JP2006146379A - Coin selector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a coin selector for preventing position deviation in opposing coin detection coils, and for surely removing any coin blocked in a coin path even when a cancel lever is operated and a door is repeatedly opened/closed for the purpose of removing the jamming of any coin. <P>SOLUTION: A coin detecting means configured so that a slot body 22 equipped with a coin path 22ab for making a coin pass and a coin detection coil to be integrally structured is mounted on the inside of a door 10. Also, a cancelling means for removing the coin from the coin path, by operating a cancel lever 5 such that a coin extrusion section 7d of a canceller 7 is inserted into the coin path 22ab, is provided. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

The present invention relates to a coin selector provided with a coin detecting means for a plurality of types of coins as currency, and a canceling means for removing clogging of coins in a coin passage. In particular, the present invention relates to a coin selector that can electronically detect coins and remove jammed coins. More specifically, the present invention relates to a coin selector that is incorporated in various types of vending machines, money changers, game machines, and the like that starts operation with inserted coins. Note that the term “coin” in the present specification is used as a collective term for coins, medals, tokens, and the like.

For example, a coin selector shown in FIGS. 26 to 29 is known as a first prior art.
As shown in FIG. 26, the coin selector is box-shaped, and a coin insertion slot 64 into which a coin is inserted is formed at the top. At the bottom of the coin selector, there are formed an outlet 69 for storing coins in an internal safe such as a vending machine or a game machine, and a return port 70 for canceling coins.

As shown in FIG. 26, a trapezoidal door 61 is provided on the upper portion of the body 60. 29, the door 61 is attached to the door pivot 75 as shown at the right end of FIG. 29. Therefore, as shown in FIG. 27, the door 61 can be opened and closed in the front-rear rotation direction. Normally, it is closed by a door opening / closing spring 76 shown in FIG.

  In FIG. 28, a J-shaped resin cancel lever 63 is provided laterally above the coin selector body 60, and a cancel lever pivot 65 is provided at the rear of the cancel lever 63. The cancel lever 63 rotates in the vertical direction with respect to the body 60 with the cancel lever pivot 65 as a fulcrum. The shorter end of the J-shaped cancel lever 63 provided horizontally is a resin spring 66 that returns the cancel lever 63 to the standby position by the elasticity of the spring.

FIG. 27 shows a state where the door 61 is opened by pushing down the cancel lever 63. That is, a protrusion (not shown) protruding toward the door 61 near the center of the cancel lever 63 is formed integrally with the cancel lever 61, and on the inner surface of the door 61 at a position corresponding to the protrusion, An inclined surface (not shown) is formed which is formed in a concave shape and is vertically long, and increases in thickness toward the lower side of the door 61. Therefore, when the cancel lever 63 is pushed down, the above-mentioned protrusion that is in contact with the inclined surface formed on the door 61 slides in the thickness direction of the inclined surface, so that the door 61 moves forward with respect to the body 60 with the door pivot 75 as a fulcrum. The door 61 is opened. Accordingly, the coins that are stuck in the coin passage 71 due to clogging of fake coins, etc. fall and are returned to the return slot 70 and canceled.

For determining whether the coin is a genuine coin or a fake coin, the authenticity of the coin is detected by a coin detection coil provided in the passage 71. First, coins inserted from the coin insertion slot 64 roll on the inclined guide rail 71a formed in the selector and shown in FIG. The coins that have fallen down the passage 71 are installed in the upper part of the coin selector body 60 and inside the coil 67 and the double coil 68 (coil 68a, coil 68b) and the door 61 shown in FIG. It is detected by the coil 77 and the double coil 78 (coil 78a, coil 78b).

As shown in FIG. 28, a coil 67 for detecting the diameter of the coin is fixed to the body 60 side of the coin selector, and a double coil 68 is fixed near the upper center of the body 60 slightly lower right of the coil 67. ing. The coil 68a of the double coil 68 is a coil for detecting the thickness of the coin, and the coil 68b is a coil for detecting the material of the coin.

Further, at the position symmetrical to the above-described coil position on the body 60 side of the coin selector, as shown in FIG. 29, inside the coin selector door 61, the same coil 77 and two coils as those fixed to the body 60 are provided. A heavy coil 78 is fixed. A coil 77 for detecting the diameter of the coin is fixed on the door 61 side of the coin selector, and a double coil 78 is fixed near the upper center of the door 61 slightly on the lower right side of the coil 77. The coil 78a of the double coil 78 is a coil for detecting the thickness of the coin, and the coil 78b is a coil for detecting the material of the coin.
Coins are detected by detecting the diameter of the coils 67 and 77 integrally, detecting the thickness by integrating the coils 68a and 78a, and detecting the material by integrating the coils 68b and 78b.
Therefore, the authenticity of the coin is detected when the coin passes through the guide rail 71a between the coil fixed to the body 60 and the coil fixed to the door 61 side.

