RU1806098C - Device for water sterilization - Google Patents

Abstract

SUMMARY OF THE INVENTION: the device comprises a flow chamber with inlet and outlet pipes, an ultraviolet germicidal lamp inserted into a quartz glass case, centrifugal nozzles located in the cover of the flow chamber made in the form of a Venturi tube with an internal reflective surface. 1 ill.

Description

The invention relates to devices for sterilizing liquids by ultraviolet radiation and can be used in the medical, chemical industry, rural and municipal industries, and for the treatment of industrial effluents.

The purpose of the invention is to improve the quality of water treatment by providing mixing of the layers of the treated liquid and eliminating the possibility of a breakthrough of the untreated flowing medium.

 Providing the device with centrifugal nozzles leads to diffuse reflection of the light flux on the dispersed particles of the liquid. When a continuous fluid flow is applied during irradiation, there are cases of specular reflection of the light flux from the surface of the fluid. When the particle flux is dispersed due to interference and diffraction of light waves and scattered reflection, the light flux of the ultraviolet lamp is completely absorbed, the breakthrough of the untreated particles is reduced to zero, and the layers of the treated liquid are mixed.

The shape of the flow chamber in the form of a Venturi pipe leads to equalization of flow rates over the cross section, which in turn also eliminates the breakthrough of untreated water particles.

The drawing shows a longitudinal section of a device for sterilizing water.

The device for sterilizing water consists of an all-metal venturi-shaped flow chamber 1.

The inner surface of the flow chamber 1 has a mirror reflective surface. In the upper part, the flow chamber 1 is closed by a cover 2. Between the flow chamber 1 and the cover 2 there is a sealing gasket 3. Centrifugal nozzles A are located in the cover 2. Water is supplied to the centrifugal nozzles 4 through the nozzle 5. The flow chamber 1 is closed from below by a conical cover 6 A sealing gasket 7 is clamped between the flow chamber 1 and the cover 6. The bactericidal lamp 8 is mounted in a quartz glass case 9.

The electrical unit of the lamp 8 consists of a cartridge 10 with a supply cable and is mounted on the open end of the cover 9. A drain pipe 11 is made for discharging the treated liquid.

with

For the manufacture of components and parts of the device, it is possible to use stainless steel, quartz glass, rubber.

The device operates as follows.

When the lamp 8 is on, the untreated liquid through the nozzle 5 is supplied to the nozzles 4,

In the centrifugal nozzles 4 located in the lid 2, the supplied fluid is twisted and upon exiting the nozzle the liquid film breaks up, forming a torch in the form of a hollow cone, dispersed droplets of which scatter along straight paths. Spraying of the supplied fluid takes place in the confuser part of the flow chamber 1 having the shape of a venturi. In the diffuser part of the flow chamber 1, the fluid flow is compressed and the flow rate increases. When water passes through the confuser and diffuser parts of the flow chamber 1, the ultraviolet lamp 8 is processed by radiation 8 through the case 9, which does not delay ultraviolet rays. UV is absorbed by the droplet stream of liquid, and part of the radiation that does not fall on the droplets falls on the internal 3 2 4.

5

the mirror surface of the flow chamber 1. The reflected rays return back to the space between the inner surface of the flow chamber 1 and the cover

9, processing a fluid stream. The treated liquid is collected at the bottom of the device and is discharged from the device to the consumer through the pipe 11. The liquid processing process is continuous with the lamp and the flowing liquid on.

This design of a device for sterilizing water contributes to a more complete mixing of the layers of the treated fluid and eliminates breakthrough

raw current environment.

Formula A device for sterilizing water, comprising a housing of a flow chamber with inlet and outlet pipes and

a lid and an ultraviolet germicidal lamp located inside the chamber, inserted into a quartz glass case, which is noteworthy in that it is provided with centrifugal nozzles,

located in the lid of the housing, made in the form of a venturi with an internal reflective surface.

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