JP4596594B2 - Fluorescent thread detection device for paper sheets - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a fluorescent thread detecting device for paper sheets that detects a fluorescent thread for security provided on paper sheets such as banknotes, slips, and securities.
[0002]
[Prior art]
As a conventional paper sheet thread detection device, for example, there is JP-T-10-511784. The paper thread detecting device described in this publication reads a thread for security such as that used for banknotes and other securities. This thread is a metallic magnetic thread coded such that each segment exhibits a digital value, and is configured to be read by a magnetic head.
[0003]
[Problems to be solved by the invention]
However, the above-described conventional thread detection apparatus focuses on the magnetic property of the thread and is intended for reading the encoded magnetism, and does not focus on the fluorescence of the thread. In addition, as a method for identifying the presence or absence of a thread, it is conceivable to perform image recognition using a CCD camera. However, an apparatus that realizes this method is expensive, and the fluorescent component contained in the thread is discriminated. In order to achieve this, there is a problem that it is necessary to perform complicated image processing.
[0004]
An object of the present invention is to provide a fluorescent thread detecting device for paper sheets that can reliably detect a fluorescent thread for security.
[0005]
[Means for Solving the Problems]
The present invention relates to a fluorescent sheet detecting device for a paper sheet that detects a fluorescent thread for security provided on a paper sheet, a light emitting unit that irradiates ultraviolet light toward the fluorescent thread of the paper sheet, A light receiving unit that receives fluorescence emitted from the fluorescent thread by irradiation and outputs a signal corresponding to the fluorescence level, an output value of the light receiving unit, and a value greater than a value corresponding to the level of light emitted from the white portion of the paper sheet A determination unit that compares the threshold value of 1 and determines whether or not the fluorescent thread is present on the paper sheet, and the determination unit is configured to transfer the paper sheet toward the ultraviolet irradiation position. A position detection means for detecting the position of the paper sheet, and an input means for selecting and inputting one of a plurality of types of paper sheets having different predetermined thread printing positions. Based on information The selected thread print position of the paper sheet by the force means, characterized in that determining whether there there is fluorescent thread.
[0006]
In the present invention, when the output value of the light receiving unit is larger than the first threshold value, it is determined that the paper has a fluorescent thread for security, and the output value of the light receiving unit is the first value. When it is smaller than the threshold value, it is determined that there is no fluorescent thread for security on the paper sheet. Here, the level of light emitted from the white portion of the paper sheet is higher than the level of light emitted from the colored portion (printed portion). Therefore, by detecting the fluorescent thread for security with reference to the first threshold value larger than the value corresponding to the level of light emitted from the white part as described above, the fluorescent thread and the colored part are separated. It can be clearly distinguished. Thereby, the presence or absence of the fluorescent thread can be reliably determined.
In addition, even if a fluorescent material having a fluorescent level equivalent to the fluorescent thread for security is provided on the paper sheet, such a fluorescent material is provided on a portion other than the thread printing position of the paper sheet. Is determined not to be a fluorescent thread. Thereby, the presence or absence of the fluorescent thread can be more accurately determined. Further, even if the thread printing position is different for each type of paper sheet, the presence or absence of the fluorescent thread can be reliably detected.
[0007]
Preferably, the determination unit further compares the output value of the light receiving unit with a second threshold value greater than the first threshold value, and the output value of the light receiving unit is equal to the first threshold value and the second threshold value. If the output value of the light receiving unit is larger than the second threshold value, the sheet other than the fluorescent thread is determined. When the output value of the light receiving element is smaller than the first threshold value, it is determined that there is no fluorescent thread in the paper sheet. In this case, it is also detected whether or not a fluorescent material (for example, fluorescent ink or fluorescent pen) having a higher fluorescence level than the fluorescent thread for security is provided on the paper sheet, so that the presence or absence of the fluorescent thread is more accurately determined. it can.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, a preferred embodiment of a fluorescent thread detecting device for paper sheets according to the present invention will be described in detail with reference to the drawings.
[0011]
FIG. 1 is an enlarged cross-sectional view showing a main part of a paper sheet inspection apparatus having an embodiment of a fluorescent thread detection device according to the present invention. The paper sheet inspection device 1 is a banknote 2 (see FIG. 2) such as a US dollar banknote or a black country peso banknote. On such a bill 2, a fluorescent thread S for security having a width of about 2 mm is printed. The fluorescent thread S is formed as a metal thin film, and contains a substance that emits fluorescence. Further, the printing position and fluorescent color of the fluorescent thread S are different for each denomination of the banknote 2.
