JPH113448A - Device for deciding authenticity of paper sheet or the like - Google Patents

Abstract

PROBLEM TO BE SOLVED: To discriminate a false bill that is elaborately printed with a color copier, a color printer, etc., by comparing color data which is discriminated with a color discriminating means with data that is preliminarily stored and discriminating the authenticity of paper sheet or the like. SOLUTION: A light source 14, a spectrophotometic detector 18 a bill detection sensor 20 are connected to a CPU of a comparison deciding means. RAM which stores data that is discriminated with the detector 18 and ROM which stores the reference data, etc., of a bill 1 that is a valid bill in each denomination are connected to the CPU. By the CPU light is radiated from the source 14 before the bill 1 is carried with carrying means 11 and 12, and turned to parallel flux of light with a condenser lens 15 to irradiate the bill while limiting the irradiation range through a pinhole 16. The light reflected on the irradiated bill 1 is entered into an optical fiber 17 and transmitted to the detector 18. When the sensor 20 detects the bill 1, the CPU compares color data that is detected by the detector 18 with data which is preliminarily stored to discriminate authenticity.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sheet authenticity discriminating apparatus for discriminating the authenticity of sheets such as banknotes.

[0002]

2. Description of the Related Art Japanese Patent Laid-Open No. 181495/1992 discloses a device for determining the authenticity of paper sheets such as banknotes.
Is disclosed in Japanese Patent Application Laid-Open Publication No. HEI 9-203 (1995). When a bill as a paper sheet is conveyed, the paper sheet authenticity discriminating device emits light from a light source, and receives reflected light from the bill with an image sensor. Then, a plurality of adjacent scan line data is combined with one scan line data in the image sensor to obtain combined scan line data, and the combined scan line data is compared with pre-stored reference data. To determine the authenticity of the bill. Here, the reason for obtaining the combined scanning line data from the plurality of detected scanning line data is to average the data to be determined and eliminate the influence of printing displacement and expansion and contraction of bills.

[0003]

By the way, in recent years, with the progress of printing techniques such as color copying and color printers,
More elaborate printing has become possible, and in the above-described conventional paper sheet authenticity discriminating apparatus, a counterfeit note was sometimes discriminated as a true note without discriminating it as a counterfeit note. . SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a paper sheet authenticity discriminating apparatus capable of discriminating a counterfeit bill precisely printed by a color copy, a color printer, or the like.

[0004]

In order to achieve the above object, a paper sheet authenticity discriminating apparatus according to the present invention comprises: an irradiating means for irradiating light to a paper sheet; and a paper for irradiating light with the irradiating means. Light receiving means for receiving the reflected light from the leaves, color determining means capable of determining, from the light received by the light receiving means, the color of the smallest constituent unit of the color used for the paper leaf, and the color determining means And a comparing / determining means for comparing the color data determined in (1) with data stored in advance to determine the authenticity of the paper sheet. That is, a color copy, a color printer, and the like are based on seven colors of R, G, B, C, M, Y, and K (red, green, blue, cyan, magenta, yellow, and black). Either one is used as the minimum configuration unit, and printing is performed so as to express various colors by adjusting the number of dots and arrangement of these minimum units. When the color of the unit is determined by the color determining means capable of distinguishing the color, a counterfeit note by a color copy or a color printer is detected as one of the above-mentioned seven colors, which is the minimum constituent color. On the other hand, regular paper sheets are adjusted to the color represented by the color of the ink itself to be printed, so that the above seven colors are hardly detected even if they are discriminated by the color discriminating means. Taking advantage of this difference,
Color data determined by the color determination means,
The authenticity of the paper sheet is determined by comparing the data with data stored in advance.

[0005]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of a paper sheet authenticity discriminating apparatus according to the present invention will be described below with reference to FIGS. In this embodiment, banknotes are used as paper sheets. In FIG. 1, reference numerals 11 and 12 denote transport means for transporting the banknote 1 in a straight line with its length direction substantially orthogonal to the transport direction while being sandwiched between upper and lower transport belts. The fake discriminating device 10 is arranged so as to be able to discriminate the banknote 1 when the banknote 1 is transferred between the transport means 11 and 12.

