JP3566055B2 - Coin processing machine - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a coin processing machine that discriminates a received coin from authenticity and eliminates a coin determined to be false, while accepting a coin determined to be true and performing a predetermined process such as a denomination storage or packaging. .
[0002]
[Prior art]
A coin processing machine that discriminates a deposited coin for authenticity and removes a coin determined to be false while rejecting a coin determined to be true is one that re-discriminates an unidentifiable coin that could not be authenticated. And Japanese Patent Application Laid-Open No. 7-175953.
The coin processing machine includes a rotating disk for feeding coins one by one, a coin passage for guiding coins fed by the rotating disk, a conveying unit for conveying coins on the coin passage, and a coin on the coin passage. Determining means for determining.
In this coin processing machine, the coin passage has a single linear shape, and a material detection sensor for detecting the material of the coin and a line sensor for detecting the diameter of the coin are provided as discriminating means in the linear coin passage. Is provided. Then, based on the detection results of the material detection sensor and the line sensor, the authenticity is determined, and the coins determined to be true are accepted and sorted by denomination as necessary, while the coins determined to be false are The coin is dropped from a reject hole provided immediately after the discriminating means in the coin passage, and is collected and removed by a reject box disposed below the reject hole.
[0003]
[Problems to be solved by the invention]
By the way, in recent years, coins of other countries having the same diameter as genuine coins have been frequently used. For this reason, the detection of the coin diameter is insufficient, and the accuracy of the authenticity discrimination is improved by detecting the image of the coin. The demand for Nito is growing.
However, in order to detect an image of a coin, at least an optical detection area capable of detecting an entire coin must be provided in the coin passage. In addition, in order to secure an identification time for image sorting, it is necessary to secure a distance from the image detection unit to a stopper or a reject hole for removing a false coin. For these reasons, there has been a problem that the length of the coin passage becomes long, and as a result, the coin processing machine becomes large.
Accordingly, an object of the present invention is to provide a coin processing machine capable of reducing the size of the entire coin even if the coin discrimination accuracy is improved.
[0004]
[Means for Solving the Problems]
In order to achieve the above object, a coin processing machine according to claim 1 of the present invention includes a rotating disk for paying out coins one by one, a coin passage for guiding coins fed by the rotating disk, and a coin passage on the coin passage. It has a conveying means for conveying coins, and a discriminating means for discriminating coins on the coin passage, and accepts and removes coins based on a discrimination result of the discriminating means, and through a bent portion. The coin passage is constituted by two or more straight portions connected in series, and the discriminating means is disposed over the two or more straight portions of the coin passage . It is characterized in that a material detection sensor for detecting the material of the coin is arranged in the straight portion, and an image detecting means for detecting an image of the coin is arranged in the straight portion on the downstream side .
Thereby, after the coin is conveyed from the rotating disk at the upstream straight portion of the coin passage, it is conveyed at the downstream straight portion via the bent portion. Then, while being conveyed by these linear portions, the discrimination is performed by the discriminating means arranged over these linear portions.
As described above, the coin passage is constituted by two or more straight portions connected in series via the bent portion, and the discriminating means is arranged over these straight portions, so that the coin discriminating accuracy is improved. Even if the coin passage is long, the coin processor can be downsized.
The denomination of the coin is predicted in advance by detecting the material of the coin with a material detection sensor provided in the upstream straight section, and the predicted denomination of the denomination is detected by the image detecting means provided in the downstream straight section. The determination can be made by comparing the reference data and the image detection data.
A coin processor according to a second aspect of the present invention relates to the coin processor according to the first aspect, wherein the image detecting means is disposed in front of the downstream linear portion, and a fake coin is provided in a rear portion of the downstream linear portion. A reject hole for removing coins determined to have been formed is formed, and a stopper member is provided upstream of the reject hole in the coin transport direction to prevent the coin from falling into the reject hole and avoid falling, and to prevent the coin from passing. Is provided.
[0005]
According to a third aspect of the present invention, there is provided a coin processing machine according to the first or second aspect , wherein the coin path further includes a bent portion at a stage subsequent to the two or more linear portions provided with the discriminating means. It has a straight line portion, and the straight line portion is provided with denomination selecting means for selecting coins determined to be true by the determining means into denominations.
Thereby, after the coin is conveyed from the rotating disk at the upstream straight portion of the coin passage, it is conveyed at the downstream straight portion via the bent portion. Then, while being conveyed by these linear portions, the discrimination is performed by the discriminating means arranged over these linear portions. Then, the coins determined to be true by the determination means are sorted by denomination by denomination selection means of the linear portion connected via the bent portion on the further downstream side.
