RU13209U1 - DEVICE FOR WATER TREATMENT BY UV RADIATION - Google Patents

Abstract

A device for treating water with ultraviolet (UV) radiation, comprising a cylindrical body, the holes are made at the base, and inside there are transverse disk-shaped partitions with holes and UV lamps, enclosed in covers made of a material transparent to UV radiation, mounted parallel to the circumference of the holes bases and partitions, as well as inlet and outlet pipes connected to the housing, inversely located on the cylindrical surface of the housing, characterized in that in the center of the circle, formed by the lamps, an additional UV lamp is installed, in the holes of the partitions the UV lamps are installed with a gap, additional holes are made in the partitions, and the inlet and outlet pipes are equipped with taps.

Description

UV water treatment device

The utility model relates to installations for disinfecting and disinfecting water with UV radiation of a bactericidal diazazone, and can be used to treat water from both surface and underground sources.

A device is known for treating UV liquid by WEDECO radiation (type B / LB), consisting of a cylindrical body in which UV lamps are mounted in parallel covers in covers, one of which is made of a material transparent to UV radiation. UV lamps are fixed in the holes of the housing bases. Connected to the inlet and outlet nozzles are housings inverted on the cylinder surface and equipped with taps.

A disadvantage of the known device is the non-optimal organization of the passage of the flow through the irradiation zone.

A device for disinfection of water with UV radiation (TPIOGEN avenue, model LP10086) was chosen as a prototype of a utility model. It consists of a cylindrical body based on which holes are made and transverse partitions in the form of truncated disks with holes are placed inside. UV lamps are located inside the housing parallel to its generatrix around the circumference and are installed in the holes of the partitions and bases. The inlet and outlet nozzles inverted on its cylindrical surface are connected to the device body.The disadvantage of the known installation is the significant pressure loss due to the large number of elements inside the chamber, as well as the unevenness of the light field of the UV radiation and the resulting need to twist the flow. radiation C02F1 / 32

The essence of the utility model lies in the fact that the device for treating water with UV radiation contains a cylindrical body, at the base of which holes are made, and inside there are transverse disk-shaped partitions with holes and UV lamps, enclosed in cases made of a material transparent to UV radiation and installed parallel to the generatrix around the circumference in the openings of the bases and partitions, as well as the inlet and outlet nozzles connected to the housing, inversely located on the cylindrical surface of the housing

The differences of the utility model are that in the center of the circle formed by the lamps, an additional UV lamp is installed, additional holes are made in the partitions, the holes in the partitions of the UV lamps are installed with a gap, and the inlet and outlet nozzles are equipped with taps

The technical result due to the 1st set of features of the utility model is to reduce the pressure loss, achieve uniformity of the light field, as well as to make it possible to control water parameters and simplify the operation of the installation.

The specified technical result is provided by the indicated features due to the fact that:

the completion of additional openings for water passage in the partitions and the installation of UV lamps in the baffle openings with a gap, since the holes for installing the lamps outweigh the diameter of the lamp cover, it can significantly reduce the pressure loss, prevent the flow from being pushed to the walls of the body and ensure that it passes directly in the irradiation zone.

the location of the UV lamp is additionally in the center of the circle formed by the lamps, allows you to get a more uniform light field, the presence of a selection tap and flush taps allows you to control the parameters of the water and facilitates the process of installation flushing.

The utility model is illustrated by drawings, where in FIG. 1 shows a device for treating water with UV radiation, and FIG. 2 - disk-shaped partition with holes. The device is a cylindrical body 1, inside of which there are transverse partitions 2 in the form of disks with holes and a UV lamp 3 in protective covers 4, mounted in parallel to form the body in the holes 5 of the bases and holes of the partition. UV lamps are installed in a circle around a lamp located in the center of the schishndra at an equal distance from each other. An input 6 and output pipe 7 are connected to the irradiation chamber, on which cranes 8, 9 are located. On the housing there are viewing windows 10 for visual monitoring of the operation of the lamps. The device is equipped with an additional pipe 11, in which a UV radiation intensity sensor is installed to control the radiation dose. UV lamps have electrical contacts 12, protected from water, through which they are connected to a power supply, control and alarm.

On the disk-shaped partition 1, holes 2 are provided for transmitting water and holes 3 are provided for simultaneously installing lamps and passing water, the diameter of which is larger than the diameter of the quartz covers, which ensures the installation of lamps with a gap. The utility model is implemented as follows:

The water flow is supplied to the housing through the inlet pipe 6 and passes through the openings in the partitions 2, being exposed to UV radiation from the lamps 3 installed in them in quartz covers 4. The treated water enters the outlet pipe 7. The inlet and outlet pipes are equipped with taps 8, 9, which, if necessary, can be used for washing the installation, sampling water and air intake, respectively, which allows you to control the process and facilitates the operation of the installation.

The following is an example of a specific implementation of the proposed installation:

Drinks that water undergo disinfection. The casing of the installation is made of stainless steel 12X18H10T. As sources of UV radiation using 7 gas discharge mercury bactericidal lamps of low pressure DB-75. UV lamps in protective quartz covers are located along the flow of water around the circle at equal distances from each other around the lamp placed in the workshop of the cylinder. The lamps have electrical contacts that are protected from the ingress of water by means of gaskets and compression nuts. Two partitions with openings are installed inside the case, some of which are intended only for transmitting a stream, and others for transmitting water and for installing lamps. The diameter of these holes is larger than the diameter of quartz cases (38 mm), so the cases are installed in the disc with a gap. At the outlet and inlet nozzles, taps are installed that are used to take water samples, to vent the air when filling the installation with water, and also to supply a washing solution. Water samples are taken at the inlet and outlet of the installation through the taps of 8 samplers to control bacteriological rapid analyzes, which determine the readiness of the installation for work. In case of contamination of quartz covers, the installation is filled with flushing solution through the corresponding taps 9. The dose of training 11 is monitored using a UV radiation intensity sensor located in the pipe 11 on the device body. The radiation dose is at least 16 mJ / cm.

Claims (1)

A device for treating water with ultraviolet (UV) radiation, containing a cylindrical body, the holes are made at the base, and inside there are transverse disk-shaped partitions with holes and UV lamps, enclosed in covers made of a material transparent to UV radiation, mounted parallel to the circumference of the holes bases and partitions, as well as inlet and outlet pipes connected to the housing, inversely located on the cylindrical surface of the housing, characterized in that in the center of the circle, formed by lamps, an additional UV lamp is installed, in the holes of the partitions the UV lamps are installed with a gap, additional holes are made in the partitions, and the inlet and outlet nozzles are equipped with taps.