[0012]
The paper sheet inspection apparatus 1 for inspecting such a bill 2 has a linear conveyance path 5 formed so as to be sandwiched between upper and lower guide plates 3 and 4. In the middle of the transport path 5, transport rollers 6 and 7 are arranged, and the banknotes 2 are reliably transported toward the discharge side by the transport rollers 6 and 7. A bill recognition device (not shown) for identifying the denomination is disposed in the middle of the transport path 5.
[0013]
Although not shown, the inside of the bill recognition device has a structure in which the surface of the bill 2 is illuminated by a light source such as an LED and the reflected light from the bill 2 is captured by a CCD camera. And the image imaged with this camera and the known image data are collated, The denomination of the banknote 2 is discriminate | determined. However, in recent years, due to the high accuracy of color copying, it is difficult to determine the authenticity of the banknote 2 only by image recognition.
[0014]
Therefore, the paper sheet inspection apparatus 1 includes a fluorescent thread detection device 10. The fluorescent thread detection device 10 includes a housing 11, and a light emitting element 12 such as an ultraviolet LED that irradiates ultraviolet rays (light having a wavelength of 300 to 400 nm) toward the conveyance path 5 of the bill 2. Contained. A dust-proof glass plate 14 made of quartz glass or the like with extremely high ultraviolet transmittance is provided on the lower surface of the housing 11. An ultraviolet transmissive filter 15 is disposed between the dust-proof glass plate 14 and the ultraviolet LED 12, and light emitted from the ultraviolet LED 12 passes through the ultraviolet transmissive filter 15 and is applied to the fluorescent thread S of the banknote 2.
[0015]
In the space A formed by the light shielding wall P of the housing 11, a light receiving element 16 such as a photosensor that receives fluorescence excited from the fluorescent thread S by irradiation of ultraviolet rays is accommodated. The light receiving element 16 outputs an electrical signal (current signal) corresponding to the level of fluorescence emitted from the fluorescent thread S.
[0016]
An infrared cut filter 17 is disposed between the dust-proof glass plate 14 and the light receiving element 16. The infrared cut filter 17 is a filter that cuts, for example, light components having a wavelength of about 650 nm or more from the fluorescence excited from the fluorescent thread S.
[0017]
A condensing lens 18 made of a plastic lot lens or the like is disposed between the dust-proof glass plate 14 and the infrared cut filter 17, and the condensing lens 18 collects and receives the fluorescence emitted from the fluorescent sled S. Lead to element 16. By narrowing down the fluorescence by such a condensing lens 18, only the fluorescence excited by the fluorescent thread S can surely enter the light receiving element 16 even if there is a flicker of the banknote 2.
[0018]
The condensing lens 18 has a long-wavelength transmission filter function that transmits light in a predetermined fluorescent wavelength band including the fluorescent wavelength peak of the fluorescent sled S among the light incident on the light receiving element 16. And, by the cooperation of the condensing lens 18 with the long wavelength transmission filter function and the infrared cut filter 17, only the fluorescence wavelength peak of the fluorescence thread having the smallest fluorescence amount among the fluorescence wavelength peaks of the plurality of types of fluorescence threads. A fluorescence transmission wavelength band including is formed. For example, in the banknote 2 as shown in FIG. 2, when the red, yellow-green, and blue fluorescent threads S are provided for each denomination, only the fluorescent wavelength peak of the red fluorescent thread with the smallest amount of fluorescence is provided. A fluorescence transmission wavelength band including is formed. Thereby, the fluorescent thread S of each color can be easily detected, and in particular, the red fluorescent thread S can be clearly distinguished.
[0019]
A printed circuit board 21 is provided on the upper surface of the housing 11, and the printed circuit board 21 is provided with an amplifier circuit 22 (see FIG. 3) that converts the output current from the light receiving element 16 into a voltage and amplifies it. . An external connection connector 23 is provided on the upper surface of the printed circuit board 21, and an output signal of the amplifier circuit 22 is sent to the discriminator 30 as shown in FIG. 3 through the external connection connector 23. The discriminator 30 detects the authenticity and denomination of the banknote 2 by detecting the presence or absence of the fluorescent thread S.