When it is determined that the coin is authentic, a solenoid (not shown) in the lower part inside the selector is turned on. When the solenoid is turned on, the gate 72 of the passage 71 is opened and the genuine coin falls downward through an outlet 69 formed on the bottom surface of the selector.
If it is determined that the inserted coin is a false coin, the gate 72 remains closed because the solenoid is not turned on. Therefore, the false coins are dropped from the return port 70 and canceled. (For example, see Patent Document 1)

As the second prior art, the following is known.
A passage for coins to fall vertically is formed at the center of the slot body of the rectangular tube, and a first coil is wound around the passage at the center of the outer peripheral wall of the slot body. Each side part of the first coil is covered with an end face U-shaped first core and second core, respectively.

A second coil and a third coil are wound around the center of each of the first core and the second core. In addition, the first core and the second core that are paired with each other have long end edges of the end face U shape fixed to the walls on both sides of the slot body.

The first data obtained from the first coil is mainly related to the cross-sectional area of the coin. The second data by the second coil is mainly related to the diameter of the coin. Therefore, by acquiring the data of the genuine coin in advance and storing it in the memory, the first coil and the second coil of the passing coin are passed through the first coil and the second coil by comparing the data in the memory. It can be determined whether or not the coin is genuine.

When the signal processing unit determines that the dropped coin is authentic, a drive signal is sent to the solenoid that opens and closes the gate located in the coin passage, and the gate opens and the coin is taken into a safe (not shown). become. If the coin is determined to be a fake coin, the drive signal is not sent to the solenoid, and the gate remains closed. Therefore, the false coins are dropped from the return slot and canceled. (For example, refer to Patent Document 2).

JP-A-11-25311 (Page 2, Fig. 1) JP-A-10-326368 (Page 2, Fig. 1)

However, the first prior art described above has the following problems. That is, when removing the false coins clogged in the coin passage 71 by dropping naturally, the door is opened by pushing the cancel lever, and the clogged coins are removed, but the coins are attached to the door pivot 75 while opening and closing the door repeatedly. The backlash of the bearing of the door 61 increases due to wear of the bearing 61, and the coin detection coils 67 and 68 fixed to the body side, and the door side detection coils 77 and 78 fixed to the above-described detection coil in a plane-symmetrical position. Misalignment occurs. As a result of the positional shift, the above-described coil surface does not become a symmetric position, and the change in the amplitude of the oscillation signal whose amplitude changes due to the passage of the coin is reduced, and the accuracy of determining the authenticity of the coin is lowered.

Further, the second prior art has the following problems. That is, a coin detection coil for detecting a coin that falls directly from a coin insertion slot has a configuration in which a coil is wound around the center of an outer peripheral wall of a cylindrical slot body. For this reason, when a coin dropped directly from the coin slot is clogged in the slot body passage, the clogged coin may not be removed because the slot body is cylindrical and has no canceling means. It was.

An object of the present invention is to operate a cancel lever in order to remove clogging of coins, so that a positional deviation does not occur in the coin detecting coils facing each other even when the door is repeatedly opened and closed.
Another object of the present invention is to provide a coin selector that can reliably remove coins jammed in a coin passage.

A coin path is formed by the inclined guide rails and the side walls located on both sides thereof, and when coins inserted from the coin insertion slot roll while being guided by the side walls on the guide rails, they are symmetrical to the both side walls. In a coin selector that acquires data for determining the authenticity of a coin by the attached detection coil,
A slot body is formed by integrating at least a part of the guide rail and the both side walls, the detection coils are symmetrically attached to both side walls of the slot body, and further, the coins are advanced to the coin passage of the slot body, It is characterized by comprising a canceller for removing.

Since the slot body is configured by integrating at least a part of the guide rail and both side walls, and the detection coils are symmetrically attached to both side walls of the slot body, the symmetrical position of the detection coil depends only on the both side walls of the slot body. . Therefore, even if the door is frequently opened and closed, the coin detection coil is not displaced.

Furthermore, even when a coin clogging occurs in the coin passage formed in the slot body, the coin passage which has advanced to the coin passage of the slot body and removes the coin is provided, so that the clogged coin can be reliably removed.

A slot body is formed by integrating at least a part of the guide rail and the side wall, the detection coils are symmetrically attached to both side walls of the slot body, and even if the door is frequently opened and closed, the coin detection coil is not displaced. I did it. In addition, when coins are inserted continuously, or when coins with irregular shapes with different thicknesses and diameters are inserted and the coin passage is clogged, the coin passage of the slot body can be removed so that the inserted coins can be removed. In the process, a canceller for removing coins was provided so that jammed coins could be removed reliably.