As described above, since the denomination sorter is provided by connecting the linear portion via the bent portion to the straight portion provided with the discriminator, the coin processor can be downsized even if the denomination is further selected. it can.
[0006]
A coin processing machine according to claim 4 of the present invention is a rotating disk for paying out coins one by one, a coin path for guiding coins fed by the rotating disk, and a conveying means for conveying coins on the coin path. Discriminating means for discriminating coins on the coin passage, for accepting and removing coins based on the discrimination result of the discriminating means, wherein two or more coins are connected in series via a bent portion The coin path is constituted by the straight portions of the coin passage, and the discriminating means is disposed over two or more straight portions of the coin passage, and the coin passage is defined by the two or more straight portions provided with the discriminating means. It has a straight portion further through a bent portion in the subsequent stage, and the straight line portion is provided with denomination selecting means for sorting coins determined as true by the determining means into denominations. .
Thereby, after the coin is conveyed from the rotating disk at the upstream straight portion of the coin passage, it is conveyed at the downstream straight portion via the bent portion. Then, while being conveyed by these linear portions, the discrimination is performed by the discriminating means arranged over these linear portions.
As described above, the coin passage is constituted by two or more straight portions connected in series via the bent portion, and the discriminating means is arranged over these straight portions, so that the coin discriminating accuracy is improved. Even if the coin passage is long, the coin processor can be downsized.
After the coin is conveyed from the rotating disk at the upstream straight portion of the coin passage, it is conveyed at the downstream straight portion via the bent portion. Then, while being conveyed by these linear portions, the discrimination is performed by the discriminating means arranged over these linear portions. Then, the coins determined to be true by the determination means are sorted by denomination by denomination selection means of the linear portion connected via the bent portion on the further downstream side.
As described above, since the denomination sorter is provided by connecting the linear portion via the bent portion to the straight portion provided with the discriminator, the coin processor can be downsized even if the denomination is further selected. it can.
[0007]
A coin processing machine according to a fifth aspect of the present invention relates to the coin processing machine according to any one of the first to fourth aspects, wherein all the linear portions are connected so as to surround the rotating disk. I have.
In this way, since all the straight portions are connected so as to surround the rotating disk, even if the coin passage becomes longer due to improvement in coin discrimination accuracy and the like, the coin passage can be arranged most efficiently and downsized. .
[0008]
BEST MODE FOR CARRYING OUT THE INVENTION
One embodiment of a coin processor of the present invention will be described below with reference to FIG.
This coin processing machine has a substantially rectangular parallelepiped shape, and has a slot 12 through which loose coins are inserted by an operator on the upper surface of the body 11, and the slot 12 is provided below the slot 12. A supply disk 13 through which loose coins are guided from the mouth 12 is provided rotatably about a vertical axis. A rotating disk 14 is provided adjacent to the supply disk 13 so as to be rotatable about a vertical axis. The rotating disk 14 receives loose coins fed out from the supply disk 13 by centrifugal force, and feeds out the received coins one by one to a coin passage 15 described later by passing the received coins through a separating section (not shown) by centrifugal force.
[0009]
Here, a line connecting the rotation center of the supply disk 13 and the rotation center of the rotation disk 14 has a predetermined angle with respect to one side surface 11A of the body 11 so that the front rotation disk 14 is located inside the body 11. The supply disk 13 is disposed without leaving an unnecessary space between the supply disk 13 and the side surface portion 11A, and the rotating disk 14 is spaced from the supply disk 13 by a predetermined amount larger than the distance between the supply disk 13 and the side surface portion 11A. It is arranged so as to leave a space between the side surface 11A.
[0010]
A coin passage 15 for guiding coins fed from the rotating disk 14 on a passage surface 18 between the higher guides 16 and 17 on both sides forms a rotating disk along the side surface 11A, the front surface 11B and the side surface 11C. 14 are arranged horizontally. The coin passage 15 is connected to the rotating disk 14 and is disposed along the side surface 11A in a space between the rotating disk 14 and the side surface 11A. A first bent portion 21 connected to the opposite side to the rotating disk 14 and bent at a right angle to the first linear portion 20 in the direction of the rotating disk 14, and a first linear portion 20 of the first bent portion 21. A second straight portion 22 which is connected to the opposite side to form a right angle with respect to the first straight portion 20; and a second straight portion 22 which is connected to the second straight portion 22 on the opposite side to the first bent portion 21. And a second bent portion 23 bent at a right angle in the direction of the rotating disk 14, and connected to the second straight portion 22 of the second bent portion 23 at a side opposite to the second straight portion 22. And a third straight line portion 24.
