UA16267U - Device for disinfecting air in premises - Google Patents

Abstract

The device for disinfecting the air in premises comprises two aligned oppositely located fans and the ultraviolet source. The electric heaters are located between the ultraviolet source and the fans.

Description

Description of the invention

The useful model refers to devices for air disinfection and can be used to improve the microclimate of premises.

A well-known device for disinfecting indoor air (a.s. USSR Mo1210839 AET11 9/20, 1986, Bull. Mob)|., which contains a camera, a source of ultraviolet (UV) radiation, air ducts and a fan located in one of the air ducts. The side surface of the camera has slits with vanes installed in them.

This device is ineffective because it distributes disinfected air only in the transverse plane of the chamber, 70. which does not contribute to uniform filling of the room with purified air.

A device for disinfecting indoor air is also known (Japanese patent Mob3-51025, Cl. AbЕ11 9/015, publ. 88.10.1211, which contains a case, an ultraviolet lamp and a fan.

The disadvantage of such a device is its low efficiency, because the presence of a fan (airflow activator) cannot provide complete irradiation over the entire volume of the flow being disinfected. 19 The purpose of the proposed useful model is to improve the device for disinfecting indoor air, in which the installation of additional elements allows it to be used in rooms with high humidity and to carry out irradiation throughout the volume of the disinfected flow, and due to this, to increase the efficiency of the device.

The task is solved due to the fact that in the device for disinfecting the air of premises, which contains a case with a UV radiation source and a fan placed in it, according to a useful model, a second fan is installed opposite the first and coaxial with it and the UV radiation source, and thermoelectric heaters (shades) located between the UV radiation source and fans, parallel to the latter.

Introduction of the second fan into the device, installed opposite to the first and coaxial with it and the source

UV radiation allows you to supply treated air streams towards each other, while a turbulent flow is created around the UV radiation source, contributing to a faster removal of air disinfected by UV radiation into the treated room.

Thermoelectric heaters installed between the fans and the source of UV radiation contribute to reducing the humidity of the supplied air and thereby prevent moisture condensation on the source -

UV radiation, eliminating the influence of air humidity on the efficiency of its operation, which makes it possible to use the device in a room with air humidity higher than 8590.

Figure 1 shows the scheme of the proposed device; Fig. 2 is a cross-section A-A of the device in Fig. 1. high school

The device contains a plastic case 1, inside which is installed a source of UV radiation 2 (as He). The source of UV radiation can be a bactericidal lamp with a wavelength of 253.7 nm. and 3 o power from 8 to bWt depending on the volume of the treated room), equipped with an electronic start-up control device Z; at the opposite ends of the housing 1 are coaxial with each other and the source

UV radiation 2 installed fans 4. The fans are selected according to the volume of the treated room and the source of UV radiation (from 0.1m Z/min to 1m3/min) and serve to direct air flows towards each other and to remove disinfected air from the treatment area . Thermoelectric heaters 5 are located between the UV radiation source 2 and fans 4 parallel to the latter. For more efficient use of UV radiation, a parabolic screen 6 is installed on the rear wall inside the housing 1, which reflects. The front wall of the case is made of plastic grids. For fixing the source

Brackets 7 are provided for UV radiation 2 coaxially with fans 4 and fans 5.

The device works like this. When the device is connected to the network, fans 4 and - 395 start working, and at the same time, thermoelectric heaters - shades - 5 are turned on, after a time interval equal to 15-20 seconds, with the help of the start-up device C, the source of UV radiation 2 is turned on. Air from the room, ( o) that is to be processed, is supplied by fans 4 to the housing 1, where air flows directed towards each other create turbulent flows around the UV radiation source 2. Under the action of UV radiation, the air is disinfected and enters the room through the grates. (o) 50 Thanks to the continuous supply of air from two fans, the use of thermoelectric heaters and the UV radiation source, the efficiency of the device increases and the time of bactericidal treatment of the room is significantly reduced.

Claims (1)

The formula of the invention - A device for disinfecting the air of premises, which has a holding case with a source of ultraviolet (UV) radiation placed in it and a fan, which is distinguished by the fact that a second fan is installed in the device opposite to the first and coaxial with it and the source of UV radiation, and 60 thermoelectric heaters, which are located between the source of UV radiation and fans, parallel to the latter. b5