Embodiments of a coin selector according to the present invention will be described below in detail with reference to the drawings.
FIG. 1 is a left perspective view showing the entire coin selector of one embodiment of the present invention.
FIG. 2 is a right perspective view showing the entire coin selector of one embodiment of the present invention.
FIG. 3 is a bottom view of the coin selector according to the embodiment of the present invention.
FIG. 4 is a rear view of the coin selector according to the embodiment of the present invention.
FIG. 5 is a plan view of a coin selector according to an embodiment of the present invention.
FIG. 6 is a side view showing the inside of the coin selector of one embodiment of the present invention.
FIG. 7 is a perspective view showing a state in which the door of the coin selector of the embodiment of the present invention is opened.
FIG. 8 is a perspective view of the coin selector according to the embodiment of the present invention as seen from the back side with the door open.
FIG. 9 is a front view showing a cross section AA of the coin selector of one embodiment of the present invention.
FIG. 10 is a cross-sectional view of the coin selector according to an embodiment of the present invention taken along the line AA.
FIG. 11 is a front view showing the coin passage of the coin selector according to the embodiment of the present invention with hidden lines.
FIG. 12 is a front view showing a BB cross section of the coin selector of one embodiment of the present invention.
FIG. 13 is a cross-sectional view of the coin selector according to one embodiment of the present invention, taken along the line BB.
FIG. 14 is a perspective view showing the internal structure of the coin selector according to the embodiment of the present invention, in which the canceller is in the standby position.
FIG. 15 is a perspective view showing the internal structure of the coin selector according to the embodiment of the present invention and in the middle of the operation of the canceller.
FIG. 16 is a perspective view showing the internal structure of the coin selector according to the embodiment of the present invention immediately after the canceller has finished the operation.
FIG. 17 is a side view showing a CC cross section of the coin selector of one embodiment of the present invention.
FIG. 18 is a CC cross-sectional view showing the inside of the coin selector of one embodiment of the present invention.
FIG. 19 is a side view showing a DD cross section of the coin selector of one embodiment of the present invention.
FIG. 20 is a DD cross-sectional view showing the inside of the coin selector of one embodiment of the present invention.
FIG. 21 is a view of the back side of the door of the coin selector according to the embodiment of the present invention, in which the canceller is in the standby position.
FIG. 22 is a view of the coin selector of the embodiment of the present invention on the back side of the door, immediately after the canceller has finished operating.
23A is a front view of a cylindrical coin detector, and FIG. 23B is a plan view of the cylindrical coin detector of the coin selector according to the embodiment of the present invention.
24A is a side view of the coil base of the coin selector according to the embodiment of the present invention, and FIG. 24B is an internal state diagram of the coil C1 and the coil C2.
FIG. 25 is a block circuit diagram of the cylindrical coin detector of the coin selector according to the embodiment of the present invention.

As shown in FIGS. 1 to 20, the coin selector 1 of the present invention has a vertical box shape, and a coin insertion slot 11 into which a coin is inserted is provided on the left side of the top. At the end of the top portion, a cancel lever 5 is provided which is rotatably provided on the body 2 which is operated when the coin is canceled. Also, a door 10 that opens and closes by operation of the cancel lever 5, a door lock 6 that rotates the door to open the door 10, a canceller 7 that removes a coin jam in the coin passage 22ab of the slot body 22, and a coin detection coil It is made up of.

As shown in FIG. 5, the door 10 is formed with door hanging bodies 10 a and 10 b on both sides of the door lock 6 with the door lock 6 sandwiched on the right side from the center of the door 10. The door hanging body 10 a is located on the left side of the rear end portion of the door lock 6, and the door hanging body 10 b is located on the right side of the rear end portion of the door lock 6. A door hanger 10a and a door hanger 10b formed on the right side from the center of the door 10 are rotatably fitted to a fixed shaft 25 formed integrally with the upper portion of the body 2 shown in FIG. Further, a claw fixing portion 10c shown in FIG. 5 is formed at a position on the right side from the center of the top portion of the door 10 and facing a claw 6c formed in the vicinity of the left end of a rear end portion of the door lock 6 described later. . Therefore, the claw 6c formed on the door lock 6 is inserted into the claw fixing portion 10c formed on the door 10 so that the door 10 and the door lock 6 are integrated. Further, at the upper right end of the door 10 shown in FIG. 2, a door inclined portion 10 d that is inclined toward the body 2 is formed by increasing the thickness of the upper portion toward the lower side. A canceller sliding body 7e integrated with a canceller 7 described later slides while pushing the door inclined portion 10d of the door 10, and the canceller 7 moves slightly to the body 2 side. At the same time, the canceller spring hooking projection 7 c slides on the door lock triangular inclined portion 6 b formed on the door lock 6. In addition, a storage portion 10f of a coin pushing portion 7d formed in a recessed shape is provided at a lower position of the coin pushing portion 7d of the door 10. The coin push-out part 7d is stored in the storage part 10f. Further, a coin detection coil is attached to the inside of the door 10 described later.