[0020]
The discriminator 30 has comparators 31 and 32 as shown in FIG. The comparator 31 compares the output voltage Va of the amplifier circuit 22 with the first threshold value (reference voltage) R ₁ set by the first threshold value setting unit 33. When the output voltage Va of the amplifier circuit 22 is smaller than the first threshold value R ₁ , an OFF signal (L level) is output, and the output voltage Va of the amplifier circuit 22 is lower than the first threshold value R ₁ . On the other hand, an ON signal (H level) is output. The comparator 32 compares the output voltage Va of the amplifier circuit 22 with the second threshold value (reference voltage) R ₂ set by the second threshold value setting unit 34. When the output voltage Va of the amplifier circuit 22 is smaller than the second threshold value R ₂ , an OFF signal (L level) is output, and the output voltage Va of the amplifier circuit 22 is higher than the second threshold value R ₂ . On the other hand, an ON signal (H level) is output.
[0021]
Here, as shown in FIG. 4, the level of light emitted from the white portion (the portion without the printing ink shown in FIG. 2) W of the banknote 2 is the colored portion (the portion where the printing ink shown in FIG. 2 is placed) C. Higher than the light level emitted from. The fluorescent level of the fluorescent thread S for security is higher than the fluorescent level of the white portion W. Therefore, the first threshold value R ₁ is a predetermined value between the voltage value corresponding to the fluorescence level of the fluorescence thread S and the voltage value corresponding to the fluorescence level of the white portion. Thereby, the fluorescent thread S and the colored portion C can be clearly distinguished. Further, the fluorescence level of the fluorescent thread S is lower than that of fluorescent ink or fluorescent pen, which is a fluorescent substance other than the fluorescent thread S. Therefore, the second threshold value R ₂ is a predetermined value between the voltage value corresponding to the fluorescence level of the fluorescence thread S and the voltage value corresponding to the fluorescence level of the fluorescent ink or the like. This also makes it possible to distinguish between the fluorescent thread S and the fluorescent ink.
[0022]
The output signal Vb of the comparator 31 is input to one input portion of the two-input type AND circuit 35 and the detection gate generation circuit 36, and the output signal Vc of the comparator 32 is input to one input portion of the two-input type AND circuit 37 and the detection. Input to the gate generation circuit 36. Signals from the bill type input switch 38 and the position sensor 39 are input to the detection gate generation circuit 36 together with the signals from the comparators 31 and 32. The bill type input switch 38 is used to selectively input a denomination to be inspected from among a plurality of types of bills 2. The position sensor 39 detects whether the leading edge of the banknote 2 has passed a predetermined position on the transport path 5.
[0023]
The detection gate generating circuit 36 inputs the output signals Vb and Vc of the comparators 31 and 32 corresponding to the thread printing position of the banknote 2 based on the position information from the position sensor 39, and there is a fluorescent thread S at the thread printing position. Determine whether or not. Specifically, whether the ON signals (trigger signals) are output from the comparators 31 and 32 during the trigger detection valid period T (see FIGS. 5 to 8) set in advance according to the thread printing position of the banknote 2. Determine if. Here, since the thread printing position of the banknote 2 is different for each denomination, the trigger detection effective period T is also different for each denomination. Therefore, the type of the bill 2 is selected by the bill type input switch 38, and it is determined whether or not a trigger signal is input during the trigger detection valid period T corresponding to the bill 2 of the denomination. When a trigger signal is input, an L level pulse signal is output to the other input section of the AND circuit 35 during the trigger detection valid period T. When no trigger signal is input during the thread printing position T, an ON signal is forcibly output to one input portion of the 3-input OR circuit 40 after the trigger detection valid period T has elapsed. Further, an ON signal is always output to the other input part of the AND circuit 37.
[0024]
When the first threshold value R ₁ and the second threshold value R ₂ are different for each denomination of the banknote 2, the detection gate generation circuit 36 responds to the input information of the banknote type input switch 38. The first threshold value setting unit 33 and the second threshold value setting unit 34 are controlled so that the first threshold value R ₁ and the second threshold value R ₂ are set. Also good.
[0025]
The AND circuit 35 operates in response to the output signal Vd of the detection gate generation circuit 36 and the output signal Vb of the comparator 31, and the output signal Ve of the detection gate generation circuit 36 and the output signal Vc of the comparator 32. In response to this, the AND circuit 37 operates. The output signals Vf and Vg of the AND circuits 35 and 37 and the output signal Vh of the detection gate generation circuit 36 are input to the other two input parts of the OR circuit 40, respectively, and are supplied to these signals Vf, Vg and Vh. Accordingly, the OR circuit 40 operates.