[0011]
Above the coin passage 15, a transfer section (transporting means) 26 for transferring coins on the coin passage 15 along the coin passage 15 is provided. The transport unit 26 includes a transport belt 27 that transports coins fed from the rotary disk 14 along a part of the first linear portion 20, the first bent portion 21, and the second linear portion 22. A transport belt 28 for transporting the transported coins further to the rear end position of the second linear portion 22, and a coin transported by the transport belt 28 is further transported by the second bent portion 23 and the third linear portion 24. And a transport belt 29.
[0012]
Between the rotating disk 14 and the first linear portion 20 of the coin passage 15, at the distal end position of one of the guides 16, coins colliding with and staying at the distal end of the guide 16 are stored in the rotating disk 14. A rotatable guide roller 30 is provided to facilitate return to the coin passage 15 or to the coin passage 15.
A material detecting sensor 31 for detecting the material of the coin conveyed on the first linear portion 20 from the magnetic property is provided on the first straight portion 20 on the upstream side of the coin passage 15 in the coin conveying direction. Are arranged so as to form a part. Note that coin detection sensors 31a and 31b are provided on both sides of the material detection sensor 31 to measure the timing of taking in the detection data by the material detection sensor 31. That is, when the coins are detected by both of the coin detection sensors 31a and 31b, the material detection sensor 31 takes in the detection data.
In front of the second straight portion 22 on the downstream side of the coin passage 15, an image detecting portion (image detecting means) 32 for detecting an image of a coin conveyed by the second straight portion 22 is provided. Are arranged so as to form a part. It is to be noted that coin detection sensors 32a and 32b are provided on both sides of the image detection section 32 to measure the timing of capturing the detection data by the image detection section 32. That is, when coins are detected by both the coin detection sensors 32a and 32b, the image detection unit 32 takes in the detection data.
Thus, the discriminating unit (discriminating means) 33 composed of the material detecting sensor 31 and the image detecting unit 32 is disposed astride the first straight portion 20 and the second straight portion 22 of the coin passage 15. .
[0013]
Here, the outputs of the material detection sensor 31 and the image detection unit 32 are input to a discrimination circuit (not shown). In the discrimination circuit, for example, the detection data of the material detection sensor 31 on the upstream side is output for each denomination. The coins are sequentially compared with the reference data of the material of the coin, and when it is determined that the detection data of the material does not match the reference data of the material of the coin of any denomination, the coin is determined to be a fake coin at that time. On the other hand, if it is determined that the reference data of the coin material of any denomination matches, the reference data of the image of the coin of the matching material is read out, and the same detection data as the reference data of this image is detected. By comparing the coins with the detection data of the image detection unit 32, it is detected whether or not they match. If it is determined that the reference data and the detection data of these images match, the coin is determined to be a true coin of the detected denomination, while the reference data and the detection data of these images are If it is determined that they do not match, it is determined that the coin is a fake coin.
[0014]
A reject hole 35 is formed in the passage surface 18 at the rear of the second straight portion 22 for removing coins determined as false coins based on the detection results of the material detection sensor 31 and the image detection section 32. On the upstream side in the coin transport direction of the reject hole 35, the coin is dropped into the reject hole 35 by the second linear portion 22 by independently protruding into the second linear portion 22, while the coin is rejected to the reject hole 35. There is provided a first stopper member 36 for preventing the falling of the second linear portion 22 by releasing the projection into the second linear portion 22. In addition, at a position facing the first stopper member 36, by independently projecting into the second linear portion 22, the second linear portion 22 is conveyed on the side opposite to the first stopper member 36. A second stopper member 37 is provided for dropping a coin-like foreign matter having a small diameter into the reject hole 35 while preventing the coin from falling into the reject hole 35 by preventing the coin from projecting into the second linear portion 22. Have been.
Since the first stopper member 36 and the second stopper member 37 simultaneously project into the second linear portion 22, coins conveyed through the second linear portion 22 are prevented from passing. Accordingly, if the coin conveyed by the discrimination circuit (not shown) cannot be discriminated as a true coin or a false coin of any denomination, the coin is passed or rejected. Can be prevented, and the transport belts 27 and 28 can be reversed to return the indistinguishable coin to the rotating disk 14 for re-determination.