The door lock 6 is located inside the coin selector 1 and operates when the door 10 is opened. The door lock 6 has a substantially U-shaped door lock push on the door lock 6 side of the cancel lever 5. The door lock 6 for the portion 5d to come into contact with and push in is generally L-shaped, and includes a door lock slope portion 6a in which the front end of the door lock is bent downward with respect to the door lock 6. As shown in FIG. 10, a concave cut portion 6 e is formed at the rear end portion of the door lock 6 on the door 10 side, and is fixed to the fixed shaft 25 formed integrally with the upper portion of the body 2 of the coin selector 1. The concave cut portion 6e is rotatably fitted. Further, as shown in FIG. 2, a claw 6c is formed at the rear left end of the concave cut portion 6e formed at the rear end portion of the door lock 6 on the door 10 side. Further, a door lock triangular inclined portion 6b is provided on the right side of the rear end portion of the door lock. The canceller 7 is pivotally provided by the pivot 9 of the canceller 7 provided at the upper position on the door 10 side by operating the cancel lever 5 having the cancel lever pivot 21 provided at the rear portion of the cancel lever 5. While the canceller 7 is rotating, a canceller spring hooking projection 7c formed on the top of the canceller 7 described later slides on the door lock triangular inclined portion 6b.

As shown in FIG. 5, the right side of the door lock 6 is provided with a canceller 7 for releasing the clogging of coins, and at the top of the canceller 7 is a C shape that rotates the canceller 7 in contact with the cancel lever tip 5b. The canceller bending portion 7b and a projection 7a are formed at the lower right of the bending portion 7b. Further, a canceller spring hooking projection 7 c that slides on the door lock triangular inclined portion 6 b described above is formed on the top of the canceller 7. Further, as shown in FIG. 14, the canceller 7 is a plate-like molded body extending downward from the canceller 7, and is thin from the upper side to the middle portion of the canceller 7, and widens from the middle portion toward the front end portion. It is a molded body that is inclined and formed with a thin tip. A portion where the width is widened from the intermediate portion and is inclined toward the front end portion and the front end portion is formed thin is the coin extruding portion 7d. The coin pushing portion 7d proceeds to the coin passage 22ab of the slot body 22 and removes the coins stuck in the coin passage 22ab. Further, a canceller sliding body 7e extending downward from the left side of the canceller curved portion 7b at the top of the canceller 7 shown in FIG. 2 is integrally formed. The canceller sliding body 7e slides on the door inclined portion 10d provided at the right end of the door 10 described above, and the canceller 7 moves to the body 2 side.

Furthermore, a removable door cover 3 provided on the left side of the door 10 and a substantially trapezoidal cancel cover 4 occupying the lower half of the body 2 are provided. Also, a coin passing body 13 that hangs down to the lower right of the door 10 and allows coins to pass only in one direction, a speed governor 12 provided inside the door cover 3, and a cancel cover 4 are provided. As shown in FIG. 11, the coin passage 14 directly connected to the coin outlet is provided with a gate 23 for dividing the outlet into a genuine coin outlet 16 and a fake coin return opening 15. The gate 23 is provided in the coin passage. When it is determined that the inserted coin is authentic in the signal processing unit by comparing the data of the coin passing through the coin passage 22ab and the data in the memory of the signal processing unit, the inside of the back surface of the body 2 shown in FIG. A drive signal is sent to the solenoid 24 mounted at the lower left, the gate 23 opens, and the genuine coin falls from the genuine coin outlet 16.

Further, as shown in FIG. 3, a coin exit is provided on the bottom surface of the coin selector 1 so as to be separated into the above-described genuine coin and fake coin and fall after the authenticity of the coin is determined. A genuine coin exit 16 is provided at substantially the center on the left side of the bottom surface, and a return port 15 for canceling coins is provided in front of the right side of the bottom surface.

As shown in FIG. 4, a square rear cover 20 is detachably fixed to the body 2 of the coin selector 1 on the back surface of the body. A solenoid 24 for opening and closing the gate 23 described above is attached to the body 2 side inside the rear cover 20 so as to be positioned at the lower left of the body 2. Further, the cancel lever spring 19 for returning to the standby position after the cancel lever 5 rotates counterclockwise when viewed from the back side is closer to the cancel lever rotating pivot 21 than the center of the cancel lever 5, and the cancel lever A spring 19 is attached between a protruding portion 5 c of the cancel lever 5 formed on the lower side of 5 and a frame portion 2 b for the rear cover 20 of the body 2.

Furthermore, as shown in FIGS. 21 and 22, a cylindrical coin detector according to an embodiment of the present invention is provided on the body 2 side of the door 10 having a generally trapezoidal shape, in other words, near the center inside the door 10. 100 is attached. The cylindrical coin detection body 100 includes a slot body 22 in which a coin passage 22ab is formed, a coil base 30 provided on the outer peripheral wall of the slot body 22, and coils C1 and C2 on both sides of the side wall of the slot body 22. Consists of an installed configuration.
The slot body 22 is a rectangular tube-shaped member formed by integrating at least a part of the guide rail and the side wall, and has a rectangular tube-shaped passage 22ab through which a coin passes. is there.