[0026]
The output signal Vi of the OR circuit 40 is input to a detection circuit 41 configured by a flip-flop or the like, and the detection circuit 41 determines whether the signal Vj corresponding to the output signal Vi of the OR circuit 40 is present, that is, whether or not the fluorescent thread S is present. The bill 2 is output as a true / false result in synchronization with the clock signal. Specifically, when the OFF signal is output from the OR circuit 40, the fluorescent signal S is present at the thread printing position, and therefore the OFF signal is output assuming that the banknote 2 is a genuine note. On the other hand, when the ON signal is output from the OR circuit 40, since there is no fluorescent thread S at the thread printing position, the ON signal is output assuming that the bill 2 is a fake note, and the indicator 42 such as an LED is turned on and an alarm is issued. Generate sound. The detection circuit 41 is connected to a reset button 43 for resetting the output ON signal.
[0027]
Such a discriminator 30 can be configured with a simple logic circuit that does not use a CPU or the like. In this case, the authenticity of the banknote 2 can be easily determined, and the cost can be reduced.
[0028]
The operation of discriminating the presence or absence of the fluorescent thread S in the discriminator 30 configured as described above will be specifically described with reference to timing charts shown in FIGS.
[0029]
FIG. 5 shows a case where the fluorescent thread S is provided at the thread printing position of the banknote 2. In this case, the output value Va of the amplifier circuit 22 has a peak value higher than the first threshold value R _{1 and} lower than the second threshold value R _2. The signal Vb is at the H level (ON). Since this ON signal (trigger signal) is standing within the trigger detection effective period T corresponding to the thread printing position of the banknote 2, the output signal Vd of the gate control circuit 36 is within the trigger detection effective period T, and the trigger signal It becomes L level in synchronization with the rise of. Along with this, the output signal Vf of the AND circuit 35 becomes L level. Since the output signal Vc of the comparator 32 is at L level, the output signal Vg of the AND circuit 37 is at L level. Further, since the trigger signal is detected within the trigger detection valid period T, the output signal Vh of the gate control circuit 36 remains at the L level. For this reason, the output signal Vi of the OR circuit 40 becomes L level, and accordingly, the output signal Vj of the detection circuit 41 remains at L level. Thereby, it is determined with certainty that the fluorescent thread S is present at the thread printing position of the banknote 2, and the banknote 2 is identified as a genuine note.
[0030]
FIG. 6 shows a case where the fluorescent thread S is not provided on the banknote 2. In this case, since the output value Va of the amplifier circuit 22 is generally lower than the first threshold value R ₁ , the output signal Vb of the comparator 31 and the output signal Vc of the comparator 32 are always at the L level. . For this reason, the output signal Vf of the AND circuit 35 and the output signal Vg of the AND circuit 37 are always at the L level. Further, since the trigger signal is not detected within the trigger detection valid period T, the output signal Vh of the gate control circuit 36 becomes H level after the trigger detection valid period T has elapsed. For this reason, the output signal Vi of the OR circuit 40 is set at the H level, and accordingly, the output signal Vj of the detection circuit 41 is set at the H level. Thereby, the banknote 2 is identified as a fake ticket.
[0031]
FIG. 7 shows a case where fluorescent ink is provided as a fluorescent substance other than the fluorescent thread S at the thread printing position of the banknote 2. In this case, since the output value Va of the amplifier circuit 22 has a peak value higher than the second threshold value R ₂ , not only the output signal Vb of the comparator 31 but also the output signal Vc of the comparator 32. In addition, H level stands. Since the output signal Ve from the gate control circuit 36 is always at the H level, the output signal Vg from the AND circuit 37 is at the H level. For this reason, the output signal Vi of the OR circuit 40 also becomes H level, and accordingly, the output signal Vj of the detection circuit 41 becomes H level. Thereby, it is discriminate | determined that the banknote 2 is a fake ticket.