Further, a coin detection sensor 38 for obtaining timing for driving the first stopper member 36 and / or the second stopper member 37 is provided upstream of the reject hole 35 in the coin transport direction.
Although not shown, the coins dropped from the reject hole 35 are collected by a reject box arranged below the reject hole 35, and then taken out of the reject box and removed.
[0015]
In the third linear portion 24, a denomination sorter (denomination sorter) 40 that sorts coins determined to be true by the determination circuit based on the detection results of the material detection sensor 31 and the image detection portion 32 into denominations. Is provided. The denomination sorting unit 40 has sorting holes 41a to 41f for sorting coins to be conveyed by denomination and dropping the coins, and the sorting holes 41a to 41f are to drop coins in order from a coin having a smaller diameter. Are located in The coins dropped in the sorting holes 41a to 41f are stored in a storage unit (not shown) for each denomination via a temporary storage unit (not shown).
Note that counting sensors 42a to 42f are arranged immediately before each of the sorting holes 41a to 41f, and the difference in the number of coins passing through adjacent ones of the counting sensors 42a to 42f is determined by the sorting holes 41a to 41f. 41f, it is configured to be counted as the number of sheets selected to be positioned therebetween.
[0016]
According to the coin processing machine described above, coins supplied from the supply disk 13 are fed out one by one from the rotary disk 14 and conveyed by the first straight line portion 20 on the upstream side of the coin passage 15, and then the first coin The sheet is conveyed at the second straight portion 22 on the downstream side via the bent portion 21. While being conveyed by the first straight section 20 and the second straight section 22, the material detection sensor 31 as the discriminating section 33 disposed over the first straight section 20 and the second straight section 22 and True / false and denomination are determined based on the detection result of the image detection unit 32.
Thus, the first straight portion 20 and the second straight portion 22 connected in series via the first bent portion 21 constitute a part of the coin passage 15, and the first straight portion 20 and the second straight portion are formed. Since the material detection sensor 31 and the image detection unit 32 as the discrimination unit 33 are arranged over the 22, the coin passage 15 becomes longer due to the provision of the image detection unit 32 for improving the discrimination accuracy of coins. However, the coin processing machine can be downsized.
Therefore, even if the accuracy of coin discrimination is improved, the overall size can be reduced.
[0017]
In addition, the coins determined to be true by the determination unit 33 are sorted by denomination by the denomination sorter 40 of the third linear portion 24 connected via the second bent portion 23 further downstream.
As described above, the first straight portion 20 and the second straight portion 22 provided with the discriminating portion 33 are further connected to the third straight portion 24 via the second bent portion 23 to provide the denomination sorter 40. Therefore, even if the denomination is performed, the coin processor can be downsized.
Therefore, even if the denomination is selected in response to the improvement in coin discrimination accuracy, the overall size can be reduced.
[0018]
In addition, by detecting the material of the coin by the material detection sensor 31 provided on the first linear portion 20 on the upstream side, the denomination of the coin is predicted in advance, and provided on the second linear portion 22 on the downstream side. The image detector 32 compares the predicted reference data of the denomination with the image detection data to make a determination.
Therefore, the discrimination time can be reduced as compared with the case where the image detection data is compared with the reference data of all denominations. As a result, the length of the coin passage 15 can be shortened, so that further miniaturization can be achieved.
[0019]
Further, since all of the first straight portion 20, the second straight portion 22, and the third straight portion 24 are connected so as to surround the rotating disk 14 and that adjacent ones form a right angle, coin discrimination is performed. Even if the coin passage 15 becomes longer due to an improvement in accuracy or the like, the coin passage 15 can be arranged most efficiently and can be downsized.
Therefore, the size of the entire device can be further reduced even if the accuracy of coin discrimination is improved.
[0020]
In the above description, the case where the discriminating unit 33 is provided over two of the first straight portion 20 and the second straight portion 22 has been described as an example. However, the discriminating portion extends over more than two straight portions. 33 may be arranged. Even in such a case, all the straight portions may be connected so as to surround the rotating disk 14.
In the above description, the coin processing machine for storing coins by denomination has been described as an example. However, instead of the third linear portion 24, a coin wrapping portion for wrapping coins is connected to the downstream side of the second linear portion 22. Then, it becomes a coin processing machine that wraps coins.
[0021]
【The invention's effect】
As described above in detail, according to the coin processing machine of the first aspect of the present invention, a coin passage is formed by two or more straight portions connected in series via the bent portion, and extends over these straight portions. Since the discriminating means is provided, the coin processing machine can be miniaturized even if the coin passage becomes long with the improvement of coin discriminating accuracy.