When the cylindrical coin detector 100 is attached to the door 10, the guide rail 22aa on the door 10 side and the passage 22ac through which the coin below the coin passage 22ab of the slot body 22 rolls and passes are shown in FIG. As shown in FIG. 21, the cylindrical coin detector 100 is attached so as to be inclined upward as shown in FIG.

Below, the structure of the cylindrical coil 100 which is a coin detection means of the coin selector 1 is demonstrated using (A) and (B) of FIG. 23, and (A) and (B) of FIG.
As shown in FIG. 23A, the cylindrical coin detecting body 100 is formed on the slot body 22 having the above-described coin passage 22ab through which the coin passes, on the coil base 30 and on the both sides of the side wall of the slot body 22. The above-described coils C1 and C2 are provided symmetrically. That is, the cylindrical coin detection body 100 is configured such that the slot body 22 and the coil base 30 and the coils C1 and C2 are integrated.
The slot body 22 has a rectangular tube shape, and is a molded product such as a synthetic resin. However, the slot body 22 may be made of rubber or wood regardless of the synthetic resin.

As shown in FIGS. 23 (B) and 24 (A), the coil base 30 has a configuration in which the outer periphery of the slot body 22 provided with a coin passage 22ab for allowing coins to pass is positioned on the outer periphery in the vicinity of one end. 1 coil A1 is wound, and a first core 32 and a second core 33 having a length substantially the same as the height of the U-shaped slot body are provided on both sides so as to straddle the first coil A1. It has been. A second coil B1 is wound around the first core 32, and a third coil B2 is wound around the second core 33.

Furthermore, as shown in FIG. 23 (B), the coil C1 and the coil C2 are symmetrically attached to both sides of the outer wall of the slot body 22 at a position near the side of the coil base 30.
As shown in FIG. 24B, the coil C1 and the coil C2 are configured such that the coil C1 includes a third core body 31a and the coil C2 includes a fourth core body 31b. Inside the core body of the core body 31a of the coil C1 described above, there is a third core (34) that is a rectangular core from the rear end portion of the core body toward the midpoint of the core body, and is wound around the third core. A fourth coil (31ca1) is provided, and has a fourth core (35) that is a circular core positioned near the tip of the core body, and includes a fifth coil (31cb1) wound around the fourth core. ing. Similarly, the coil C2 has a third core (36), which is a rectangular core facing from the rear end of the core body toward the midpoint of the core body, and is wound around the third core. The fourth coil (31ca2) is provided, and has a fourth core (37) which is a circular core located near the tip of the core body, and the fifth coil (31cb2) wound around the fourth core is provided. I have. In the fourth coil and the fifth coil described above, the positional relationship with the genuine coin depends on the diameter of the coin, but the fourth coil detects the upper position from the vicinity of the center of the coin, and the fifth coil is the center of the coin. The lower position is detected from the vicinity.

As described above, the cylindrical coin detecting body 100 as the coin detecting means is configured such that the slot body 22 and the coil base 30 and the coil C1 and the coil C2 are integrally structured. 30 and the deviation between the coil C1 and the coil C2 does not occur.
The coil base 30 detects the material of the coin. The fourth coils (31ca1, 31ca2), which are internal coils of the coils C1 and C2, detect the diameter of the coin. The fifth coils (31cb1, 31cb2) detect the thickness of the coin. Then, as shown in a block circuit diagram of FIG. 25 which is a coin detection and discrimination circuit of the cylindrical coin detector 100 of FIG. 25 described later, the data of coins passing through the coin path 22ab by the signal processing unit of the CPU 53, It is determined whether the coin is a genuine coin or a fake coin by comparing with the data of the genuine coin stored in advance in the memory of the signal processing unit of the CPU 53.

Here, a description will be given with reference to FIG. 25 which is a detection circuit of the cylindrical coin detection body 100 which is the above-described coin detection means.
The first coil A1 of the coil base 30 attached to the slot body 22 of the cylindrical coin detector 100 is connected to the oscillation circuit 40, and the second coil B1 and the third coil B2 are connected in series to form the oscillation circuit. 41.

  The fourth coil (31ca1) of the coil C1 and the fourth coil (31ca2) of the coil C2 are connected in series and connected to the oscillation circuit. The fifth coil (31cb1) of the coil C1 and the fifth coil (31cb2) of the coil C2 are also connected in series and connected to the oscillation circuit 43.

Further, a detection circuit 44 is connected to the oscillation circuit 40, and a rectification circuit 48 is connected to the detection circuit 44. The rectification circuit 48 is connected to an A / D converter 52 that converts an analog signal into a digital signal. Yes.

