RU73105U1 - DEVICE FOR MONITORING THE AUTHENTICITY OF THE DOCUMENT PROTECTED FROM FALSE - Google Patents

Abstract

The utility model relates to devices for visual authentication of documents protected from fakes, and can be used to identify genuine and false banknotes, securities, identification documents and forms of railway tickets of the Russian Railway. The technical result consists in the possibility of providing a secure visual verification of the authenticity of a document protected from falsification, containing various labels, having the ability to luminescence under the influence of ultraviolet radiation in only one wavelength range or in each of the wavelength ranges due to alternating exposure of the document to ultraviolet radiation as in the range ( 385-400) nm, and in the range (360-370) nm. The device comprises a housing with a translucent window, two ultraviolet radiation sources placed in the housing, and a power circuit equipped with control elements for alternately switching on the radiation sources. Sources of ultraviolet radiation are installed in the housing with the ability to illuminate the entire surface of the document being checked. One of the sources has an energy maximum of radiation in the wavelength range (385-400) nm and is made in the form of at least one ultraviolet LED. Another source has an energy maximum of radiation in the wavelength range (360-370) nm and is made in the form of at least a fluorescent lamp or an ultraviolet LED. 1 n.p. f-ly.

Description

The utility model relates to devices for visual authentication of documents protected from fakes, and can be used to identify genuine and false banknotes, securities, identification documents and forms of railway tickets of the Russian Railway.

The closest analogue is a device for verifying the authenticity of documents protected from forgery, containing two ultraviolet radiation sources placed in the case and a power circuit for alternately switching on ultraviolet radiation sources, while one of the ultraviolet radiation sources has an energy maximum of radiation at a length of 365 nm, and the other - at a wavelength of 254 nm (Banknote detector "Ultramag-K3-22", http://www.vildis.ru/?id=detectors/d_b_uv.php#k3, updated. 07.05.2007). A known device checks labels with the ability of luminescence under the influence of ultraviolet radiation.

However, it should be noted that documents protected from falsification containing labels with luminescence at a wavelength of 254 nm are not widespread, therefore, the use of the known detector is limited. In addition, the wavelength of electromagnetic radiation of 254 nm is located near the maximum biological hazard for humans, and therefore the detector requires reliable protective equipment and highly qualified personnel, which limits the scope of use of the detector.

The currently existing protective labels, which are capable of luminescence, manifest their properties in different ways under the influence of ultraviolet radiation. Some of them have the property of luminescence in only one range of ultraviolet radiation, others in two different ranges.

For example,

- fibers in the thickness of paper banknotes of the Russian Federation rubles, which have the property of luminescence when exposed to UV radiation in the wavelength ranges (385-400) nm and (360-370) nm;

- printing with luminescent inks on banknotes of Russian rubles, having the property of luminescence only under the influence of UV radiation in the wavelength range (360-370) nm;

- printing on banknotes of Chinese yuan with the property of luminescence under the influence of UV radiation in both wavelength ranges (385-400) nm and (360-370) nm.

The objective of the utility model is to create a safe and easy-to-use device that visually verifies the authenticity of a document protected against counterfeiting, containing various tags that have the ability to luminescence under the influence of ultraviolet radiation in only one wavelength range or, conversely, in each of the used wavelength ranges .

The technical result consists in the possibility of providing a secure visual verification of the authenticity of a document protected from falsification, containing various labels, having the ability to luminescence under the influence of ultraviolet radiation in only one wavelength range or in each of the wavelength ranges due to alternating exposure of the document to ultraviolet radiation as in the range ( 385-400) nm, and in the range (360-370) nm.

This is achieved by the fact that the device for verifying the authenticity of documents protected from forgery contains two ultraviolet radiation sources located in the housing and a power circuit equipped with control elements for alternating switching on of ultraviolet radiation sources, while the housing is made with a transparent window, radiation sources are installed in the housing with the possibility of lighting the entire surface of the document being checked, one of the sources having an energy maximum of radiation in the wavelength range (385-400) n m and is made in the form of at least one ultraviolet LED, the other in the wavelength range (360-370) nm and is made in the form of at least one fluorescent lamp or one ultraviolet LED.

