KR20090070927A - A forged money discriminator - Google Patents

Abstract

A differentiation unit of a counterfeit bill is provided to perform a differentiation for the counterfeit bill, and to minimize the differentiation unit by using a lens collecting reflected light. An ultraviolet ray diode(3) irradiates ultraviolet rays to an inspected object, and is mounted on a housing having a predetermined form. A lens(4) mounted on the housing condenses fluorescence or the ultraviolet rays which are reflected from the inspected body. A band pass filter(5) is mounted on the housing, and penetrates the light of a specific wave changed by fluorescent materials. A light receiving element(6) receives the light passing through the band pass filter.

Description

Counterfeit Bill Discrimination Unit {a forged money discriminator}

The present invention relates to a discrimination unit for discriminating counterfeit money, and more particularly, very low power consumption and ultra-small, and distinguishes a fluorescence pattern capable of recognizing a fluorescent pattern printed in a narrow area (1mm × 1mm) by applying a lens. It is about a unit.

Recently, as high-performance color copying machines, color printers, etc. have been widely spread, counterfeiting has become easier than in the past, and thus, counterfeit crimes have increased, causing social controversy. Banknotes forged by color copiers or color printers are elaborately made and it is very difficult to determine whether they are counterfeit with the naked eye. Therefore, counterfeit bills were distributed for a long time in the market before they entered the bank to be counterfeit, and thus, most of the counterfeit bill holders suffered financial damage.

Based on these problems, some companies are selling counterfeit money discriminator.

As an example, a differentiation unit using an analysis of the UV transmittance and the reflectance of a banknote, and a technique of determining the counterfeit when the fluorescence is detected in the detector using the ultraviolet LED (UV LED) and the sensor, or the pneumoconiosis are commercially available ( Application No. 10-2005-0112171), such a prior art has a complicated structure and has a limitation in discriminating counterfeit bills by applying recycled paper having recently spread afluorescence characteristics.

The present invention has been made to solve the above problems, an object of the present invention is to provide a compact fluorescent pattern discrimination unit that can detect a fluorescent pattern in a narrow region by applying a lens, and does not require a separate amplification circuit.

In addition, the present invention has another object to provide a differentiation unit easy to be applied to the portable counterfeit money discriminator according to the issue of high-volume bills to be issued in the future.

Still another object of the present invention is to provide a method of distinguishing counterfeit by recognizing a fluorescent pattern formed on a banknote.

In order to achieve the above object, the present invention provides a housing of a predetermined form; A cover installed on an upper portion of the housing; An ultraviolet diode mounted on a predetermined portion of the housing to irradiate ultraviolet rays to the test body; A lens mounted to the housing to condense the fluorescent or ultraviolet rays reflected from the inspector; A band pass filter mounted on the housing to block ultraviolet rays reflected from the inspector and to transmit light having a specific wavelength changed by the fluorescent material; A counterfeit bill discrimination unit is provided, including a light receiving element for receiving light through the band pass filter.

In the present invention, the light receiving element has a configuration in which an integrated circuit for converting the detected optical signal into an analog voltage without a separate amplification circuit is embedded.

In addition, in the present invention, it is preferable that a connector further connected to the light receiving element and transmitting a signal to the counter circuit is mounted on the housing.

In the present invention, it is preferable that the ultraviolet diode is a diode having a specific angle of directivity so that light can be effectively concentrated in a narrow area of the banknote. In a preferred embodiment of the invention, the directivity angle of the diode is 5 to 30 degrees, preferably 10 degrees.

In the present invention, in the detection of the fluorescence, the discrimination unit has a FOV of 0.1-5.0 mm 2, preferably 0.3-2.0 mm 2, and most preferably so as to detect whether or not the amount of fluorescence is different for each portion of the banknote. Is preferably about 1.0 mm 2. If the FOV is large, it is difficult to accurately detect the fluorescence pattern. If the FOV is too small, the light receiving efficiency is low, making it difficult to detect a signal, and an additional amplifier circuit is required for signal amplification. do.

According to an aspect of the present invention, after radiating ultraviolet rays to banknotes, fluorescence generated from banknotes is magnified by a lens to recognize a pattern of fluorescence, thereby detecting a forgery.

In the present invention, the banknote is a banknote moving relative to the light source, preferably a banknote moving along the bank entrance. In this case, the light source is fixed to the banknote inserter, and it is possible to scan a pattern in which fluorescence is generated from the banknote by radiating ultraviolet rays to the banknote.

