JP2002157627A - Fluorescent thread detecting device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a fluorescent thread detecting device which can extract a fluorescent thread with simple constitution. SOLUTION: The fluorescent thread detecting device 8 has a housing 9, which contains an ultraviolet-ray LED 11 irradiating a paper money 2 with ultraviolet rays. In the housing 9, a photodiode 14 which receives fluorescent light excited by the fluorescent thread S by the irradiation with the ultraviolet rays and a photodiode 17 which receives reflected light of the ultraviolet rays are stored. The output signals of those photodiodes 14 and 17 are amplified by operational amplifiers 19 and 20 respectively and inputted to an operational amplifier 21, which amplifies the difference between the output signals of the operational amplifiers 19 and 20. Consequently, only components of the fluorescent thread S are sharply extracted.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fluorescent thread detecting apparatus for detecting a fluorescent thread for security provided on paper sheets such as bills, slips, and securities.

[0002]

2. Description of the Related Art As a conventional thread detecting apparatus for paper sheets, there is, for example, JP-A-10-511784. The thread detection device described in this publication reads a security thread used for banknotes and other securities. This thread is a metal magnetic thread in which each segment is coded so as to indicate a digital value, and the magnetic thread is configured to be read by a magnetic head.

[0003]

However, the above-described thread detection device is a device which focuses on the magnetic property of the thread and reads the coded magnetism, and does not focus on the fluorescent property of the thread. Absent. As a method for identifying the presence or absence of a thread, image recognition using a CCD camera may be considered. However, an apparatus for realizing this method is expensive, and furthermore, the fluorescent component contained in the thread is determined. For this purpose, there is a problem that complicated image processing must be performed.

An object of the present invention is to provide a fluorescent thread detecting device capable of extracting a fluorescent thread with a simple configuration.

[0005]

SUMMARY OF THE INVENTION The present invention relates to a fluorescent thread detecting device for detecting a fluorescent thread provided on a paper sheet, comprising: a first light source section for irradiating the paper sheet with ultraviolet light; A second light source unit for irradiating light used for extraction, a first optical sensor unit for detecting fluorescence emitted from the fluorescent thread by irradiation of ultraviolet rays, a second optical sensor unit for detecting light used for extracting the fluorescent thread, A signal amplifying means for calculating a difference between the output signal of the first optical sensor unit and the output signal of the second optical sensor unit, and amplifying and outputting the difference signal.

In such a fluorescent thread detecting device, when ultraviolet rays are irradiated on the paper sheet from the first light source unit, the fluorescent light is excited from the fluorescent thread of the paper sheet. Then, the fluorescence is detected by the first optical sensor unit, and a predetermined process is performed based on the detection signal, whereby a fluorescence thread can be extracted. However, the actual fluorescent output from the paper sheet includes not only the fluorescent component of the fluorescent thread but also the fluorescent component of the paper itself and the reflection component of the paper. Further, the fluorescence output fluctuates due to a change in the light amount of the first light source unit, a change in temperature characteristics, a change in paper quality, and the like. Therefore, the processing for extracting the fluorescent thread must be complicated. Therefore,
By providing the second light source unit, the second optical sensor unit, and the signal amplifying unit as described above, and by taking the difference between the output signal of the first optical sensor unit and the output signal of the second optical sensor unit, paper sheets can be obtained. The level is set so that the level of the emitted fluorescent output corresponding to the fluorescent component other than the fluorescent light of the fluorescent thread is close to zero. In this case, only the fluorescent component of the fluorescent thread is clearly extracted from the fluorescent output, so that the subsequent process of extracting the fluorescent thread is simplified.

[0007] Preferably, the first light source unit also serves as a second light source unit, and the second optical sensor unit detects reflected light of ultraviolet light emitted from the first light source unit. As described above, by using the first light source unit and the second light source unit as one ultraviolet light source, the number of components can be reduced, and the cost can be reduced. In addition, since the reflection of the ultraviolet light has some influence on the fluorescent light output from the paper sheet, the portion of the output signal of the first optical sensor portion other than the fluorescent thread portion is similar to the output signal of the second optical sensor portion. Such a level variation characteristic is obtained. Therefore, by taking the difference between the output signal of the first optical sensor unit and the output signal of the second optical sensor unit, only the fluorescent component of the fluorescent thread can be more clearly extracted.

