RU128007U1 - DEVICE FOR INDUCTION EXCITATION OF UV RADIATION - Google Patents

Abstract

A device for induction excitation of ultraviolet radiation, including contacts, a base, incandescent filaments, a lamp tube, a protective casing, characterized in that it includes an inductor with terminals located in the cavity between the lamp tube and the protective casing, an inductor automatic connection system and a high-frequency voltage source.

Description

The utility model relates to the technique of ultra-high frequencies (microwave) and lighting, in particular to ultraviolet radiation devices used to disinfect water.

Currently, devices based on the bactericidal method using photochemical exposure to bacteria in water with ultraviolet bactericidal energy emitted by special lamps are used for water disinfection (Water treatment - Frog B.N. Frog B.N., Levchenko A.P. Water treatment: Textbook - M .: Publishing house of Moscow State University, 1996. - 680 p.).

Known cleaning devices using this method, for example, low-pressure argon-mercury lamps type BUV-30 and BUV-60P, as well as high-pressure mercury-quartz lamps type PRK-7 and RKS-2.5 (V.F. Kozhinov, “Purification of drinking and industrial water.” Publishing House of Literature on Construction, Moscow, 1971).

A well-known installation for disinfecting water is intended for use in a water supply system (Abdulov N.M. Installation for disinfecting water. RF patent for utility model No. 46495 // Inventions and utility models No. 19 2005). An arc mercury fluorescent lamp (for example, a DRL type) was used as a source of ultraviolet radiation. When a quartz tube is fed with a high voltage, a gas discharge occurs in a mixture of mercury vapor with argon with the release of ultraviolet radiation.

Also known installation with sources of bactericidal radiation type OV-1P-RKS, taken as a prototype (Water treatment - Frog BN Frog BN, Levchenko AP Water treatment: Textbook - M .: Publishing house of Moscow State University, 1996. - 680 p.). The installation includes (Fig. 1) a housing (not shown in the figure), inside which a cell is placed, consisting of a mercury-quartz lamp 4 in a quartz case 5. Purified water is supplied through the inlet to the cavity of the installation, and after irradiation is discharged through the outlet branch pipe. A high-frequency voltage source and cables are intended to power the unit and the mercury-quartz lamp. Figure 1 shows a diagram of the scheme, where indicated: 1 - contacts; 2 - base; 3 - filament; 4 - lamp tube; 5 - a protective casing. The gas discharge of the lamp is excited through the contacts 1 by means of filaments (3) located at the opposite ends of the tube (4).

The disadvantage of the prototype is the fact that when the incandescent filament burns out, the lamp stops working. The failure of a large number of lamps and the continued operation of the Ural UV unit in this mode until the attendants arrive will inevitably lead to poor-quality treatment of drinking water or wastewater, leakage of properly disinfected water into the network, or getting into natural sources of wastewater after WWTP with an active pathogenic biological environment .

To achieve the smooth operation of the cell, it is proposed to equip it with a duplicate excitation system.

The technical result is achieved by including in the cell a high-frequency inductor located in the cavity between the tube of the lamp and the protective casing of quartz glass, a high-frequency voltage source of the system for automatically connecting the inductor.

The cell design is shown in figure 2, where the inductor (6), the contact terminals of the inductor (7), the automatic connection system of the inductor (8) and the high-frequency voltage source (9) are indicated.

The device operates as follows.

When the incandescent filament (3) burns out, the system for automatically connecting the inductor (8) is activated and connects the inductor (6) to the high-frequency circuit (9). In turn, the inductor excites a gas-discharge ultraviolet glow in a burnt out lamp. As a result, the installation continues to run smoothly. In this mode, lamps with burnt filaments, if the tube does not depressurize (4), can burn for a long time.

Claims (1)

A device for induction excitation of ultraviolet radiation, including contacts, a base, incandescent filaments, a lamp tube, a protective casing, characterized in that it includes an inductor with terminals located in the cavity between the lamp tube and the protective casing, a system for automatically connecting the inductor and a high-frequency voltage source.

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