In the present invention, it is preferable that the lens recognizes the data by enlarging a small area of the bill so that more fluorescent pattern data can be recognized from the bill. In a preferred embodiment of the invention, the discrimination unit has a FOV of 0.1-5.0 mm 2, preferably 0.3-2.0 mm 2, most preferably about 1.0 mm 2 so as to detect different fluorescence, or amount of fluorescence for each portion of the banknote. Is preferably.

In the present invention, since the area of the portion where the lens is small is enlarged, it is preferable to concentrate the light source incident on the observation area of the lens. In the practice of the invention, in order to focus the incident light source, it is preferable that the light source of light uses an ultraviolet diode having a directivity angle of 5-30 degrees.

According to the fluorescent pattern discrimination unit of the present invention, a separate amplification circuit is employed by employing a lens for condensing light reflected in a narrow area and a light receiving element with a built-in circuit for converting light through an ultraviolet filter into an analog voltage. Since it is not necessary, it is very easy to use, the overall size can be implemented very small, and the fluorescence pattern (Pattern) printed in a narrow area can be recognized.

In addition, since the ultraviolet light is irradiated only with the bill while discriminating whether or not the counterfeit bill, it is possible to exclude the possibility that the ultraviolet light is irradiated to the user, there is an effect harmless to the human body.

Hereinafter, a preferred embodiment of the counterfeit bill discrimination unit according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a discriminating unit of the present invention, Figure 2 is a view for explaining the usage of the discriminating unit of the present invention, Figure 3 is a view for explaining the optical path of the discriminating unit of the present invention.

The discrimination unit of the present invention is provided with a housing 2 of a predetermined form, a cover 1 installed on an upper portion of the housing 2, and a predetermined portion of the housing 2 to irradiate ultraviolet rays with a banknote which is a check chain. UV diode (3) for the purpose, a lens (4) mounted on the housing (2) for condensing fluorescence or ultraviolet rays reflected from the inspector, and is mounted on the housing (2) to block ultraviolet rays reflected from the inspector And a band pass filter 5 for transmitting light of a specific wavelength changed by the fluorescent material, and a light receiving element 6 for receiving light through the band pass filter.

The ultraviolet diode 3 is installed to be inclined obliquely with respect to the horizontal direction on the upper side of the housing 2, the lens 4 is installed in the vertical direction on the other side of the upper housing 2, the lens Behind (4), a band pass filter 5 and a light receiving element 6 are provided. That is, the ultraviolet diode 3 is installed at about 45 degrees with respect to the installation direction of the lens 4.

The ultraviolet diode 3 is a device that generates ultraviolet light at low power, and is small in size than a fingernail, and has a lifetime of several thousand hours. When the ultraviolet rays generated from the ultraviolet diode 3 are irradiated to the fluorescent material contained in the banknote, the fluorescent material generates light of a specific wavelength. That is, the wavelength of the ultraviolet light is changed by the fluorescent material. Such ultraviolet rays preferably have a wavelength λ of 315 to 400 nm.

In addition, the ultraviolet diode 3 preferably has a very narrow directivity angle (10 deg) in order to maximize the characteristics of the differentiation unit of the present invention for detecting a phosphor in a narrow region.

On the other hand, the lens 4 is installed to detect a fluorescent pattern (Pattern) printed in a narrow area and to maximize the light receiving efficiency.

The lens 4 collects the light reflected from the narrow area and collects the light onto the light receiving element 6. The basic principle is as shown in FIG. 3.

At this time, the lens 4 is designed so that the field of view (FOV) of the discrimination support can be 1.0mm × 1.0mm, and thus, the fluorescent material printed on the narrow area can be detected due to the narrow FOV. .

On the other hand, the band pass filter 5 blocks the ultraviolet light generated from the ultraviolet diode 3 and simply reflected on the banknote, and transmits only a specific wavelength changed by the fluorescent material, that is, a fluorescent wavelength corresponding to visible light.

Specific specifications of the band pass filter, as shown in the graph of Figure 4, transmits only a specific wavelength of 420nm ~ 640nm, it is preferable to use a glass material in order to prevent the phenomenon of discoloration in the strong energy of ultraviolet rays.

The light receiving element 6 receives light passing through the band pass filter 5 to find out whether the banknote contains a fluorescent substance.

In the present invention, the light receiving element 6 is an integrated circuit for converting light into an analog voltage, unlike the conventional method of changing an optical signal into a voltage in a separate amplification circuit (see the circuit diagram of FIG. 5). 6, a device having excellent sensitivity to visible light (400 to 700 nm) region, very low noise, and very fast response (tr, tf: Typ 150㎲). It can be used for the counterfeit detector that operates at high speed.

On the other hand, the differentiation unit of the present invention is provided with a connector (7) connected to the internal optical element to transmit a signal to the counter circuit, the connector is connected to an external analyzer (not shown), or an external power source (not shown) ) Is connected to the connector (not shown) is selectively connected.

