KR20060117207A - Paper money discriminating device - Google Patents

Abstract

A paper money discriminating device is provided to use only one set of a light emitting diode and photo transistor, thereby reducing the size and cost of the paper money discriminating device. A paper money discriminating device includes a paper money inlet port(21), a passage(23) for carrying a paper money, a carriage unit(24) carrying the paper money, a light emitting diode(25) installed on the passage, a light receiving element installed under the passage, and a discriminating unit(30) discriminating the paper money based on a signal output from the light receiving element. The light emitting diode irradiates light of wavelength which transmits the paper money and excites a phosphor mark of the paper money.

Description

Banknote Identification Device {PAPER MONEY DISCRIMINATING DEVICE}

1 is a block diagram of a banknote identification device of the present invention.

2 is a view showing the surface of a banknote.

3 is a characteristic curve of the light transmittance of a banknote.

4 is a block diagram of a conventional banknote identification device.

<Explanation of symbols for the main parts of the drawings>

20: banknote 21: insertion hole

23: passage 24: conveying device

25 light emitting diode 26 photo transistor

30: identification unit

This invention relates to the banknote identification apparatus which identifies the banknote which has a fluorescent display in one surface.

4 is a block diagram of a conventional banknote identification device for identifying banknotes having fluorescent marks on one surface (hereinafter referred to as surface). The banknote 2 inserted in the insertion slot 1 is conveyed along the path 3 by the conveying apparatus 4.

The light emitting diode 5 emits ultraviolet rays to the banknote 2 from above the passage 3, and the phototransistor 6 receives the reflection. The light emitting diode 7 emits ultraviolet rays to the banknote 2 from below the passage 3, and the phototransistor 8 receives the reflection.

When the surface of the banknote 2 is upward, the fluorescent display is excited by the ultraviolet rays from the light emitting diodes 5 to emit light, and the phototransistor 6 detects the fluorescent display.

When the surface of the banknote 2 is downward, the fluorescent display is excited by the ultraviolet rays from the light emitting diode 7 to emit light, and the phototransistor 8 detects the fluorescent display.

The control unit 15 is connected to the light emitting diodes 5, 7. Moreover, the control part 15 controls the conveying apparatus 4 via the drive part 17. FIG.

The outputs of the phototransistors 6 and 8 are connected to the identification section 12 via the linear amplifier 9, the logarithmic amplifier 10 and the A / D converter 11. The identification part 12 compares the output of the A / D converter 11 with the reference data stored in the memory 13, and identifies the authenticity and the kind of money of a banknote. The terminal 14 outputs the identification result.

However, since the conventional banknote identification device uses two sets of light emitting diodes and phototransistors, there is a problem that miniaturization and low cost are difficult.

Moreover, Japanese Patent Application Laid-open No. Hei 10-3561 is known as a prior art which concerns on this invention.

The banknote identification apparatus of this invention is a banknote identification apparatus which identifies the banknote which has a fluorescent display in one surface, Comprising: The insertion opening of a banknote, the path | route which conveys a banknote, the conveying apparatus which conveys a banknote, and the upper side of a channel | path is provided It includes a light emitting diode, a light receiving element provided below the passage, and an identification unit that performs banknote identification based on a signal output from the light receiving element.

Here, the fluorescent display is excited by the violet light emitted from the light emitting diode to emit yellow light 5. Both purple and yellow light can penetrate banknotes. The phototransistor detects yellow light and outputs a signal. The identification part identifies the authenticity of a banknote based on the signal output by a photo transistor.

Since the banknote identification device of the present invention uses only one set of light emitting diodes and phototransistors, it is compact and inexpensive.

1 is a block diagram of a banknote identification device of the present invention. 2 shows the surface of the banknote 20. The banknote 20 has a fluorescent display 16 on its surface.

In FIG. 1, the insertion opening 21 of the banknote 20 leads to the passage 23. The conveying apparatus 24 has a pulley and a timing belt.

A light emitting diode 25 emitting violet light is provided above the passage 23. The phototransistor 26 as a light receiving element is provided below the passage 23 facing the light emitting diode 25. The banknote 20 travels between the light emitting diode 25 and the photo transistor 26.

The output of the photo transistor 26 is connected to the identification part 30 via the linear amplifier 27, the logarithmic amplifier 28, and the A / D converter 29. As shown in FIG.

The logarithmic amplifier 28 amplifies the small signal input with a large amplification, amplifies the large signal input with a small amplification, and outputs an appropriate signal close to the human sense.

