RU22346U1 - DEVICE FOR DISINFECTING AIR - Google Patents

Abstract

A device for disinfecting air, comprising a housing with inlet and outlet windows in the covers, in which a chamber is provided with screens, filters, and a fan, with an ultraviolet radiation source in the form of two ozoneless low-pressure mercury lamps, characterized in that the central part of the covers with diametrically arranged windows is made in the form of a truncated cone, reflective screens are made in the form of disks, and filters, which are several layers of gauze, are attached to the covers with frames and repeat the profile to little bumps.

Description

vHKa npaj 1 body in the box with il1t6 gemnik I go by following About the author. receipt; .S.Oi gtelstva 1 nalmeE The utility model relates to the field of air disinfection with ultraviolet bactericidal radiation in medical institutions, bacteriological laboratories, in workshops, in industrial premises in the presence of people, without the use of disinfectant solutions and chemicals. It is known "Device for disinfecting indoor air according to patent No. 2021821, class. A 61L 9/20, RF, 1991, intended for air disinfection in rooms, in particular, medical, and can be used to improve the indoor climate. The disadvantage of this device is the complexity of the design of the device having a hinged connection between the chamber and the duct, as well as the possibility of noise during the rotation of the cylindrical chamber during operation, which is irritating to humans. In addition, the penetration of rays through windows located on the side of the camera is likely. Closest to the proposed technical solution is the "Device for air disinfection according to patent jY 2153886, class. A 61L 9/20. RF, 1999, designed to disinfect indoor air. I mainly medical, using ultraviolet radiation. This device is taken by the authors as a prototype. The device consists of a housing with input and output windows and with louvres. A fan, a filter are installed in the housing, and an irradiation chamber is formed, equipped with protective shields in the form of labyrinth located partitions at the inlet and outlet. An ultraviolet radiation source is placed in the irradiation chamber, made in the form of one or several longitudinally installed “low-pressure mercury-free ozone-free lamps. The disadvantage of this device is the complexity of the design associated with the presence of labyrinth located partitions, as a result of which the device has insufficient performance associated with high resistance to air flow. The objective of the proposed utility model is to create a device with high efficiency disinfection of air, safe in operation and providing a comfortable stay of people in the disinfected room. The problem is solved as follows. In the known device for disinfecting air, comprising a housing with inlet and outlet windows in the covers, in which a chamber with a source of ultraviolet radiation in the form of two low-pressure mercury-free lamp, is provided equipped with screens, filters, a fan, the central part of the covers, with diametrically located ok-2nami made in the form of a truncated cone, reflective screens are made

in the form of disks, and filters, which are several layers of gauze, are attached to the covers using frames and repeat the profile of the covers.

This design ensures the complete absence of negative effects of ultraviolet radiation on people's eyes and the absence of ozone in the disinfection zone. Disinfection is carried out by ultraviolet radiation with a wavelength of 253.7 nm.

The device for air disinfection consists of a rectangular housing 1, covers of the front 2 and rear 3, screens 4, 5, ozone-free bactericidal lamps 6, fan 7, filters 8, ballasts 9, insulator 10 (Fig. 1).

The rectangular housing 1 consists of two parts for ease of assembly and disassembly. On the front wall of the housing 1 there is an indicator 15 that glows when the lamps are on, on the side surface there is a wall switch 11 and a cord with a power plug 12. On the rear wall of the housing there are two loops 13 with T-slots that allow the irradiator to be mounted on the wall, as in graft and horizontal.

The central part of the covers 2, 3 has a special profile in the form of an internal truncated cone, having diametrically located windows 14. On the covers, reflectors 4, 5, in the form of disks, are mounted on the covers through struts. Filters 8 are made to the lid using frames, made of gauze in several layers and repeating the profile of the lids.

In case 1, an ultraviolet radiation source 6 is placed, which is a 8 W ozoneless bactericidal lamp in the amount of two pieces of the G8T5 type manufactured by Silvia (Japan) or TUVSW, DRB 8-01 (Russia) with a wavelength of 253.7 nm.

The device for disinfecting air works as follows.

The air taken from the room through the windows in the front cover 2, filter 8, is supplied by the fan 7 to the irradiator housing 1, where it is disinfected by ultraviolet radiation and through the windows in the back cover 3, and the filter 8 enters the room, providing constant recirculation.

The combination of a special profile of the covers, the screen and gauze filters provides free air passage into the body, but does not pass ultraviolet radiation into the external space of the disinfected room.

Claims (1)

A device for air disinfection, comprising a housing with inlet and outlet windows in the covers, in which a chamber is provided with screens, filters, and a fan with an ultraviolet radiation source in the form of two ozoneless low-pressure mercury lamps, characterized in that the central part of the covers with diametrically arranged windows is made in the form of a truncated cone, the reflective screens are made in the form of disks, and filters, which are several layers of gauze, are attached to the covers using frames and repeat the profile to little bumps.