RU22781U1 - DRINKING WATER TREATMENT DEVICE - Google Patents

Abstract

1. A device for treating drinking water, comprising a housing, a bactericidal lamp installed in it in a quartz case, a filter and a separation tube with holes in the lower part separating the housing into two coaxial chambers: disinfecting and filtering, inlet and outlet pipes, characterized in that the casing is divided into three parts: a working chamber, a distribution unit and a base, while a bactericidal lamp, a filter and a separation tube are placed in the working chamber, an inlet and outlet branch pipe in the distribution unit, and the base is based and - a unit for mounting the lamp, the inner surface of the separation tube is made polirovannoy.2. A device for treating drinking water according to claim 1, characterized in that the unit for installing the lamp contains a mounting sleeve, pressure rings and fixing nuts.

Description

DRINKING WATER TREATMENT DEVICE

The utility model relates to techniques for treating water, industrial or domestic wastewater, and in particular, to devices for disinfecting water by sources of bactericidal rays.

A known installation for disinfecting water, comprising a housing with inlet and outlet nozzles, a bactericidal lamp and an electrode of an electrochemical silver ionizer located in the stream of treated water passing through the cavity of the housing and connected to a current source. The unit is equipped with pressure, temperature and light sensors. The inner surface of the body is polished, reflecting the flow of radiant energy, the bactericidal lamp is enclosed in a quartz case and installed in the cavity of the body. The electrochemical silver ionizer is equipped with additional silver electrodes mounted in the lower part of the housing under the inlet pipe, tangentially fixed to the side surface of the housing. At the same time, one of the temperature sensors is located on the inlet pipe, and the second is in the installation case, the light sensor is installed at the viewing window made on the case, and the pressure sensor is placed in the case of the silver electrochemical ionizer (see patent application for invention No. 98111985 / 12, IPC C 02F 1/32, published on 04/20/2000).

In a known installation, water treatment is carried out only by irradiation with a bactericidal lamp. Due to the presence, in addition to the bactericidal lamp, electrodes of the electrochemical ionizer, the energy consumption increases, the complexity of the design with a low cleaning efficiency.

A device for bactericidal treatment of a liquid is known, including a power supply unit, a housing with inlet and outlet nozzles and end caps, and a fluid directing element placed in the housing, an MPA with 02F 1/32

a radiation suppressor installed along its axis, and a lamp module comprising n identical cylindrical bactericidal radiation lamps, each of which is enclosed in a quartz case. The module lamps are arranged uniformly around the axis at the same distance from it and are equipped with a common quartz case in the form of a cylinder. The radiation reflector, integral or prefabricated, is mounted coaxially with the housing and is made finned, having a cross section in the form of finite rays emanating from a common point and forming equal angles a 360 / p, where n is the number of lamps, or in the form of curves inscribed in these corners. In this case, the reflector ribs are oriented so that they divide the space around the axis of the lamp module by n equal to the angle of the aforementioned value, and the axis of each lamp is oriented parallel to the common axis of the module and lies in a plane passing through the bisector of the corresponding angle, the inlet and outlet nozzles are installed tangentially, and the end ones are made with holes for accommodating the lamp sockets and each of them is equipped with a protective casing with holes for the output of electrical wires connecting the lamps, connected in parallel with the power supply, Formation on the outer surface of the housing (see. X Russian patent 2027678, IPC C 02F 1/32, publ. 27.01.1995, at Bul. № 3).

A disadvantage of the known device is that the degree of water purification depends on the irradiation power with a stream of ultraviolet energy and to increase the efficiency of cleaning, an increase in energy consumption is necessary.

A device is also known comprising a replaceable cartridge for combined filtration and sterilization of water, comprising a filtration chamber having a base and a casing. The base contains a channel for the filtrate, which is removed through the hole, and a feed channel into which the feed stream enters through the hole. The chamber is equipped with a replaceable cartridge for combined filtration and sterilization, mounted in the casing in such a way that between the inner surface of the casing and the outer surface of the filter element is formed a feed chamber in contact with the feed channel of the base. The filtrate exiting the cartridge enters the channel for the filtrate and exits the device (see US Patent No. 5573666, IPC C02F 1/32, publ. 12.11.1996).

in the known design of the filtration device, the flow of the liquid being cleaned is supplied under pressure through the lower pipe into the internal cavity and passing through the cleaning filter is discharged through the lower discharge pipe. In this case, the liquid is exposed to radiation from a bactericidal lamp. When the fluid flow pressure is unstable, the radiation energy is used inefficiently, since the liquid being cleaned does not completely fill the volume of the working chamber. In this case, it is required to additionally control the inlet fluid pressure, and if it is low, increase the fluid supply pressure. In addition, a complete disassembly of the device is required to change the lamp and filter.

A disadvantage of the known design is the low efficiency of water treatment due to the incomplete use of the radiation energy of the lamp and the complexity of dismantling in the case of replacing the lamp and filter.