The memory 32 that stores the reference data of the banknote 20 is connected to the identification unit 30. Although not shown, the identification unit 30 includes a comparator for comparing the output of the A / D converter 29 and the reference data of the bill 20, and a discriminator to which the output of the comparator is connected. The output of the discriminator is connected to the output terminal 31.

The control part 33 controls the drive device 34 which drives the conveying apparatus 24. The control unit 33 also controls the lighting of the light emitting diodes 25.

The operation | movement of the banknote identification apparatus comprised as mentioned above is demonstrated below. The banknote 20 inserted into the insertion port 21 is conveyed along the path 23 by the conveying apparatus 24. The drive device 34 drives the conveying device 24 at a speed such that a bill is identified once every second.

When the surface of the banknote 20 is upward, the violet light emitted from the light emitting diodes 25 excites the fluorescent display 16, and the fluorescent display 16 emits yellow light. The phototransistor 26 detects yellow light passing through the banknote 20.

When the surface of the banknote 20 is downward, the violet light emitted by the light emitting diodes 25 passes through the banknote 20 to excite the fluorescent display 16. The fluorescent display 16 emits yellow light, and the photo transistor 26 detects yellow light.

In either case, the yellow light is converted into an electrical signal by the photo transistor 26 and input to the identification unit 30 through the linear amplifier 27, the logarithmic amplifier 28, and the A / D converter 29.

The identification part 30 compares the input signal with the reference data stored in the memory 32, and determines whether or not the comparison value is within a predetermined determination criterion. In this way, the identification unit 30 identifies the authenticity and the gold type of the inserted banknote 20. The output terminal 31 outputs the identification result.

3 shows a characteristic curve 43 of the light transmittance of the banknote 20.

Point 44 represents ultraviolet light (375 nm), and the light transmittance is very small at about 1%, so that the ultraviolet light is almost blocked by the banknote 20. Therefore, as described in the section of the background art, the conventional banknote identification device using ultraviolet rays uses two sets of light emitting diodes and phototransistors so that the surface of the banknote 20 can be upward or downward.

The point 45 shows purple light (390-420 nm), and the light transmittance is about 4%. In addition, although not shown, the light transmittance of yellow light is about 10%.

Since the banknote identification device of the present invention uses the purple light that passes through the banknote 20, as described above, either the light emitting diode 25 and the photo transistor (whether the surface of the banknote 20 is upward or downward) 26, the fluorescent display of the banknote 20 can be detected. In addition, it is light of wavelength below purple light (390-420 nm) which can excite fluorescent display.

However, since the light transmittance (4%) of the violet light and the light transmittance (10%) of the yellow light are different, when the identification unit 30 identifies the authenticity and the gold type of the banknote 20, the surface of the banknote 20 is upward. Different criteria are used for the case of and the case of downward. Whether the surface of the banknote 20 is upward or downward is determined based on the characteristic data of the banknote 2.

The violet light is a small signal because the light transmittance is 4%, but the logarithmic amplifier 28 efficiently amplifies the signal of the violet light.

Points 46, 47, and 48 represent blue light (450-480 nm), red light (630-660 nm), and infrared light (910-970 nm), respectively. When the violet light emitting diode, the red light emitting diode, and the infrared light emitting diode are used together, other characteristic information of the banknote can be detected, so that more accurate banknote identification is possible.

In addition, since the violet light (390-420 nm) which the light emitting diode 25 emits is visible light (between 380 nm and 810 nm), whether the light emitting diode 25 is normal can be visually discriminated. Therefore, maintenance of the apparatus becomes easy.

As described above, the present invention can provide a small-sized, low-cost banknote identification device using only one set of light emitting diodes and phototransistors. The banknote identification apparatus of this invention is used, for example in a vending machine.

Claims (4)

As a banknote identification device for identifying banknotes having fluorescent marks on one side: A slot for inserting banknotes; A passage for conveying the banknote; A conveying apparatus for conveying the banknote; A light emitting diode provided above the passage; A light receiving element disposed below the passage; An identification unit for banknote identification based on a signal output from the light receiving element; The light emitting diode is a banknote identification device that transmits light of a wavelength that transmits the banknote and excites a fluorescent display of the banknote. The device of claim 1, wherein the light emitting diode emits violet light. The banknote identification device according to claim 2, further comprising a light emitting diode emitting red light and a light emitting diode emitting infrared light. The banknote identification device according to claim 1, wherein a logarithmic amplifier is inserted between the light receiving element and the identification unit.

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