Similarly, detection circuits 45, 46, 47 are connected to the oscillation circuits 41, 42, 43, and rectifier circuits 49, 50, 51 are connected to the detection circuits 45, 46, 47. , 51 are connected to an A / D converter 52 for converting an analog signal into a digital signal.
The A / D converter 52 is connected to a signal processing unit 53 such as a CPU, and a memory 54 and a gate 23 are connected to the signal processing unit 53.

When a coin passes by the coil of the slot body 22 of the cylindrical coin detector 100, the amplitude of the oscillation signal by the oscillation circuit 40 is changed, and the amplitude of the oscillation signal by the oscillation circuits 41, 42, and 43 is changed. Will be. The oscillation signal from the oscillation circuit 40 whose amplitude has been changed by the passage of the coin is detected by the detection circuit 44 and rectified by the rectification circuit 48, further converted into digital by the A / D converter 52, and sent to the signal processing unit 53. Sent. Similarly, the oscillation signals from the oscillation circuits 41, 42, and 43 whose amplitude has been changed by the passage of coins are detected by the detection circuits 45, 46, and 47, rectified by the rectifier circuits 49, 50, and 51, and further A / The signal is converted to digital by the D converter 52 and transmitted to the signal processing unit 53.

Therefore, when the genuine coin data is obtained in advance and stored in the memory 54, the signal processing unit 53 stores the coin data obtained from the coin passing through the coin path 22ab of the cylindrical coin detector 100 and the memory 54. Compare with the data of genuine coins stored in advance. When the signal processing unit 53 determines that the dropped coin is authentic, a drive signal is sent to the gate 23 and the coin is taken into a safe (not shown). The coin selector is configured as described above.

The material of the first core 32, the second core 33, the third cores 34 and 36, and the fourth cores 35 and 37 of the cylindrical coin detector 100 can use ferrite, iron, copper, or the like.

In the above description, the configuration of the coil of the coin detection means has been described using the cylindrical coin detection body as an example. However, the configuration of the coin detecting means is not limited to the cylindrical coin detecting body, and the coil for detecting the diameter of the coin described in the conventional example, the material for detecting the thickness, and the thickness are detected on both sides of the slot body 22 described above. Heavy coils may be attached symmetrically across the slot body 22.
As another coin detecting means, three pairs of a coil for detecting the diameter of a coin, a coil for detecting a material, and a coil for detecting a thickness are symmetrically arranged on both sides of the slot body 22 with the slot body 22 interposed therebetween. It may be attached.

  When configured as described above, a coin detection coil having an integral structure can be configured in the same manner as the cylindrical coin detection body. Since the slot body 22 and the coin detection coil are integrally configured, the door 10 of the coin selector 1 can be provided. Even if the coil is opened and closed, the symmetrical coin detection coil is not misaligned.

Hereinafter, the operation of the coin selector 1 will be described.
First, a coin inserted from the coin insertion slot 11 is formed inside the door 10 of the coin selector 1 and rolls on a guide rail 22aa inclined from the coin insertion slot to the cylindrical coin detection coil from the inner side wall of the body 2 at a lower position. Furthermore, it passes through the coin passage 22ab of the slot body 22 of the cylindrical coin detector 100.

Coins passing through the above-described coin passage 22ab are obtained by the coil base 30 provided in the cylindrical coin detector 100 installed in the door 10, and the fourth coil and the fifth coil which are internal coils of the coils C1 and C2. The material, diameter, and thickness of the coin are detected. Then, as described above, comparing the data of coins passing through the coin passage 22ab with the data of genuine coins stored in advance in the memory, the signal processing unit determines whether the coin passed through the coin passage 22ab is genuine or false. The currency is judged. When it is determined that the coin is authentic, the solenoid 24 is turned on. When the solenoid 24 is turned on, the gate 23 of the coin passage 14 is opened, and the genuine coin falls downward from the genuine coin outlet 16 formed on the bottom surface of the coin selector 1.

The genuine coins dropped from the genuine coin exit 16 are stored in a genuine coin safe (not shown) installed inside a vending machine or the like.

On the other hand, when it is determined that the inserted coin is a fake coin, the solenoid 24 is not turned on, so the coin passage remains closed by the gate 23. Accordingly, the gate 23 is removed from the guide rail and dropped, and the false coins are returned to the outside of the vending machine or the like through the return port 15 and canceled.

If the coin is jammed in the coin passage 22ab of the cylindrical coin detector 100, the coin is removed by the canceling means. That is, the canceling means is rotatably provided on the body 2, the cancel lever pressing portion 5 a of the rotating cancel lever 5 is rotated downward, and the lower portion of the door 10 is opened forward, while the front end portion of the canceller 7. The coin extruding portion 7d is advanced from the direction opposite to the coin rolling direction into the coin passage 22ab of the slot body 22 and removes the jammed coin from the coin passage 22ab.