[0008] Preferably, the signal amplifying means comprises:
A first operational amplifier circuit that amplifies an output signal of the optical sensor unit, a second operational amplifier circuit that amplifies an output signal of the second optical sensor unit, and a difference between an output signal of the first operational amplifier circuit and an output signal of the second operational amplifier circuit. And at least one of the first and second operational amplifier circuits is provided with a variable resistor for adjusting the degree of amplification. This facilitates voltage adjustment of the difference between the output signal of the first operational amplifier circuit and the output signal of the second operational amplifier circuit.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of a fluorescent thread detecting device according to the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a view showing a sheet inspection apparatus having an embodiment of a fluorescent thread detecting device according to the present invention. In FIG. 1, a paper sheet inspection apparatus 1 detects a banknote 2 as shown in FIG. 2, specifically, a U.S. dollar banknote, a Indian country peso banknote, and the like. A fluorescent thread S for security having a width of about 2 mm is printed on such a bill 2. The fluorescent thread S contains a substance that emits fluorescence.

The paper sheet inspection apparatus 1 for inspecting such a bill 2 has a linear transport path 5 formed so as to be sandwiched between upper and lower guide plates 3 and 4. This transport path 5
Are transported in the middle of the paper money, and the transport rollers 6 and 7 reliably transport the banknote 2 toward the discharge side. A fluorescent thread detecting device 8 that detects the fluorescent thread S of the banknote 2 is disposed between the transport rollers 6 and 7. FIG. 3 shows the configuration of the fluorescent thread detecting device 8.

In FIG. 1, the fluorescent thread detecting device 8 has a housing 9, and a light shielding wall 10 extending in a vertical direction is provided in the housing 9.
Is formed. In the space A of the housing 9, an ultraviolet LED 11 that irradiates ultraviolet light toward the transport path 5 of the bill 2 is accommodated. A dustproof glass plate 12 made of quartz glass or the like having an extremely high ultraviolet transmittance is attached to the lower surface of the housing 9. Also, a dustproof glass plate 12 and an ultraviolet LED
11, an ultraviolet transmission filter 13 is disposed,
The ultraviolet transmission filter 13 is coupled to the housing 9 and the light shielding wall 10 so as to be located on the optical axis of the ultraviolet LED 11. Thereby, the ultraviolet light from the ultraviolet LED 11 passes through the ultraviolet transmission filter 13 and the dust-proof glass plate 12 and is applied to the fluorescent thread S of the bill 2.

In the space B of the housing 9, a photodiode 14 for receiving fluorescence excited by the fluorescent thread S by irradiation of ultraviolet rays is accommodated. An infrared cut filter 15 is arranged between the photodiode 14 and the dustproof glass plate 12.
Removes infrared components present in the light incident on the photodiode 14. A condenser lens 16 such as a cylindrical lens is disposed between the dust-proof glass plate 12 and the infrared cut filter 15.
Accordingly, the fluorescent light emitted from the fluorescent thread S is efficiently made incident on the photodiode 14. Also, the condenser lens 1
Reference numeral 6 also has a function as an ultraviolet cut filter, and removes an ultraviolet component existing in light incident on the photodiode 14. This suppresses the ultraviolet rays reflected by the banknote 2 from entering the photodiode 14 as noise.

In the space A of the housing 9, ultraviolet rays LE
A photodiode 17 that receives the reflected light of the ultraviolet light emitted from D11 is housed. The photodiode 17 is a photo sensor for monitoring the output power (light amount) of the ultraviolet LED 11 by detecting a reflection component of the ultraviolet light. The photodiode 17 is provided to enable appropriate monitoring of the light amount of the ultraviolet LED 11.
It is arranged in a portion that is not affected by regular reflection from the banknote 2, that is, a portion where only the diffuse reflection (irregular reflection) component is incident.

