RU2083022C1 - Ultraviolet radiation source - Google Patents

Abstract

FIELD: device for checking authenticity of bank notes and securities by quality of paper and presence or absence of phosphor labels on it. SUBSTANCE: ultraviolet radiation source has two parallel glass tubes phosphor covered on side surface, filled with mixture of metal vapors and inert gas and communicating through intermediate channel. Light filter which is, essentially, cylinder made of material transparent in ultraviolet region and nontransparent in visible region of spectrum is fitted on adjacent ends of tubes. Reflector is placed between part of internal surface of cylinder and part of external surface of glass tubes. EFFECT: reduced size of source. 2 dwg

Description

 The invention relates to gas-discharge radiation sources, in particular to sources of ultraviolet radiation, on the basis of a compact form fluorescent lamp.

 A flask of a gas-discharge source of ultraviolet radiation is known, equipped with a window made of a crystalline material transparent in the ultraviolet region of the spectrum (ed. St. N 515184 with a priority of 10.15.74, class H 01 61/30).

 A compact fluorescent lamp is also known, including two parallel-mounted glass tubes communicating through coaxial holes in the walls, and a transition channel made in a ceramic part that is vacuum-tightly connected to the walls of adjacent glass tubes from the side opposite to the location of the electrodes. The phosphor coating is located on the inner surface of the glass tubes, and the reflex coating below it, on that part of them, the radiation from which is shielded by adjacent sections of the glass tubes. The legs with thermionic electrodes are welded into the adjacent ends of the glass tubes. The lamp is filled with a mixture of metal vapor and inert gas. The volumes of glass tubes in the transelectrode region are connected by a similar and the above-mentioned ceramic part with a through channel, the length of which is greater than the distance between the tubes and is 1.2-1.5 lengths, and the cross-sectional area is 10-20 times less than the cross-section of the transition channel on the opposite side the location of the electrodes (ed. St. N 1601658 with a priority of 11.24.88, class H 01 61/30).

 A disadvantage of known gas-discharge radiation sources is the limitation of their field of application, in particular, there is practically no possibility of their use in devices for controlling the authenticity of securities in terms of paper quality and the presence (absence) of luminescent marks on it.

 The technical result of the invention is the expansion of the scope of gas-discharge radiation sources, i.e., the possibility of their operation in devices for controlling the authenticity of banknotes and securities.

 To do this, a new source of ultraviolet radiation is proposed, containing two metal vapor and inert gas filled with a mixture, communicating through a transition channel, parallel-mounted glass tubes with a phosphor coating on the side surface, legs with thermionic electrodes are welded to their adjacent ends, and a light filter made of a material transparent to ultraviolet region of the spectrum and opaque in the visible region of the spectrum, in the form of a cylinder, worn externally on parallel-arranged glass tubes with phosphors coating.

 If necessary, ultraviolet radiation between the part of the inner surface of the container and part of the outer surface of parallel arranged glass tubes is placed reflector.

 The proposed set of essential features allows you to create a compact source of ultraviolet radiation with dimensions that allow you to install them in devices for monitoring fluorescent labels on securities. The presence of a reflector allows you to localize ultraviolet rays in a given direction, providing greater brightness of the luminescence of luminescent labels and the ability to assess the quality of paper.

 In FIG. 1 shows a general view of a source of ultraviolet radiation; in FIG. 2, section A-A in FIG. one.

 The ultraviolet radiation source includes parallel-mounted glass tubes 1, on the inner surface of which a phosphor coating is applied, legs with thermionic electrodes 2 at those ends of the glass tubes that are not connected to adjacent glass tubes and a base 3. Outside the parallel-mounted glass tubes 1 with a phosphor coating is a 4-in filter in the form of a cylinder made of a material that is transparent in the ultraviolet region of the spectrum and not transparent in the visible region of the spectrum. A reflector 5 is fixed on the inner surface of the filter.

 During operation, a fluorescent lamp in the form of parallel arranged glass tubes 1 emits light, including the ultraviolet region of the spectrum. The presence of a light filter 4 provides the absorption of visible radiation and the passage of radiation in the ultraviolet region. The region of the spectrum in which the filter transmits (absorbs) radiation is determined by the choice of material of the filter. The presence of the reflector 5 allows you to localize the radiation in a given direction, that is, to increase the efficiency of the source.

 The above-mentioned features of the ultraviolet radiation source allow it to be compact in the smallest possible dimensions with sufficient radiation intensity, providing greater contrast and brightness of the luminescence marks on the securities and a reliable assessment of the quality of the paper, which makes it possible to determine the authenticity of banknotes and securities with high reliability.

Claims (1)

 An ultraviolet radiation source containing two metal vapor and an inert gas filled with a mixture, connected through a transition channel parallel-mounted glass tubes with a phosphor coating on the side surface, legs with thermionic electrodes are welded to their adjacent ends, characterized in that it is equipped with a light filter made of a material transparent to ultraviolet region of the spectrum, while the light filter is made in the form of a cylinder with an inlet through which it is freely worn on parallel teklotrubki and forms a gap between the outer surface and the inner cylinder steklotrubok surface, wherein the reflector is installed.

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