That is, the paper sheet authenticity discriminating apparatus 10 includes a light source (irradiating means) 14 for irradiating light from one side (in this case, upper side) to the bill 1 located between the transporting means 11 and 12 during transporting; A condenser lens (irradiating means) which is arranged between the banknote 1 located between the transporting means 11 and 12 and the light source 14 during the transporting and converts the light from the light source 14 into a parallel light flux (irradiating means)
15 and a pinhole (irradiating means) 16 which is arranged between the banknote 1 and the condenser lens 15 located between the transporting means 11 and 12 during transporting and limits an irradiation range of light.

The paper sheet authenticity discriminating apparatus 10 includes a light source 1
4 (in this case, above the banknote 1).
One end is disposed at a position where the light emitted from the light source 14 via the condenser lens 15 and the pinhole 16 can be detected from the banknote 1 located between the conveying means 11 and 12 during conveyance. ing. Further, the paper sheet authenticity discriminating device 10 is disposed on the other end side of the optical fiber 17, and is detected at one end of the optical fiber 17, guided inside the optical fiber 17, and transmitted from the other end. Has a spectrophotometer (color determining means) 18 for determining the color of the image.

[0008] Here, by limiting the light irradiation range by the pinhole 16, for example, seven colors of R, G, B, C, M, Y, and K, such as a color copy or a color printer, of which RGB, CMY, among them, are used. Is used as the minimum configuration unit, and only the dots of the minimum configuration unit in a printed matter printed to represent various colors by adjusting the number of dots and arrangement of these minimum units (referred to as dot printing) Can be distinguished by a spectrophotometer. During the transportation of the light emitted from the light source 14 through the condenser lens 15 and the pinhole 16, the transportation unit 11,
A bill detection sensor 20 that detects, at a point, the leading end in the transport direction of the bill irradiated with light is provided downstream of the irradiation position on the bill located between the twelve bills. Note that the bill detection sensor 20 is disposed at a position for detecting a predetermined intermediate position in the length direction of the bill 1 conveyed by the conveying means 11 and 12.

The light source 14, the spectrophotometer 18 and the bill detecting sensor 20 are connected to a CPU (comparison / determination means) 21 as shown in FIG. RAM 22 for storing the obtained data, and ROM 2 for storing reference data and the like of the color used for the banknote 1 as a genuine note for each denomination.
3 are connected.

Next, the contents of control by the CPU 21 will be described. The CPU 21 irradiates light from the light source 14 before the banknote 1 is conveyed by the conveying means 11 and 12, and the light radiated from the light source 14 is converted into a parallel luminous flux by the condenser lens 15 and the pinhole 16 The irradiation range is limited by the irradiation. When the bill 1 is conveyed and positioned at the irradiation position, the reflected light of the irradiated light by the bill 1 enters the optical fiber 17 and is transmitted to the spectrophotometer 18 through the optical fiber 17, The CPU 21 compares the color data detected by the spectrophotometer 18 with the data stored in advance at the time when the bill detection sensor 20 is detecting the bill 1, and determines whether the bill 1 is true or false as follows. Is determined.

From the time when the bill 1 is detected by the bill detecting sensor 20, the reflected light at a plurality of places on the carried bill 1 is detected by the spectrophotometer 18. Here, the paper sheet authenticity discriminating device 10 is fixed in position, and detects a plurality of locations by detecting and providing a time lag while conveying the banknote 1. Therefore, a plurality of reflected light detection locations are: It will be located on the same straight line parallel to the transport direction. Then, the color data of the spectrophotometer 18 detected at each reflected light detection point is
The CPU 21 compares R,
It is determined whether the color is one of the seven colors of G, B, C, M, Y, and K, and R, G, B, C, If it is determined to be one of the seven colors of M, Y, and K, it is determined to be a counterfeit ticket,
R, G,
If it is determined that the color is one of the seven colors B, C, M, Y, and K, it is determined to be a genuine note.

