RU202287U1 - EXIPLEX ANTI-VIRUS RECIRCULATOR - Google Patents

Abstract

The utility model relates to gas-discharge radiation sources and relates to ecology, namely to devices that purify indoor air from organic, inorganic and biological pollutants. The technical result of the utility model is improved technical characteristics by increasing safety, efficiency of air disinfection and convenience. The specified technical result is achieved in that the supply fan provides air transportation through the housing capable of reflecting ultraviolet radiation, with a gas-discharge flask located inside, which disinfects the air with narrow-band ultraviolet radiation. At the same time, deflectors do not allow ultraviolet radiation to come out and have a detrimental effect on living organisms. The on / off button with an alarm lamp is designed for easy control of the device and visual indication of its operating mode. People can stay in a room with a working exciplex antivirus recirculator without the use of personal protective equipment.

Description

The utility model relates to gas-discharge radiation sources and relates to ecology, namely to devices that purify indoor air from organic, inorganic and biological pollutants.

Known bactericidal irradiator containing at least one source of ultraviolet radiation, the body of the irradiator with inlet and outlet sections, one fan, as a source of ultraviolet radiation in the bactericidal range used LED. Air recirculation in the room is provided by a fan to ensure the diffusion of clean and untreated air. [RF patent №194040, IPC A61L 9/20, Rudoy IN, Soroka A.M., published on 11/26/2019 Byull. No. 33].

The disadvantage of such a bactericidal irradiator is the low efficiency of disinfection of air masses passing through the housing, due to the low light power.

According to the technical essence and the achieved result, the closest to the proposed utility model is a radiation source having a gas-discharge flask formed by two cylindrical tubes made of material transparent at the operating wavelength, a power source with electrodes, a high-voltage electrode located in the inner tube of the flask, an electrode located on outer tube surface. Effective disinfection of viruses and bacteria occurs due to the decay of exciplex molecules of the gas medium, which cause narrow-band ultraviolet radiation. [RF patent No. 153931, IPC H01J 61/52, H01J 1/04, Sosnin E.A., Panarin V.A., Skakun B.C., Tarasenko V.F., published 04.21.2014, Byul. No. 22].

The disadvantage of this radiation source is low safety, due to the direct effect of ultraviolet radiation on people and other living organisms, low efficiency, due to the limited duration of work in the room where there should be people who do not use personal protective equipment from the harmful radiation of the device and the inconvenience of switching on, according to the reason for remote switching on of the device.

The proposed utility model is aimed at improving safety, increasing the efficiency of air disinfection and increasing the convenience of turning on the device.

The technical result consists in ultraviolet irradiation of air limited by the housing and the pumped-through fan, as a result of which the air is disinfected. The device is switched on and off by switching the button located on the case.

The technical result is achieved by the fact that an antiviral exciplex recirculator containing a gas-discharge flask formed by two coaxial cylindrical tubes made of material transparent at the operating wavelength, a power source with electrodes, a power button with a switching-on signaling lamp, a supply fan, a housing capable of reflecting ultraviolet radiation , the inlet and outlet sections of which contain deflectors, while the electrodes are placed on the inner and outer walls of the flask.

The device of the product is shown in the figures (Fig. 1), where it is indicated: 1 - the inner wall of the flask with an electrode; 2 - outer wall of the flask with an electrode; 3 - deflectors; 4 - supply fan; 5 - power supply; 6 - case; 7 - power button with a power on signaling lamp; 8 - power connector.

The device works as follows. When the supply wire is connected to the power connector 8 and to the mains frequency AC voltage, power is supplied to the power button 7. When the power button 7 is switched to the on state, the lamp signals the device is on, electric energy is supplied to the power source 5, which supplies power to the fan and supplies voltage with the required parameters to the electrodes located on the inner 1 and outer 2 walls of the flask. The gas discharge bulb provides narrow-band ultraviolet radiation in the required wavelength range. This radiation, due to reflection from the housing 6, has an increased efficiency of air disinfection. Fan 4 drives ambient air through the housing and cools the power source and the gas discharge bulb. The air, passing through the ultraviolet radiation emitted by the gas-discharge flask, is purified, the microorganisms contained in the air die. At the same time, deflectors do not allow ultraviolet radiation to go out and have a detrimental effect on people.

Thus, the use of the proposed exciplex antiviral recirculator increases safety, increases the efficiency of air disinfection and improves the usability of the device.

Claims (1)

Exciplex antiviral recirculator, containing a gas-discharge flask formed by two coaxial cylindrical tubes of material transparent at the working wavelength, a power source with electrodes, characterized in that it additionally contains a power button with a switch-on signaling lamp, a supply fan, a housing made with the possibility of reflecting ultraviolet radiation , the inlet and outlet sections of which contain deflectors, while the electrodes are placed on the inner and outer walls of the flask.

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