The closest technical solution to the claimed one, according to the set of essential features, is a water treatment device containing a housing, a bactericidal lamp installed in it in a quartz case, which is equipped with turbulators and a pipe for draining the ozone-air mixture, pipelines for supplying and discharging the treated water and a filter with loading of granular material, as well as a separation tube with holes in the lower part, dividing the housing into two coaxial chambers: disinfecting with a discharge located in it a tube connected to a pipe for discharging treated water; filtering, connected in its upper part with a pipe for draining the ozone-air mixture and a feed pipe located in it for supplying the treated water (see RF patent No. 2064439, IPC C 02F 1/32, publ. 07.27.1996).

A disadvantage of the known device is the complexity of the design, due to the availability of turbulators, and the complexity in the production of installation and dismantling works. In addition, when treating water, the radiant energy of the bactericidal lamp is not used enough, which reduces the efficiency of the treatment.

The objective of this utility model is to reduce the complexity of dismantling when changing the lamp and filter, due to the detachable design of the device body, as well as increasing the efficiency of water treatment, by creating

the optimal flow of water and the maximum penetration of radiation throughout the volume of treated water.

This object is achieved in that in a device for treating drinking water containing a housing, a bactericidal lamp mounted in it in a quartz case, a filter and a separation tube with holes in the lower part separating the housing into two coaxial chambers: disinfecting and filtering, inlet and outlet pipes , according to a utility model, the housing is divided into three parts: a working chamber, a distribution unit and a base, while a bactericidal lamp, a filter and a separation tube are placed in the working chamber in the distribution evil - inlet and outlet port, and at the bottom - a unit for mounting the lamp, the inner surface of the separation tube is made highly polished.

In addition, the lamp mounting assembly includes a mounting sleeve, pressure rings, and fixing nuts.

The utility model is illustrated by a drawing, which shows a General view of a device for the treatment of drinking water, a cross section. The positions in the drawing indicate the following: 1 - working chamber; 2 - distribution unit; 3 - base; 4 - bactericidal lamp; 5 - quartz case; 6 - filter; 7 - separation tube; 8 - holes on the separation tube 7; 9 - a disinfecting chamber; 10 - filtering chamber; 11 - inlet pipe; 12 outlet pipe; 13 - mounting sleeve; 14 - clamping rings; 15 - fixing nuts.

A device for treating drinking water contains a housing divided into three parts: a working chamber 1, a distribution unit 2 and a base 3. In the working chamber 1 there is a bactericidal lamp 4 with a quartz cover 5, a filter 6 and a separation tube 7 with holes 8 made in it lower part. The inner surface of the separation tube 7 is polished. The separation tube 7 is installed between the quartz cover 5 of the bactericidal lamp 4 and the filter 6, dividing the working chamber 1 into two coaxial chambers - disinfecting 9 and filtering 10. Inlet 2 and inlet 12 are placed in the distribution unit 2. At the base of 3 sizes IjGOf

There is a unit for installing a lamp, comprising a mounting sleeve 13, clamping rings 14 and fixing nuts 15.

A device for the treatment of drinking water works as follows.

At the inlet pipe 11 of the distribution unit 2, a stream of water enters the filter 10 of the housing chamber and passes through an ion exchange filter 6 and a separation tube 7 with holes 8 into the radiation treatment chamber with an ultraviolet lamp 4. The ion exchange filter 6 provides water purification, and the separation tube 7 promotes the formation of a turbulent flow of water in the processing chamber by radiation with an ultraviolet lamp 4. In the filtering process, several processes occur in parallel: intense mass exchange n, biosorption and ionnoobmen. When water moves through filter 6, there is a partial oxidation and sorption of dissolved substances, as well as ion-exchange extraction of nitrates, pesticides and salts of heavy metals.

The inner surface of the separation tube 7 with holes 8 is polished, which provides a reflective effect for ultraviolet rays, which, passing through the treated water, reflected from the inner surface of the tube 7, are returned to the water. This achieves a more complete use of the radiation of the ultraviolet lamp 4. Thus, the separation tube 7 with holes 8 with a polished inner surface creates an effective flow pattern and contributes to the maximum penetration of radiation throughout the volume of the treated water.

To change the ultraviolet lamp 4, you must turn off the power, remove the cover and disconnect the connector. Then unscrew the fixing nuts 15, remove the clamping rings 14, and remove the mounting sleeve 13 with the germicidal lamp 4. Insert the new bactericidal lamp with the base into the mounting sleeve 13, insert it into the housing, insert the rings 14 and tighten the nuts 15.

To change the filter 6, it is enough to unscrew the distribution unit 2 and make a replacement.

l & u / r V.

Claims (2)

1. A device for treating drinking water, comprising a housing, a bactericidal lamp installed in it in a quartz case, a filter and a separation tube with holes in the lower part separating the housing into two coaxial chambers: disinfecting and filtering, inlet and outlet pipes, characterized in that the casing is divided into three parts: a working chamber, a distribution unit and a base, while a bactericidal lamp, a filter and a separation tube are placed in the working chamber, an inlet and outlet branch pipe in the distribution unit, and the base is based and - a unit for mounting the lamp, the inner surface of the separation tube is made highly polished. 2. The device for processing drinking water according to claim 1, characterized in that the unit for installing the lamp contains a mounting sleeve, clamping rings and fixing nuts.