A signal amplifying section 18 is provided on an upper portion of the housing 11, and the signal amplifying section 18
The difference between the 17 output signals is amplified. FIG. 4 shows a circuit configuration of such a signal amplifier 18.

In FIG. 1, the signal amplifying section 18 has operational amplifiers 19 and 20. The input terminal of the operational amplifier 19 is connected to the photodiode 14, and the operational amplifier 19
Is connected to the (-) input terminal of the operational amplifier 21 via the resistor R1. Also, the operational amplifier 1
The (−) input terminal and the output terminal of No. 9 are connected via a variable resistor VR1, and the gain (amplification degree) of the operational amplifier 19 is obtained.
Is adjustable. The input terminal of the operational amplifier 20 is connected to the photodiode 17, and the output terminal of the operational amplifier 20 is connected to the (+) input terminal of the operational amplifier 21 via the resistor R2. The (-) input terminal and the output terminal of the operational amplifier 20 are connected via a variable resistor VR2, so that the gain of the operational amplifier 20 can be adjusted. The (−) input terminal and the output terminal of the operational amplifier 21 are connected via a resistor R3. The operational amplifier 21
The connection point between the (+) input terminal and the resistor R2 is grounded via the resistor R4. Note that the variable resistor for gain adjustment may be provided in only one of the operational amplifiers 19 and 20.

When the fluorescent light emitted from the fluorescent thread S of the banknote 2 is incident on the photodiode 14 by the irradiation of the ultraviolet light from the ultraviolet LED 11, the output level (voltage) of the operational amplifier 19 becomes as shown in FIG. FIG. 5 (a)
In the middle, the Q portion indicates the level of the fluorescent component emitted from the entire banknote 2, and the peak portion P of the level is the fluorescent thread S
5 shows the level of the fluorescent component excited from the. At this time, a reflected component of ultraviolet rays is incident on the photodiode 17, and the output level of the operational amplifier 20 at this time is as shown in FIG.
It becomes as shown in. In FIG. 5B, the R portion indicates the level of the component reflected by the bill 2. The operational amplifier 1
The output voltages 9 and 20 are adjusted by the variable resistors VR1 and VR2, respectively. The output signals of the operational amplifiers 19 and 20 are sent to the operational amplifier 21.
Then, each of the operational amplifiers 1 is
The difference between the output signals 9 and 20 is amplified and output. As a result, the output level of the operational amplifier 21 becomes as shown in FIG.

The output signal of such a signal amplifier 18 is
The bill is sent to the bill discriminating section 22 (see FIG. 3). The bill discriminating unit 22 performs a predetermined calculation process and extracts the presence or absence of the fluorescent thread S and the amount of fluorescence of the fluorescent thread S,
The authenticity determination and the denomination determination of the banknote 2 are performed.

Incidentally, the fluorescence output incident on the photodiode 14 contains a slight amount of ultraviolet light reflection components in addition to the pure fluorescence components. Therefore, as shown in FIG. 5, the output level fluctuation of the operational amplifier 19 has a tendency similar to the output level fluctuation of the operational amplifier 20 except for the fluorescent thread S.

Therefore, the variable resistors VR1 and VR2 provide
For example, as shown in FIG. 5, the gain is adjusted so that the maximum value of the output level of the operational amplifier 19 except for the peak portion P substantially matches the maximum value of the output level of the operational amplifier 20. In this case, the output level of the operational amplifier 21 becomes
As shown in FIG. 7, the value is close to 0 V except for the peak portion P. In this case, the output signal of the operational amplifier 21 is clearly extracted as a signal close to a digital signal. In other words, only the fluorescent component of the fluorescent thread S in the fluorescent output is output as a signal close to “H” and the other portions are output as signals close to “L”, so that the subsequent calculation processing in the bill discriminating unit 19 can be simplified.

Also, a photodiode 1 for monitoring the amount of light
Since the output signal of No. 7 is used as a signal for generating a difference for thread extraction, it is not necessary to separately provide a photodiode, and cost can be reduced.