The differentiating unit of the present invention has a cover 1 mounted on an upper portion of the housing 2, and thus becomes a box shape as a whole.

The operation of the counterfeit bill discrimination unit of the above structure will be described.

Banknotes contain some anti-counterfeiting properties, of which the fluorescent material emitted by the ultraviolet rays is contained in a particular position on the banknote. Such a fluorescent material cannot be copied by a laser color printer or a color copying machine, and therefore, whether or not there is a fluorescent material at a specific position of the banknote becomes an important criterion for determining the authenticity of the banknote.

In order to cover the authenticity of the bill, as shown in FIG. 2, the ultraviolet diode 3 is operated to scan a specific area of the bill to be discriminated by ultraviolet light. The irradiated ultraviolet rays are reflected from the banknote and then proceed through the lens 4 to the band pass filter 5.

If the fluorescent material is not included in a specific position of the bill, the ultraviolet light is simply reflected on the bill and the ultraviolet light is blocked by the band pass filter 5 and is not received by the light receiving element 6.

In case of pneumoconiosis in which a fluorescent material is contained at a specific position, fluorescence occurs in the part irradiated with the fluorescent material when ultraviolet light is reflected from the banknote. In other words, the wavelength of the ultraviolet light is changed to become visible light. This visible light passes through the band pass filter 5 and is received by the light receiving element 6, and the light receiving element 6 generates a specific signal to analyze the output generated at this time to discriminate whether or not the test body is abolished.

In the case of the differentiation unit of the present invention, it is possible to recognize the fluorescent material pattern of 1mm × 1mm or more included in the banknote, it is possible to recognize the fluorescent pattern printed in a narrow area unlike the existing counterfeit bill discrimination unit.

7A to 7B show the results of testing the full circle through the differentiation unit of the present invention, FIG. 7B is a graph showing the output waveform during the full circle scan, and FIGS. 8A to 8B show the one hundred thousand circle through the differentiation unit of the present invention. 8B is a graph showing an output waveform during a 100,000-won scan.

As such, the differentiation unit of the present invention has the advantage of being able to recognize the fluorescent material pattern printed in the narrow area to discriminate the counterfeit money very finely.

1 is a perspective view showing a differentiation unit of the present invention,

2 is a view for explaining the optical path of the differentiation unit of the present invention;

3 is a view for explaining how to use the differentiation unit of the present invention,

4 is a graph showing the specification of the band pass filter of the present invention;

5 is an internal circuit diagram of a light receiving element of the present invention;

6 is a graph showing the spectral sensitivity characteristics of the light receiving device of the present invention;

7a to 7b are graphs showing the results of testing the full circle through the differentiation unit of the present invention;

8a to 8b is a graph showing the results of testing the 100,000 won through the differentiation unit of the present invention.

<Explanation of symbols for main parts of the drawings>

1 cover 2 housing

3: ultraviolet diode 4: lens

5 band pass filter 6 light receiving element

Claims (10)

Some type of housing; An ultraviolet diode mounted on a predetermined portion of the housing to irradiate ultraviolet rays to the test body; A lens mounted to the housing to condense the fluorescent or ultraviolet rays reflected from the inspector; A band pass filter mounted on the housing to block ultraviolet rays reflected from the inspector and to transmit light having a specific wavelength changed by the fluorescent material; Counterfeit bill discrimination unit comprising a light receiving element for receiving the light through the band pass filter. The method of claim 1, The light-receiving device is a counterfeit bill discrimination unit, characterized in that the integrated circuit for converting the detected optical signal into an analog voltage without a separate amplification circuit. The method of claim 1, The counterfeit bill discrimination unit, which is mounted on the housing, is further connected to the light receiving element and transmits a signal to a counter circuit. The counterfeit bill discrimination unit according to claim 1 or 2, wherein the ultraviolet diode has a directivity angle of 5 to 30 degrees. The counterfeit bill discrimination unit according to claim 1 or 2, wherein the FOV of the lens is about 1 mm 2. The counterfeit money discrimination unit according to claim 1 or 2, wherein the band pass filter passes visible light of 420 nm to 640 nm. After emitting light to the banknote, the fluorescence generated from the banknote is magnified with a lens to recognize the pattern of fluorescence to detect forgery. 8. The method of claim 7, wherein the bill is a moving bill. The method according to claim 7 or 8, wherein the light source of the light emitted to the banknote is an ultraviolet diode having a directivity angle of 5-30 degrees. The method of claim 7 or 8, wherein the lens has an FOV of about 1 mm 2.

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