According to the first embodiment described above,
For example, R, G,
B, C, M, Y, K, 7 colors, RG
Either B or CMY is used as the minimum constituent unit,
By adjusting the number of dots and the arrangement of these constituent minimum units, dot printing expressing various colors is performed,
When the color is determined by the spectrophotometer 18 capable of determining the color of the minimum unit in the case of such a printed matter,
Counterfeit bills produced by color copying, color printers, etc., are detected in any of the above-described seven colors, ie, the color of the minimum unit.
On the other hand, since the genuine bill is adjusted to the color represented by the color of the ink itself to be printed, even if the spectrophotometer 18 determines, the above seven colors are hardly detected. Utilizing this difference, the CPU 21 compares the color data determined by the spectrophotometer 18 with the reference data previously stored in the ROM 23 as described above to determine the authenticity of the bill 1. Therefore, it is possible to discriminate a counterfeit bill that is finely printed by dot printing such as color copying or a color printer.

A second embodiment of a paper sheet authenticity discriminating apparatus according to the present invention will be described below mainly with reference to FIGS. 3 and 4, focusing on differences from the first embodiment. . The first
The same reference numerals are given to the same parts as those of the embodiment, and the description is omitted. The arrow X shown in FIGS. 3 and 4 is the direction of transport of the bill. In the second embodiment, color data of the spectrophotometer 18 detected at a predetermined reflected light detection point is compared with reference data of a color to be detected at the reflected light detection point, and these colors are determined. If they match, it is determined to be a valid note, and if these colors do not match, it is determined to be a fake note.

In the second embodiment, a line sensor 25 in which a large number of detection pixels are arranged in a straight line is provided instead of the bill detection sensor 20 described above. The line sensor 25 is disposed so as to extend orthogonally to the direction in which the bills 1 are conveyed by the conveying means 11 and 12 and to extend in parallel with the bill 1 to be conveyed, whereby the detection pixels are arranged in this extending direction. Let me. The line sensor 25 arranged as described above detects the bill 1 based on the bill detection timing of each detection pixel.
Can be detected with respect to the inclination in the conveyance direction and the position in the direction orthogonal to the conveyance direction.

As shown in FIG. 3, the CPU 21 irradiates a pixel (hereinafter, referred to as a first detection pixel) 25A of the line sensor 25 which first detects the bill, and irradiates the light from the light source 14 through the condenser lens 15 and the pinhole 16. Is located at a position downstream of the point P, which is a reflected light detection point on the banknote 1 detected by the spectrophotometer 18 in the transport direction, that is, a position perpendicular to the transport direction and parallel to the banknote 1 The tilt state of the banknote is determined from the timing at which the pixel (hereinafter referred to as a second detection pixel) 25B whose position in the appropriate direction coincides with the point P detects the banknote 1. In this embodiment, the spectrophotometer 18 detects the reflected light from the bill 1 at the timing when the bill 1 is detected by the second detection pixel 25B.

The first detection pixel 25A and the second detection pixel 25B
When the banknote 1 is detected at the same time, the longitudinal direction of the transported banknote 1 is determined to be in a state parallel to the line sensor 25, that is, a normal state in which the banknote 1 is not inclined. The position and length in the longitudinal direction of the banknote are detected from the positions of those at both ends of the detection pixel that detects
The length in the short direction is detected by multiplying the predetermined transport speed by 12, and the color data of the reflected light detected by the spectrophotometer 18 when the second detection pixel 25B detects the bill 1 is detected.

The CPU 21 determines the denomination of the banknote 1 from each of the lengths in the longitudinal direction and the lateral direction,
The light irradiation position of the banknote 1 at the time when the second detection pixel 25B detects the banknote, that is, the detection position of the reflected light by the spectrophotometer 18 is determined from the positional relationship in the longitudinal direction and the lateral direction of the banknote 1, and this reflection of this denomination is performed. The reference data at the light detection location is read from the ROM 23 and compared with the color data from the spectrophotometer 18, and if they match, it is determined to be a genuine note, and if they do not match, it is determined to be a fake note.