Therefore, even if the accuracy of coin discrimination is improved, the overall size can be reduced.
The denomination of the coin is predicted in advance by detecting the material of the coin with a material detection sensor provided in the upstream straight section, and the predicted denomination of the denomination is detected by the image detecting means provided in the downstream straight section. The determination can be made by comparing the reference data and the image detection data.
Therefore, the discrimination time can be reduced as compared with the case where the image detection data is compared with the reference data of all denominations. As a result, the length of the coin passage can be shortened, so that further miniaturization can be achieved.
[0022]
According to the coin processor according to the third aspect of the present invention, since the denomination sorter is provided by connecting the linear portion through the bent portion to the straight portion provided with the discriminator, the denomination sorter is provided. Even if it is further performed, the coin processing machine can be downsized.
Therefore, even if the denomination is selected in response to the improvement in coin discrimination accuracy, the overall size can be reduced.
[0023]
According to the coin processor of the fourth aspect of the present invention, the coin passage is constituted by two or more straight portions connected in series via the bent portion, and the discriminating means is disposed over these straight portions. Therefore, even if the coin passage lengthens with the improvement in coin discrimination accuracy, the coin processing machine can be downsized.
Therefore, even if the accuracy of coin discrimination is improved, the overall size can be reduced.
Since the denomination sorter is provided by further connecting the linear part via the bent part to the straight part provided with the discriminating part, the coin processor can be downsized even if the denomination sort is further performed.
Therefore, even if the denomination is selected in response to the improvement in coin discrimination accuracy, the overall size can be reduced.
[0024]
According to the coin processing machine according to claim 5 of the present invention, all the straight portions are connected so as to surround the rotating disk, so that even if the coin passage becomes longer due to improvement in coin discrimination accuracy and the like, The coin passage can be arranged most efficiently and the size can be reduced.
Therefore, the size of the entire device can be further reduced even if the accuracy of discrimination of coins is improved.
[Brief description of the drawings]
FIG. 1 is a plan view showing a partial configuration of one embodiment of a coin processor of the present invention.
[Explanation of symbols]
14 Rotating disk 15 Coin passage 20 First straight part 21 First bent part 22 Second straight part 23 Second bent part 24 Third straight part 26 Transport unit (transport unit)
31 Material detection sensor 32 Image detection unit (image detection means)
33 determining section (determining means)
40 Denomination Sorting Unit (Denomination Sorting Means)

Claims (5)

A rotating disk that pays out coins one by one,
A coin passage for guiding coins fed by the rotating disk,
Conveying means for conveying coins on the coin path,
Discriminating means for discriminating coins on the coin passage,
In a coin processing machine that accepts and removes coins based on the determination result of the determination unit,
The coin passage is constituted by two or more straight portions connected in series via a bent portion, and the discriminating means is arranged over two or more straight portions of the coin passage ,
As the discriminating means, a material detection sensor that detects the material of the coin is arranged in a straight portion on the upstream side in the coin transport direction, and an image detecting device that detects an image of the coin is arranged in a straight portion on the downstream side. Characterized coin processing machine. The image detection means is arranged in front of the downstream straight portion, and a reject hole for removing coins determined as false coins is formed in the rear of the downstream straight portion, and the coin in the reject hole is formed. 2. The coin processing machine according to claim 1 , wherein a stopper member is provided on the upstream side in the transport direction to prevent the coin from falling into the reject hole and to prevent the coin from passing through the coin reject hole . The coin passage further has a straight portion via a bent portion at a stage subsequent to the two or more straight portions provided with the discriminating means, and a coin determined to be true by the discriminating means is provided in this straight portion. The coin processor according to claim 1 or 2, further comprising a denomination sorter for sorting by denomination . A rotating disk that pays out coins one by one,
A coin passage for guiding coins fed by the rotating disk,
Conveying means for conveying coins on the coin path,
Discriminating means for discriminating coins on the coin passage,
In a coin processing machine that accepts and removes coins based on the determination result of the determination unit,
The coin passage is constituted by two or more straight portions connected in series via a bent portion, and the discriminating means is arranged over two or more straight portions of the coin passage ,
The coin passage further has a straight portion via a bent portion at a stage subsequent to the two or more straight portions provided with the discriminating means, and a coin determined to be true by the discriminating means is provided in this straight portion. A coin processing machine provided with a denomination sorter for sorting by denomination . The coin processor according to any one of claims 1 to 4 , wherein all the straight portions are connected so as to surround the rotating disk.

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