The above operation will be described together with the mechanism of the coin selector in more detail with reference to the drawings.
By the operation of the cancel lever 5, the operation of the door lock 6, the operation of opening the door 10, and the operation of the coin pushing portion 7d of the coin canceller 7 are performed almost simultaneously.

5 to 20, when the cancel lever pushing portion 5a is moved downward, the cancel lever 5 rotates downward as shown in FIG. 7 with the cancel lever pivot 21 as a fulcrum. The cancel lever tip 5b is in contact with the canceller projection 7a, and the canceller projection 7a is pushed downward by the cancel lever projection 5b as the cancel lever 5a moves downward. Rotate clockwise around 9 as a fulcrum. When the cancel lever 5 is further moved downward, the cancel lever tip 5b comes into contact with the canceller curved portion 7b from the canceller projection 7a to further rotate the canceller 7 in the same direction.

Simultaneously with the above-described operation, the substantially U-shaped door lock pushing portion 5d of the cancel lever 5 contacts the door lock slope portion 6a and pushes the door lock 6a downward. Further, when the substantially U-shaped door lock pushing portion 5d of the cancel lever 5 pushes in the door lock 6a, the door lock slope portion 6a becomes almost parallel to the rear cover 20 as shown in FIG. At this time, the door 10 rotates with the fixed shaft 25 as a fulcrum.

As shown in FIG. 8, when the cancel lever pressing portion 5a hits the cancel lever stop portion 2a provided on the body 2 of the coin selector 1, that is, when the cancel lever 5 is moved to the end, the rear end portion of the door lock 6 is moved to the door. The claw fixing part 10c at the top of the door 10 is pushed in the clockwise direction so that the door hanging bodies 10a and 10b rotate about the fixing shaft 25, and the lower part of the door 10 is the body 2 as shown in FIGS. Open to the front. The canceller 7 slides toward the body 2 with respect to the shaft 9.

In accordance with the above-described operation, the canceller 7 rotates clockwise as the canceller bending portion 7b is pushed by the tip 5b of the cancel lever, and when the canceller 7e rotates, the canceller sliding body 7e shown in FIG. It slides while pushing the 10 door inclination part 10d. Accordingly, the coin push-out portion 7d of the canceller 7 moves in the direction of the body 2 from the storage portion 10f of the coin push-out portion 7d formed on the door 10 side, and the canceller 7 moves slightly inside the body 2. At the same time, the canceller spring hooking projection 7 c slides on the door lock triangular inclined portion 6 b formed on the door lock 6. At this time, the door 10 is also slightly opened.

As shown in FIG. 15, the coin pushing portion 7d, which is the tip portion of the canceller 7, is opposite to the coin rolling direction in the coin passage 22ab of the slot body 22 of the cylindrical coin detecting body 100 together with the above-described operation. Progressing from the direction of

When the cancel lever 5 is moved downward to the end as shown in FIGS. 8 and 16, the rotation of the canceller 7 is stopped, and the coin push-out portion 7d is opened as shown in FIGS. 16 and 20 at the same time as the door 10 is opened. In the coin passage 22ab of the slot body 22, all of the coin push-out portion 7d enters from the direction opposite to the coin rolling direction, and the tip slightly protrudes from the coin passage 22ab.

Therefore, in the coin canceling means, the coin pushing portion 7d at the front end of the canceller 7 can remove and cancel the coins that are jammed to enter the coin path 22ab.

When the pressing of the cancel lever 5 is stopped, the cancel lever 5 is returned to the standby position by the elasticity of the cancel lever spring 19 shown in FIG. 4, and the door lock 6 is a spring (see FIG. The canceller 7 returns to the standby position by the elasticity of the canceller return spring 8 shown in FIG.

    Since the coin detection coil integrated with the slot body is attached to the inside of the coin selector door, the coil surface is not misaligned. As a result, the accuracy of determining the authenticity of coins does not decrease. Also, in the case of a coin jam, the coin jam can be surely eliminated, so that it can be effectively used in a vending machine or a game machine.