The present invention is not limited to the above embodiment. For example, in the above-described embodiment, the difference between the output signal of the photodiode 14 and the output signal of the photodiode 17 that receives the reflected component of ultraviolet rays is calculated. Is not particularly limited to this, and any signal can be used as long as it is a light receiving signal of light having energy different from that of the fluorescence emitted from the banknote 2. For example, apart from the ultraviolet LED 11 and the photodiode 14 described above,
A light source that emits ultraviolet light or infrared light, and a light receiving element that receives light from the light source may be provided, and a difference between an output signal of the light receiving element and an output signal of the photodiode 14 may be obtained.

Although the above embodiment relates to the detection of a fluorescent thread provided on a banknote, the paper sheet applied to the present invention is not limited to a banknote.
It may be securities or the like.

[0024]

According to the present invention, the difference between the output signal of the first optical sensor unit for detecting the fluorescence emitted from the fluorescent thread and the output signal of the second optical sensor unit for detecting the light used for extracting the fluorescent thread is determined. Since the difference signal is amplified and output, the fluorescent thread can be extracted with a simple configuration.

[Brief description of the drawings]

FIG. 1 is a view schematically showing a paper sheet inspection device provided with an embodiment of a fluorescent thread detection device according to the present invention.

FIG. 2 is a view showing a banknote to be inspected by the paper sheet inspection apparatus shown in FIG. 1;

FIG. 3 is a sectional view of the fluorescent thread detecting device shown in FIG. 1;

FIG. 4 is a diagram illustrating a circuit configuration of a signal amplifying unit illustrated in FIG. 3;

FIG. 5 is a diagram illustrating an example of an input signal of a post-stage operational amplifier illustrated in FIG. 4;

FIG. 6 is a diagram illustrating an example of an output signal of a post-stage operational amplifier illustrated in FIG. 4;

[Explanation of symbols]

2: Banknotes (sheets), 8: Fluorescent thread detector, 11
... Ultraviolet LED (first light source unit, second light source unit), 14 ... photodiode (first optical sensor unit), 15 ... infrared cut filter (first optical sensor unit), 16 ... condenser lens (first optical sensor) Part), 17 ... photodiode (second optical sensor part), 18 ... signal amplifying part (signal amplifying means), 19 ... operational amplifier (first operational amplifier circuit), 20 ... operational amplifier (second operational amplifier circuit), 21 ... operational amplifier ( VR1 ... variable resistance (first operational amplifier circuit), VR2 ... variable resistance (second operational amplifier circuit), S ...
Fluorescent thread.

Claims (3)

[Claims] 1. A fluorescent thread detecting device for detecting a fluorescent thread provided on a sheet, comprising: a first light source unit for irradiating the sheet with ultraviolet light; and irradiating light used for extracting the fluorescent thread. A second light source unit, a first light sensor unit for detecting fluorescence emitted from the fluorescent thread by the irradiation of the ultraviolet light, a second light sensor unit for detecting light used for extracting the fluorescent thread, and the first light A fluorescent thread detecting device, comprising: a signal amplifying unit that calculates a difference between an output signal of a sensor unit and an output signal of the second optical sensor unit, and amplifies and outputs the difference signal. 2. The method according to claim 1, wherein the first light source unit also functions as the second light source unit, and the second optical sensor unit detects reflected light of the ultraviolet light emitted from the first light source unit. The fluorescent thread detecting device according to claim 1. 3. The signal amplification means includes: a first operational amplifier circuit for amplifying an output signal of the first optical sensor unit; a second operational amplifier circuit for amplifying an output signal of the second optical sensor unit; A third operational amplifier circuit for amplifying a difference between an output signal of the operational amplifier circuit and an output signal of the second operational amplifier circuit, wherein at least one of the first operational amplifier circuit and the second operational amplifier circuit has an amplification degree adjusted The fluorescent thread detecting device according to claim 1, further comprising a variable resistor for performing the operation.