KR200309383Y1 - Infrared Rays Fluorescent Light Viewer Using Laser - Google Patents

Abstract

The present invention is irradiated with a laser light source having an infrared wavelength band on various banknotes, securities, card products, gift certificates, various tickets, lottery to which infrared fluorescent material is applied, the fluorescence which can visually identify the luminescence state of the fluorescence by reflection. The present invention relates to a fluorometer, the fluoroscopy of the present invention is provided with a laser condenser for irradiating a laser light source having an infrared wavelength band by a condensing method, the laser condenser comprises a plurality of condenser lenses.

Such fluoroscopy is expected to have a significant effect in condensing a laser light source having an infrared wavelength band and irradiating the fluorescent element to accurately identify the fluorescent element by the amount of reflection.

Description

Infrared Rays Fluorescent Light Viewer Using Laser

The present invention relates to fluoroscopy for identifying the authenticity or authenticity of various banknotes, securities, and gift certificates, and more specifically, various banknotes, securities, card products, gift certificates, various admission tickets, By irradiating the laser light source with infrared wavelength to the circumference, the light emission state reflected by the fluorescent material can be visually identified, and the focus control composed of the lens, not the scattering method, is used to maximize the identification effect of the fluorescent material. The present invention relates to a fluoroscopy device manufactured so that the identification effect by the amount of reflection of a fluorescent material can be clearly distinguished by a condensing method with a function of the light emitting method.

In general, banknotes, securities, card products, gift certificates, various admission tickets, lottery tickets, etc. are printed with a unique pattern and the corresponding amount, and fluorescent materials that are not visible to the naked eye are coated for the purpose of preventing forgery or tampering.

Conventionally, an ultraviolet fluorescent material that reacts to ultraviolet light is used as the fluorescent material. Therefore, a spot (eg, a bank) handling securities is irradiated with a laser light source having an ultraviolet wavelength band to emit light reflected by the ultraviolet fluorescent material. Lamps that can visually identify the status are provided to check the authenticity of securities.

That is, conventional banknotes, securities, card products, gift certificates, various tickets, lottery tickets, etc. are coated with an ultraviolet fluorescent material that reacts to ultraviolet rays to detect the authenticity of the surface by the ultraviolet rays emitted by the ultraviolet lamp. It is visually identified.

The conventional fluorescent substance identification device currently used on the market is a light scattering type fluoroscopy device using an ultraviolet lamp, and is a general-purpose fluoroscopy device without condensing or amplifier function, and an infrared fluoroscopy device using a laser light source having an infrared wavelength band is used. There is no situation.

However, the conventional ultraviolet fluoroscopy as described above was a light scattering method without condensing or amplifying capability, so that the fluorescent element applied by the printing method to banknotes, securities, card products, gift certificates, various tickets and tickets is identified by the reflection method. There was a drawback that the identification effect was a little lower due to no clear perspective effect.

In addition, as described above, the technology for identifying authenticity using ultraviolet lamps for banknotes, securities, card products, gift certificates, various tickets, tickets, etc. coated with ultraviolet fluorescent materials is a general-purpose technology that has been used for a long time. Since there is a problem of counterfeiting or tampering with banknotes, new fluorescent substances that can substitute ultraviolet fluorescent materials for banknotes, securities, card products, gift certificates, various tickets, lotteries, etc. have been required.

Accordingly, the present applicant is continuing research to solve the above problems, and when the infrared fluoroscopy using a laser light source having an infrared wavelength band instead of the ultraviolet wavelength band is irradiated to the fluorescent material by a condensing method, the light emitting state reflected by the fluorescent material It is found that is much easier to identify with the naked eye.

That is, the present invention irradiates a laser light source having an infrared wavelength band to an infrared fluorescent element applied by a printing method to banknotes, securities, card products, gift certificates, various tickets, lottery, etc. by using a condensing method rather than a light scattering method. The purpose of the present invention is to clearly identify the fluorescence, and to provide a fluoroscopy which can identify the authenticity more reliably and reliably.

1 is a perspective view of an infrared fluoroscopy using a laser light source according to the present invention.

Figure 2 is a cross-sectional view showing a condenser of the fluoroscopy according to the present invention.

* Description of the symbols for the main parts of the drawings *

1: laser light source 2: laser light collector

2a: condenser lens barrel 2b: condenser lens (convex)

2c: condenser lens (concave) 2d: fixed cap

2e: laser light source holder 3: amplifier volume

4: laser light source driving circuit board 5: laser light source switch

6 power indicator light emitting element 7 battery

8: case 9: see-through window

In order to achieve the object of the present invention as described above, the present invention is provided with a laser concentrator for irradiating a laser light source having an infrared wavelength band by a condensing method, wherein the laser condenser includes a plurality of condenser lenses. Is provided.

In addition, the infrared fluoroscopy device of the present invention further includes an amplification control unit for adjusting the amount of light of the laser light source, a switch for turning on / off the laser concentrator, and a power supply unit for supplying power.

The amplification control unit is composed of an amplifier volume and a circuit board, the fluoroscopy of the present invention is preferably further provided with a light emitting device for power display indicating the operating state of the fluoroscopy.

The laser condenser is installed in a case provided with a see-through window on the front surface, the case is characterized in that the synthetic resin injection molding.

In addition, the laser condenser includes a barrel having a condenser lens arranged therein, a laser light source holder to which the barrel is fixed, and a fixing cap installed on the front surface of the laser light source holder, wherein a female screw hole is formed in the laser light source holder. The barrel is formed with a male screw, and the barrel is fastened to the laser light source holder.

