide passage 20 is detected by the magnetic sensor 23, thereby discharging the product. After that, the genuine coin X is pulled out from the coin insertion slot 5 by the hanging thread 29, that is, by pulling out the genuine coin X, it is possible to prevent as much as possible the mischief of stealing goods without actual transaction. Will be able to.
[0028]
In the coin sorting device 1 of the above-described embodiment, the coin that is regarded as a genuine coin by the coin identifying unit and guided to the genuine coin guide passage has been described as the coin to be prevented from being pulled out. Needless to say, in the sorting device, the coins to be prevented from being pulled out are not limited to genuine coins.
[0029]
In the coin sorting device 1 of the above-described embodiment, the sorting lever that constitutes the coin withdrawal preventing means 11 is the true / false sorting lever 19, but constitutes the coin withdrawal preventing means of the coin sorting device of the present invention. The distributing lever to be used is not limited to this, and may be a distributing lever corresponding to the guide passage in which the first lever 13 and the second lever 25 are disposed.
[0030]
【The invention's effect】
As described above, according to the present invention, the coin pull-out preventing means includes the first lever rotatably supported in the coin guide passage, the pivot lever rotatably supported in the coin guide passage, and the tip of the first lever. Since the second lever that abuts on the back surface of the coin is guided by the coin guide passage when the coin guided through the coin guide passage is pulled out from the coin insertion slot, the second lever swings in engagement with the coin. Using the law of conservation of momentum, the momentum of one lever can be absorbed by converting it into the momentum of the second lever that abuts on the first lever and swings. The coin can be reliably engaged with the first lever, thereby preventing the coin from being pulled out from the coin slot as much as possible. In particular, this coin withdrawal prevention means When placed upstream of the genuineness sorting lever a downstream unit, a mischief steal goods without-out actual transaction by withdrawal of the specie, it is possible to prevent as much as possible.
[Brief description of the drawings]
FIG. 1 is a conceptual front view of a main part of a coin sorting device according to the present invention.
FIG. 2 is an enlarged conceptual cross-sectional view of the main part of the coin sorting device of FIG. 1;
FIG. 3 is an enlarged conceptual diagram of the main part of FIG. 2;
4 is a conceptual diagram showing a state in which the lever is viewed from the coin guide passage side in the right side view of FIG. 3;
FIG. 5 is an enlarged conceptual cross-sectional view of the main part of the coin sorting device of FIG. 1;
6 is an enlarged conceptual cross-sectional view of a main part of the coin sorting device of FIG. 1;
7 is a front view showing an enlarged concept of a main part of the coin sorting device of FIG. 1, and shows a state in which the posture of the genuine coin is fixed by a coin withdrawal preventing means when it is attempted to pull out the genuine coin.
FIG. 8 is a conceptual front view of the main part of the coin sorting device of FIG. 1, and shows a state in which the posture of the genuine coin is fixed by a coin withdrawal preventing means when the genuine coin is to be pulled out.
9 is an enlarged conceptual cross-sectional view of the main part of the coin sorting device of FIG. 1, and shows the operation of the coin withdrawal preventing means when guiding a genuine coin that has been withdrawn from being pulled further downstream of the coin guide passage. Figure.
10 is an enlarged conceptual cross-sectional view of the main part of the coin sorting device of FIG. 1, and shows the operation of the coin withdrawal preventing means when trying to withdraw the genuine coin of FIG. 9 again.
FIG. 11 is an enlarged conceptual cross-sectional view of a main part of a conventional coin sorting device.
FIG. 12 is an enlarged conceptual cross-sectional view of a main part of a conventional coin sorting device, and shows a state in which the posture of a genuine coin is fixed by a coin withdrawal preventing means when an attempt is made to pull out a genuine coin.
FIG. 13 is a conceptual front view of a main part of a conventional coin sorting device, and shows the operation of a coin withdrawal preventing means when guiding a genuine coin that has been prevented from being pulled further downstream of a coin guide passage; .
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Coin sorter 2a ... Concave part 4 ... Coin guide channel | path 5 ... Coin slot 11 ... Coin pull-out prevention means 13 ... 1st lever 13a ... Tip 13e of 1st lever ... Fleshing part 19 ... True / false sorting lever (sorting) lever)
25 ... second lever 25a ... second lever tip 29 ... hanging thread (pulling member)
X ... coins (special)

Claims (5)

A coin guide passage for guiding coins inserted from a coin insertion slot, and a coin that is disposed in the coin guide passage and prevents the coin guided in the coin guide passage from being pulled out from the coin insertion slot through a pull-out member. In a coin sorting device comprising coin withdrawal prevention means,
The coin withdrawal preventing means is:
A first lever rotatably supported in the coin guide passage;
A second lever that is rotatably supported in the coin guide passage and has a tip abutting against the back surface of the first lever;
When the coin guided in the coin guide passage is pulled out from the coin slot through the pulling member, the momentum of the first lever that swings by engaging with the coin is transferred to the first lever. A coin sorting device characterized in that it is converted into a momentum of the second lever that swings in contact and absorbed. The coin withdrawal preventing means comprises a recess formed on the wall surface of the coin guide passage,
When pulling out the coin guided by the coin guide passage from the coin insertion slot via the pulling member, the peripheral surface of the coin is brought into contact with the concave portion and the first lever to change the posture of the coin. The coin sorting device according to claim 1, wherein the coin sorting device is fixed. The coin withdrawal preventing means comprises a sorting lever,
3. The coin according to claim 2, wherein when the coin guided in the coin guide passage is pulled out from the coin insertion port via the pull-out member, the coin is further pressed by the sorting lever. Coin sorting device. 2. The coin sorting device according to claim 1, wherein the second lever is an L-shaped lever having a tip formed in a cylindrical shape. The first lever is configured by arranging a fleshing portion at a tip of the lever branched into two, and the coin is engaged with the fleshing portion. The coin sorting device according to claim 1.

Images