On the other hand, when the first detection pixel 25A and the second detection pixel 25B detect the bill 1 at different timings,
The CPU 21 uses the line sensor 2
5 and the second detection pixel 25B detects the banknote 1 when the second detection pixel 25B detects the banknote 1.
8, the color data of the reflected light is detected, and the size, position and inclination of the banknote 1 are obtained as follows.
In the following, "" is a unit. First, whether the first detection pixel 25A is located on the left or right in the traveling direction of the banknote 1 with respect to the second detection pixel 25B, if it is located on the left side, it is determined that the left side is inclined to be located on the upstream side If it is located on the right side, it is determined that the right side is inclined to be located on the upstream side.

As shown in FIG. 4, the first detection pixel 2
The detection time lag (time difference) t ₁ “s” between 5A and the second detection pixel 25B, the predetermined bill conveyance speed (constant value) S “m / s” by the conveyance means 11 and 12, and the first detection pixel 25
From the distance a “m” between A and the second detection pixel 25B, the distance Y ₁ that the banknote 1 has moved from when the first detection pixel 25A is detected to when the second detection pixel 25B is detected is represented by Y ₁ = S
Calculate at t ₁ “m”, and calculate the inclination angle α of the banknote 1 with respect to the line sensor 25 by tan α = Y ₁ / a.

When the second detection pixel 25B detects a bill, the point P, which is a reflected light detection point on the bill 1 detected by the spectrophotometer 18, is set to the corner of the bill 1 detected by the first detection pixel 25A. Length Px from the shorter side of the two sides constituting
And the length Py from the long side of the two sides forming the corner of the bill 1 detected by the first detection pixel 25A. That is, the distance Y ₂ in the direction along the conveying direction of the banknote 1 between the irradiation position of the second detection pixel 25B and the light since the irradiation position of the light is always constant is predetermined constant value, therefore, Py = Y ₂ · cosα Px = Y ₂ · sinα + a / cosα

Next, the outermost detection pixel on the side where the first detection pixel 25A is not detected with the second detection pixel 25B as the center is set as the third detection pixel, and the first detection pixel is set with the second detection pixel 25B as the center. The fourth detection pixel is the outermost detection pixel on the side where the pixel 25A is detected, and the distance b between the third detection pixel and the first detection pixel that is determined by detecting the bill 1 with the third detection pixel. From the length d of the banknote 1 in the longitudinal direction, d = b / co
At sα “m”, the length e in the short direction of the banknote 1 is calculated from the distance c between the fourth detection pixel and the first detection pixel that is determined by detecting the banknote at the fourth detection pixel, e = c / It is calculated by sinα “m”. From these d and e, the size of the bill 1 is determined, and the denomination of the bill 1 is determined. Then, with respect to the banknote of this denomination, the light irradiation position of the banknote 1 when the second detection pixel 25B detects the banknote 1, that is, the spectrophotometer 18
The reference data at the point P (Px, Py) at the point where the reflected light is detected is read from the ROM 23 and compared with the color data from the spectrophotometer 18. If they match, it is determined to be a genuine note. It is determined that the ticket is a ticket.

According to the second embodiment described above,
For example, R, G,
B, C, M, Y, K, 7 colors, RG
Either B or CMY is used as the minimum constituent unit,
By adjusting the number of dots and the arrangement of these constituent minimum units, dot printing expressing various colors is performed,
When the color is determined by the spectrophotometer 18 capable of determining the color of the minimum unit in the case of such a printed matter,
Counterfeit bills produced by color copying, color printers, etc., are detected in any of the above-described seven colors, ie, the color of the minimum unit.
On the other hand, the genuine bill is adjusted to the color represented by the color of the ink itself for printing, and any of the above seven colors is hardly detected. Therefore, the CPU 21 compares the color data determined by the spectrophotometer 18 with the reference data previously stored in the ROM 23 as described above, and if these match, it is determined that the bill is genuine. If they do not match, it is determined to be a counterfeit.