FIG. 1 is a left perspective view showing the entire coin selector of one embodiment of the present invention.
FIG. 2 is a right perspective view showing the entire coin selector of one embodiment of the present invention.
FIG. 3 is a bottom view of the coin selector according to the embodiment of the present invention.
FIG. 4 is a rear view of the coin selector according to the embodiment of the present invention.
FIG. 5 is a plan view of a coin selector according to an embodiment of the present invention.
FIG. 6 is a side view showing the inside of the coin selector of one embodiment of the present invention.
FIG. 7 is a perspective view showing a state in which the door of the coin selector of the embodiment of the present invention is opened.
FIG. 8 is a perspective view of the coin selector according to the embodiment of the present invention as seen from the back side with the door open.
FIG. 9 is a front view showing a cross section AA of the coin selector of one embodiment of the present invention.
FIG. 10 is a cross-sectional view of the coin selector according to an embodiment of the present invention taken along the line AA.
FIG. 11 is a front view showing the coin passage of the coin selector according to the embodiment of the present invention with hidden lines.
FIG. 12 is a front view showing a BB cross section of the coin selector of one embodiment of the present invention.
FIG. 13 is a cross-sectional view of the coin selector according to one embodiment of the present invention, taken along the line BB.
FIG. 14 is a perspective view showing the internal structure of the coin selector according to the embodiment of the present invention, in which the canceller is in the standby position.
FIG. 15 is a perspective view showing the internal structure of the coin selector according to the embodiment of the present invention and in the middle of the operation of the canceller.
FIG. 16 is a perspective view showing the internal structure of the coin selector according to the embodiment of the present invention immediately after the canceller has finished the operation.
FIG. 17 is a side view showing a CC cross section of the coin selector of one embodiment of the present invention.
FIG. 18 is a CC cross-sectional view showing the inside of the coin selector of one embodiment of the present invention.
FIG. 19 is a side view showing a DD cross section of the coin selector of one embodiment of the present invention.
FIG. 20 is a DD cross-sectional view showing the inside of the coin selector of one embodiment of the present invention.
FIG. 21 is a view of the back side of the door of the coin selector according to the embodiment of the present invention, in which the canceller is in the standby position.
FIG. 22 is a view of the coin selector of the embodiment of the present invention on the back side of the door, immediately after the canceller has finished operating.
23A is a front view of a cylindrical coin detector, and FIG. 23B is a plan view of the cylindrical coin detector of the coin selector according to the embodiment of the present invention.
24A is a side view of the coil base of the coin selector according to the embodiment of the present invention, and FIG. 24B is an internal state diagram of the coil C1 and the coil C2.
FIG. 25 is a block circuit diagram of the cylindrical coin detector of the coin selector according to the embodiment of the present invention.
FIG. 26 is a perspective view showing an entire conventional coin selector.
FIG. 27 is a perspective view of a conventional coin selector with its door opened.
FIG. 28 is a rear view showing the inside of a conventional coin selector.
FIG. 29 is a front view showing the inside of a conventional coin selector and showing the coin passage with hidden lines.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Coin selector 2 Body 3 Door cover 5 Cancel lever 5d Tip part 6 Door lock 7 Canceller 7a Canceller projection part 7b Canceller curved part 7d Coin pushing part 9 Axis 10 Door 22 Slot body 22aa Guide rail 22ab Coin path 25 Fixed axis 30 Coil base A1 first coil A1
B1 Second coil B1
B2 Third coil B2
C1 Coil C1
C2 Coil C2
31a 3rd core body 31b of coil C1 4th core body 31ca1 of coil C2 4th coil 31ca2 of coil C1 4th coil 31cb1 of coil C2 5th coil 31cb2 of coil C1 5th coil 32 of coil C2 1st core 33 1st 2 core 34 3rd core 35 of coil C1 4th core 36 of coil C1 3rd core 37 of coil C2 4th core 100 of coil C2 Cylindrical coin detector

Claims (5)

A coin path is formed by the inclined guide rails and the side walls located on both sides thereof, and when coins inserted from the coin insertion slot roll while being guided by the side walls on the guide rails, they are symmetrical to the both side walls. In a coin selector that acquires data for determining the authenticity of a coin by the attached detection coil,
The guide rail and at least a part of both side walls are integrated to form a slot body (22), the detection coils are attached symmetrically to both side walls of the slot body (22), and the slot body (22) A coin selector comprising a canceller (7) for proceeding to the coin passage (22ab) and removing coins. One of the side walls is a part of the coin selector body (2), and the other side wall is a door (10) contacting and separating from the body (2), and the body (2) of the door (10) The coin selector according to claim 1, wherein the slot body (22) is fixed to the side. The canceller (7) is rotatably provided on the door (10), and the door (10) is separated from the body (2) by operating a cancel lever (5) that rotates relative to the body (2). The coin selector according to claim 2, wherein the canceller (7) advances to the coin passage (22ab). The coin selector according to claim 3, wherein the canceller (7) advances from a direction opposite to a coin rolling direction with respect to the coin passage (22ab) of the slot body (22). The canceller (7) is in contact with the tip (5d) of the cancel lever (5) and moved, and a canceller protrusion (7a) integrally formed on the top of the canceller (7), and a canceller bending portion (7b), and when the door (10) rotates about the fixed shaft (25) provided on the body (2) by the operation of the cancel lever (5), the canceller (7 ) Rotates about the pivot (9) provided on the door (10) as a fulcrum, and a coin pushing part (7d) which is the tip of the canceller (7) is provided on the slot body (22). The coin selector according to claim 3, wherein the coin selector proceeds to the coin passage (22 ab).

Images