RU2226110C1 - Device for disinfecting air in rooms - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has body with holes for air to come in and go out, bactericide radiator placed between the holes, start up control units, filter and device for producing air flow and housing manufactured from transparent material and luminophore layer covering internal surface of the housing. Lateral walls of the casing are manufactured from reticulated material; filter is manufactured from fibrous material. EFFECT: wide range of functional applications. 2 cl, 1 dwg

Description

This invention relates to medicine, in particular to air disinfection in crowded rooms, for example, in school classes.

Bactericidal irradiators of various types containing open and shielded bactericidal lamps are widely used to disinfect indoor air. Germicidal lamps are not structurally different from fluorescent tube lamps and are low-pressure mercury lamps. They serve as a source of radiation, most of the spectrum of which falls on the region of radiation with a wavelength of 254-258 nm, which is detrimental to many types of bacteria.

Open lamps are used for quick disinfection of air in rooms free from people, since short-wave ultraviolet radiation is hazardous to health. Shielded lamps are used to irradiate the upper layers of air in rooms in the presence of people. The lower layers of air are disinfected by convention.

Known bactericidal irradiator (1. USSR author's certificate, No. 1713593, class A 61 L 9/20, 1992), containing a housing with longitudinally placed bactericidal lamps, a reflector, starting and control equipment. The irradiator is intended for fixing on the ceiling of the room. The disadvantage of the irradiator is the creation of a strong background of ultraviolet radiation, as a result of which it can be used in rooms free of people.

A device for air disinfection is known (2. US Patent 5505904, class A 61 L 9/20, 1996), taken by us as a prototype. It contains a housing with openings for air inlet and outlet, an ultraviolet radiation generator containing bactericidal lamps located between the openings, and ballasts, strainers and a device for creating an air flow across the lamps.

However, the operation of such lamps results in the formation of ozone, which adversely affects the lungs, and must be removed from the room.

The objective of the invention is to provide such a device for disinfecting indoor air, which can be used in the presence of people, does not increase the ozone content in the room and at the same time is a luminescent light source.

The problem is solved in that the device for disinfection of air, comprising a housing with holes for input and output of air, a bactericidal irradiator located between the holes, ballasts, a filter and a device for creating an air flow, according to the invention also contains a casing made of a transparent material, and a phosphor layer deposited on the inner surface of the casing, the side walls of the housing are made of mesh material, the filter is made of fibrous material.

The problem can also be solved if the mesh part of the casing and the casing are made cylindrical with the possibility of fastening to end holders, one of which has an air inlet hole and an external air intake fan is placed, and an air outlet hole is made in the second end holder through a filter of fibrous material.

A casing made of a transparent material with a phosphor layer deposited on the inner surface serves as a converter of ultraviolet radiation from a bactericidal lamp into the light flux, which is used to illuminate the room. The fibrous material placed in the air outlet is designed to eliminate ozone generated in the device, which decomposes as a result of interaction with the surface of the fibers.

Thus, the air flow at the outlet of the device turns out to be pro-ionized and free of ozone, which allows the device to be used in rooms in which people are located. This creates a luminous flux illuminating the room, which increases the efficiency of energy use.

The design of the device for disinfecting indoor air is shown in the drawing.

The device comprises a bactericidal lamp 1, ballasts 2, a fan 3, a filter 4 made of fibrous material, a casing 5, a phosphor layer 6, a housing 7. The housing 7 consists of a mesh side portion 8 and end holders 9, 10. In the first end holder 9 is made a hole 11 for introducing air and a fan 3 is placed. In the second end holder 10, holes 12 are made for air outlet and a filter 4 of fibrous material is placed. Control gear 2 is located next to the bactericidal lamp 1.

The device operates as follows.

When the power is turned on, the bactericidal lamp 1 with the help of ballasts 2 lights up. At the same time, the fan 3 is turned on, which draws air from the room through the hole 11 and blows it through the casing 5 along the tube of the bactericidal lamp, the air flow rate is determined by the fan performance and the flow resistance of the filter 4 from the fibrous material. Under the influence of ultraviolet radiation, the passing air is disinfected. The ozone that occurs during irradiation when the fibers of the filter 4 reach the surface, decays and clean air enters the room through the outlet openings 12. The radiation of the bactericidal lamp also activates the phosphor layer 6, which causes a luminescent glow. The material from which the casing 5 is made is transparent to the visible portion of the light, and therefore the air purification device simultaneously serves as a fluorescent lamp. The side walls of the housing 7 pass most of the light flux. When the device is operating in rooms, air is constantly driven through it and the concentration of pathogenic microbes decreases.

Claims (2)

1. A device for disinfection of air, comprising a housing with holes for air inlet and outlet, a bactericidal irradiator located between the holes, ballasts, a filter and a device for creating an air flow, characterized in that it also contains a casing made of a transparent material and a layer phosphor deposited on the inner surface of the casing, the side walls of the housing are made of mesh material, the filter is made of fibrous material. 2. The device according to claim 1, characterized in that the mesh part of the housing and the casing are made cylindrical with the possibility of fastening to the end holders, in one of which a hole for air intake is made and an external air suction fan is placed, and in the second end holder there is a hole for air outlet through the filter from fibrous material.

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