Accordingly, it is possible to discriminate a counterfeit note that has been finely dot printed by a color copy, a color printer, or the like. In addition, in the case of dot printing of a color copy or a color printer as described above, by determining the true / false of the color of a minute portion that can be a dot of the minimum unit of the configuration,
The authenticity of the entire color of the bill 1 can be determined.

In the above-described second embodiment, the spectrophotometer 18 causes the spectrophotometer 18 to detect the reflected light at the reflected light detection point for a predetermined period of time after the second detection pixel 25B detects the bill 1. It may be repeated a plurality of times each time. That is, the time from the time when the second detection pixel 25B detects the banknote 1 in each of the plurality of detections is t.
If "s" is set, the position of the point P is S in the short side direction of the banknote 1.
T · cosα, S · t · sinα in the longitudinal direction of banknote 1
Py = Y ₂ · cos α + St · cos α Px = Y ₂ · sin α + a / cos α + St · sin
α.

Then, the reference data at each reflected light detection point P (Px, Py) for each denomination at each time point is read from the ROM 23 and compared with the actual color data by the spectrophotometer 18, respectively. Is determined as a genuine note according to the ratio of the number of matching parts to the number of mismatching parts (for example, if the matching part exceeds half, false The bill 1 is determined to be true or false. Also, the judgment accuracy can be adjusted by changing the authenticity judgment criterion, which is the ratio of the number of matching parts to the number of mismatching parts.

In the second embodiment described above, the determination in the case where the banknote 1 conveyed by the conveying means 11 and 12 has its front and back aligned in a predetermined direction has been described. If they are not aligned in the same direction, the reference data for both the front and back are stored in the ROM 23, and for example, one of the front and back reference data is compared with the actual color data by the spectrophotometer 18 and one of them is determined. If they match, it is determined that they match, and if they do not match, it is determined that they do not match.

[0027]

As described in detail above, according to the present invention,
For color copying and color printers, R, G, B, C,
M, Y, K (red, green, blue, cyan, magenta, yellow, black)
Since the printing is performed so as to express various colors by using one of RGB and CMY as the minimum configuration unit and adjusting the number of dots and arrangement of these minimum units, When the color used in the paper sheet is determined by the color determining means capable of distinguishing the color of the minimum unit of the configuration, the counterfeit note by the color copy or the color printer detects the color of the minimum configuration, that is, any one of the above seven colors. Becomes On the other hand, regular paper sheets are adjusted to the color represented by the color of the ink itself to be printed, so that the above seven colors are hardly detected even if they are discriminated by the color discriminating means. Utilizing this difference, the comparison / determination means compares the color data determined by the color determination means with data stored in advance to determine the authenticity of the paper sheet. Therefore, it is possible to discriminate a counterfeit note that is finely printed by a color copy, a color printer, or the like.

[Brief description of the drawings]

FIG. 1 is a side view schematically showing a paper sheet authenticity discriminating apparatus according to a first embodiment of the present invention.

FIG. 2 is a block diagram of a control system according to the first embodiment of the paper sheet authenticity discriminating apparatus of the present invention.

FIG. 3 is a plan view schematically showing a paper sheet authenticity discriminating apparatus according to a second embodiment of the present invention.

FIG. 4 is a plan view showing each dimensional relationship of a banknote authenticity discriminating apparatus according to a second embodiment of the present invention when a banknote is inclined.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Banknote 10 Paper sheet discriminating apparatus 14 Light source (irradiating means) 15 Condenser lens (irradiating means) 16 Pinhole (irradiating means) 18 Spectrophotometer 21 CPU (comparative discriminating means)

Claims (1)

[Claims] 1. An irradiating means for irradiating light to a paper sheet, a light receiving means for receiving reflected light of the light irradiated by the irradiating means from the paper sheet, and Color discriminating means capable of discriminating the color of the minimum unit constituting the colors used for the leaves, and comparing the color data discriminated by the color discriminating means with data stored in advance to determine whether the paper sheet is authentic. And a comparison discriminating means for discriminating the authenticity of the paper sheet.