[0032]
FIG. 8 shows a case where a fluorescent material having the same level as that of the fluorescent thread S is provided in a portion other than the thread printing position of the banknote 2. In this case, the output value Va of the amplifier circuit 22 has a peak value higher than the first threshold value R _{1 and} lower than the second threshold value R _2. The signal Vb is at the H level (ON). However, since one of the ON signals (trigger signals) does not exist within the trigger detection valid period T corresponding to the thread print position, the output signal Vf of the AND circuit 35 has an H level corresponding to the trigger signal. stand. For this reason, the output signal Vi of the OR circuit 40 rises to the H level, and accordingly, the output signal Vj of the detection circuit 41 becomes the H level. Thereby, the banknote 2 is identified as a fake ticket.
[0033]
As described above, in the discriminator 30, there is no fluorescent thread S for security on the banknote 2, there is a fluorescent substance other than the fluorescent thread S such as fluorescent ink or fluorescent pen on the banknote 2, other than the thread printing position of the banknote 2. In these cases, it is determined that the bill 2 is a fake note. Therefore, the presence / absence determination of the fluorescent thread S, that is, the authenticity determination of the banknote 2 can be accurately performed.
[0034]
The present invention is not limited to the embodiment described above. For example, paper sheets applied to the present invention are not limited to banknotes, and may be slips or securities.
[0035]
In the above-described embodiment, the fluorescent thread S is irradiated with ultraviolet rays and the reflected light is received by the light receiving element. However, the present invention is also applicable to the case where the transmitted light is received.
[0036]
【The invention's effect】
According to the present invention, the output value of the light receiving unit is compared with a first threshold value that is larger than the value corresponding to the level of light emitted from the white portion of the paper sheet, and the paper sheet has a fluorescent thread. Therefore, it is possible to reliably detect the fluorescent thread for security.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing an embodiment of a fluorescent thread detection device according to the present invention.
FIG. 2 is a diagram showing a typical banknote as a representative.
FIG. 3 is a configuration diagram showing a discriminator of the fluorescent thread detection device shown in FIG. 1;
FIG. 4 is a diagram showing an example of the level of light emitted from a banknote.
FIG. 5 is a timing chart showing the operation of each unit when a discriminator discriminates a bill when there is a fluorescent thread at the bill thread printing position.
FIG. 6 is a timing chart showing the operation of each part when a banknote is discriminated by a discriminator when there is no fluorescent thread on the banknote.
FIG. 7 is a timing chart showing the operation of each part when the banknote is discriminated by the discriminator when the banknote has a fluorescent material other than the fluorescent thread.
FIG. 8 is a timing chart showing the operation of each part when discriminating a bill by a discriminator when there is a fluorescent substance in a portion other than the thread printing position of the bill.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 2 ... Banknote (paper sheets), 10 ... Fluorescence thread detection apparatus, 12 ... Light emitting element (light emission part), 16 ... Light receiving element (light receiving part), 22 ... Amplifier circuit (light receiving part), 30 ... Discriminator (determination means) , 31, 32... Comparator, 36... Detection gate generation circuit, 38... Bill type input switch (input means), 39 .. position sensor (position detection means) S.

Claims (2)

A fluorescent thread detection device for a paper sheet that detects a fluorescent thread for security provided on a paper sheet,
A light emitting unit for irradiating ultraviolet rays toward the fluorescent thread of the paper sheet;
A light receiving unit that receives fluorescence emitted from the fluorescent thread by irradiation of the ultraviolet light, and outputs a signal corresponding to the fluorescence level;
The output value of the light receiving unit is compared with a first threshold value that is larger than the value corresponding to the level of light emitted from the white portion of the paper sheet, and the paper sheet has the fluorescent thread or not. or a determination means for determining,
The determination unit includes a position detection unit that detects a position of the paper sheet when the paper sheet is conveyed toward the ultraviolet irradiation position, and a plurality of types of thread printing positions that are different from each other. Input means for selecting and inputting one of the paper sheets, and the fluorescent thread is at the thread printing position of the paper sheet selected by the input means based on the position information from the position detecting means A fluorescent thread detecting device for paper sheets, characterized by determining whether or not there is . The determination unit further compares the output value of the light receiving unit with a second threshold value greater than the first threshold value, and the output value of the light receiving unit is compared with the first threshold value. When it is between the second threshold value, the paper sheet is determined to have the fluorescent thread, and when the output value of the light receiving unit is larger than the second threshold value, It is determined that there is a fluorescent substance other than the fluorescent thread on the paper sheet, and it is determined that the fluorescent thread is not present on the paper sheet when the output value of the light receiving element is smaller than the first threshold value. The fluorescent thread detection device for paper sheets according to claim 1 .

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