Here, the condenser lens of the laser condenser is composed of two convex lenses and one concave lens.

Hereinafter, with reference to Figures 1 and 2 attached to the infrared fluoroscopy of the present invention.

1 is a perspective view of an infrared fluoroscopy using a laser light source according to the present invention, the infrared fluoroscopy of the present invention is provided with a laser concentrator 2 for irradiating a laser light source 1 having an infrared wavelength band, the laser light source ( An amplifier volume 3 and a circuit board 4 are provided as an amplification control unit for adjusting the amount of light of 1), and a switch 5 for turning on / off the laser collector 2 and a battery 7 for supplying power. ) And a power supply light emitting element 6 which shows the operating state of the fluorescent light emitter.

Such components are arranged on the top of the case (8), the front of the case (8) is provided with a viewing window (9) is irradiated with the laser light source (1) condensed, banknotes, securities, card products, It makes it possible to clearly observe the state of the light emitted from infrared fluorescent elements applied by printing methods to gift certificates, various tickets and tickets.

The case 8 is preferably made of a synthetic resin injection molding material, which is a light material, and improves the convenience in the use of the fluoroscopy by reducing the weight of the device.

On the other hand, Figure 2 is a cross-sectional view showing a laser condenser of the fluoroscopy according to the present invention, the laser condenser 2 comprises three condensing lenses (2b) (2c) for condensing the laser light source (1) do.

The condensing lenses 2b and 2c are composed of two convex lenses 2b and one concave lens 2c, and are arranged such that the concave lenses 2c are disposed between the two convex lenses 2b.

The light collecting lenses 2b and 2c are arranged inside the barrel 2a, and the barrel 2a is fixed inside the laser light source holder 2e.

Here, the laser light source holder 2e is formed with a female screw hole into which the barrel 2a can be inserted, and a male screw is formed in the barrel 2a so that the barrel 2a is fastened to the laser light source holder 2e. do.

Therefore, the focal length of the laser light source 1 can be adjusted by narrowing or widening the range in which the barrel 2a and the laser light source holder 2e are fastened.

In addition, a fixing cap 2d is provided on the front surface of the laser light source holder 2e.

In the laser condenser 2 having such a configuration, the laser light source 1 is condensed by the light collecting lenses 2b and 2c arranged in the barrel 2a fixed inside the laser light source holder 2e, At this time, the focal length of the laser light source 1 is adjusted by fastening the male screw of the barrel 2a and the female screw of the laser light source holder 2e.

Referring to the operation of the fluoroscopy of the present invention configured as described above are as follows.

When the laser light source switch 5 is turned on, the laser light source 2 is driven to irradiate a laser, and the operating state is displayed on the power display light emitting element 6.

When the laser light source 2 is driven, a light source is collected by the light collecting lenses 2b and 2c of the laser light collector 2 and irradiated to a fluorescent material, and the light amount of the light source is the laser light source driving circuit board 4 and the amplifier volume. Through (3) it is adjusted to the appropriate amount of intensity.

In this case, if the focal length of the laser light source 1 does not match, the focal length may be adjusted by adjusting the fastening range of the barrel 2a and the laser light source holder 2e.

Therefore, the fluoroscopy of the present invention is much easier to visually identify the light emitting state reflected by the fluorescent material because it is irradiated by a condensing method rather than by dispersing the laser light source.

In addition, since the amount of light of the light source can be adjusted to an appropriate intensity using the amplifier volume 3 according to the judgment of the user, a clear perspective effect can be expected when identifying the fluorescent element by the reflection method.

As described in detail above, the present invention is capable of preventing forgery or modulation of various banknotes coated with an ultraviolet fluorescent material by irradiating a laser light source having an infrared wavelength band with various banknotes coated with an infrared fluorescent material. It works.

Further, by condensing a laser light source having an infrared wavelength band and irradiating the fluorescent material, a considerable effect is expected to accurately identify the fluorescent element by the amount of reflection.

In addition, it is possible to expect a clear perspective effect by adding the function of the lens focusing method to the laser light source.

Claims (9)

And a laser condenser for irradiating a laser light source having an infrared wavelength band by a condensing method, wherein the laser condenser includes a plurality of condensing lenses. The infrared fluorescence spectrometer according to claim 1, further comprising an amplification controller for controlling the amount of light of the laser light source, a switch for turning on / off the laser concentrator, and a power supply for supplying power. The infrared fluorescence spectrometer according to claim 2, wherein the amplification controller comprises an amplifier volume and a circuit board. The infrared fluorescence spectrometer according to claim 2, further comprising a power display light emitting element for indicating an operating state of the fluoroscopy spectrometer. The infrared fluorescence spectrometer according to claim 1, wherein the laser condenser is installed in a case having a viewing window on the front surface. The infrared fluorescence spectrometer according to claim 5, wherein the case is made of a synthetic resin injection molding. The infrared fluorescent lamp of claim 1, wherein the laser light collector comprises a barrel having a condenser lens arranged therein, a laser light source holder to which the barrel is fixed, and a fixing cap installed on the front surface of the laser light source holder. Throwing. The infrared fluoroscopy according to claim 7, wherein the condenser lens of the laser condenser is composed of two convex lenses and one concave lens. The infrared fluorescence spectrometer according to claim 7, wherein a female screw hole is formed in the laser light source holder, and a male screw is formed in the barrel so that the barrel is fastened to the laser light source holder.