The radiation range of one of the sources of ultraviolet radiation - (360-370) nm is generally accepted for checking luminescent labels of documents protected from fakes.

The use of a second source of ultraviolet radiation in the wavelength range of 385-400 nm makes it possible to determine the differences in luminescence characteristic of materials used for a large number of documents protected against counterfeiting.

In addition, an ultraviolet radiation source of this range is the least dangerous for the human body from the entire ultraviolet range (see Guidelines on limits of exposure to ultraviolet radiation of wavelengths between 180 nm and 400 nm (Incoherent optical radiation, Health Physics, August, 2004, Volume 87, Number 2).

The use of LEDs as a source of ultraviolet radiation in the wavelength range (385-400) nm makes it possible to increase the reliability of the device and reduce its price, since the LEDs of the indicated emission range are highly reliable and inexpensive elements in comparison with gas-discharge and fluorescent lamps.

The figure 1 shows a device for verifying the authenticity of documents protected from forgery.

The device comprises a housing 1 with a transparent window 2, two ultraviolet radiation sources 3 and 4, and a power supply circuit 5, equipped with control elements 6 for alternately switching on sources 3 and 4, placed in the housing with ultraviolet sources 3 and 4, installed in the housing with the possibility of illuminating the entire surface checked document. Source 3 has an energy maximum of radiation in the wavelength range (385-400) nm and is made in the form of at least one ultraviolet LED. Source 4 has an energy maximum of radiation in the wavelength range (360-370) nm and is made in the form of at least one fluorescent lamp or one ultraviolet LED.

A device for authenticating a document protected from fakes works as follows.

The document being checked 7, for example, a banknote is placed directly under the luminous window 2 of the housing 1 and using the control elements 6 first connect the source 3, and then the source 4 to the power circuit 5. At the same time, visual control of the luminescence of the protective marks, which are manifested under the influence of radiation from ultraviolet sources 3 and 4, is carried out.

The authenticity of the security label of the document being checked is determined by comparing the presence or absence of its luminescence under the influence of ultraviolet radiation of one or another range with the luminescence of the same label shown on a genuine banknote under similar conditions.

In addition, the proposed device allows you to visually control the color of the label under the influence of ultraviolet radiation, which is an additional sign when determining the authenticity of the checked document. Tag color authenticity

it is also determined by the results of visual comparison with the color of the same mark shown on a genuine document in similar conditions.

A specific example of the use of the device.

The authenticity of railway tickets of the Russian Railway was verified. Verification of the authenticity of protective labels with the property of luminescence was carried out using the proposed device. Alternately exposed to the back of the train ticket with ultraviolet radiation of various ranges.

When exposed to ultraviolet radiation in the wavelength range (385-400) nm, the presence and authenticity of multi-colored fibers in the thickness of tickets with luminescence in this ultraviolet radiation was checked.

When exposed to ultraviolet radiation in the wavelength range (360-370) nm, the fibers continued to glow. However, a visible image of the railway logo appeared, which did not appear either in the visible range or under the influence of ultraviolet radiation in the wavelength range (385-400) nm. The image of the developed logo and the location of the luminous marks on the checked ticket completely coincided with the image and the luminous marks of the genuine ticket under equal conditions of verification. Based on the results of the verification, it was concluded that the document being verified is authentic.

Claims (1)

A device for verifying the authenticity of documents protected from counterfeiting, containing two ultraviolet radiation sources located in the housing and a power circuit equipped with controls for alternately turning on the ultraviolet radiation sources, while the housing is made with a transparent window, the radiation sources are installed in the housing with the ability to illuminate the entire surface of the document being checked, moreover, one of the sources has an energy maximum of radiation in the range 385-400 nm and is made in the form of at least e, a UV LED, another - in the range 360-370 nm and is made in the form of at least one fluorescent lamp or a UV LED.