RU72969U1 - WATER TREATMENT DEVICE - Google Patents

Abstract

The device for water purification is intended for purification of groundwater from iron in drinking water supply systems. An inlet switchgear 2, located at the inlet of the filter above the filtering material, a speed damper 3, located between the switchgear 2 and the filtering device, are introduced into a device including a filter 1 and a system of technological pipes with shut-off and regulating devices for transferring the filter from the filtering mode to the washing mode material, as the filter material 5 is used albitofir, and the drainage system 6 is equipped with an output switchgear 4 containing perforations nnye tubular elements whose inputs and outputs are connected with the output device 4. 4-yl.

Description

The utility model relates to the field of water purification and is intended for the purification of groundwater from iron and other impurities in drinking water supply systems.

A device for water purification according to the patent for the invention of the Russian Federation No. 2201901, MKI C02F 1/64, publ. 2003.04.10, containing a filter and a system of technological pipes with shut-off and regulating devices for transferring the filter from the filtering mode (water purification) to the washing mode, an air supply device, a drainage device located in the filter housing filter material made of layers of ion-exchange resin and quartz sand. The disadvantage of this device is the low filter performance due to increasing resistance to the flow of purified water due to siltation of the fine filter material, the complexity of washing the fine filter material, the high flow rate of the wash water, and a long regeneration period.

The closest to the claimed is a device for water purification according to the patent of the Russian Federation for utility model No. 65886, MKI C02F 1/64, published August 27, 2007, containing a filter and a system of process pipes with shut-off and regulating devices for transferring the filter from filtering mode to flushing, a reflecting screen located at the inlet of the filter above the filter material, a drainage system equipped with an output switchgear with perforated elements connected to the outlet of the filter. located in the filter housing Albitofir.

The device provides a high degree of water purification, but according to its design, it is intended for cleaning in one cycle no more than 16 m ³ / hour.

The objective of the present utility model is to increase the volume of water purified in one cycle, which is ensured with a larger filter volume by increasing the speed of water treatment by increasing the aeration intensity, reducing the cost of cleaning large volumes of water, by reducing the complexity of the installation and maintenance of one device with a capacity of up to 200 m ³ / h., increased service life.

According to the utility model, the problem is solved in a water purification device comprising a filter and a system of technological pipes with shut-off and regulating devices for transferring the filter from the filtering mode to the washing mode, the filtering material located in the filter housing, a drainage system including a device with perforated elements associated with the output of the filter, due to the fact that the device is equipped with an input switchgear associated with the input of the filter and located above the filter it with a material, a speed damper located between the inlet switchgear and the filtering material, while the inlet switchgear is made in the form of a closed system consisting of tubular elements with perforation, the combined input of which is the input of the switchgear, the speed damper consists of tubular elements located in layers, and the tubular elements in the plane of each layer are located at an angle relative to the tubular elements in the plane of the adjacent layer, s and outputs the perforated tubular elements drainage system output distribution device connected to its output. Tubular perforated elements of the device can be made of polyethylene or polypropylene. As the filter material can be used alibitofir.

The implementation of the input switchgear in the form of a closed system of tubular elements allows you to distribute the flow of water entering the inlet of the filter through the tubular elements throughout the cross section of the filter. The presence of perforation creates a uniform rain flow.

When performing tubular elements with perforation in the upper part, water flowing out of the switchgear flows around the tubular elements, increasing the path to the filter material, increasing the aeration intensity.

The presence of a speed damper provides additional aeration of the treated water and its uniform distribution over the surface of the filter material.

Equipping the device for water purification in the drainage system with an outlet switchgear, the inputs and outputs of the perforated tubular elements of which are connected with its outlet, ensures uniform distribution of water throughout the filter volume in the cleaning and regeneration mode, preventing the occurrence of water stagnation sections, sediment compaction sections, and increases the speed filter regeneration.

The implementation of the tubular elements of the water purification device from non-corrosive materials, for example, polyethylene or polypropylene pipes, allows to increase the life of the purification device without stopping for repairs.

Figure 1 shows the inventive device.

Figure 2 - input switchgear.

Figure 3 - speed damper

Figure 4 - output switchgear.

The device includes a filter 1, an input switchgear 2, a speed damper 3, an output switchgear 4 of the drainage system 6, located in the supporting layer of albitofire with a grain size of 15-20 mm, filter material 5, which is used albitofir with a grain size of 5-10 mm, a system of technological pipes with locking and regulating devices 9, comprising a source water supply pipe with valves 12, 13, a purified water pipe with a valve 15, a pipe for sludge discharge into a sewer with a valve 14, entili air under pressure 10, 11. The apparatus is provided with a cover 8 with a ventilation system 7.

A device for water purification works as follows. The water to be cleaned from an underground source (well) under pressure from a downhole pump is piped to a water treatment device. When valve 12 is open and valve 13 is closed, water enters the filter 1, being saturated with air oxygen supplied, for example, from a compressor (not shown in the drawings) with valve open 11. The use of a compressor allows not only to saturate the water with oxygen, but also to intensify the filter regeneration process, providing deep washing of the filter material, carrying it out under the pressure of a stream of water.

Getting into the inlet switchgear 2, which is connected to the inlet of the filter, the water is distributed over its internal cross-section, leaves the device through the perforated holes of the tubular elements, flowing around them, and in the form of rain jets falls on the speed damper 3. In the damper 3, the flow velocity

water slows down. There is additional oxygen saturation of the water, the intensity of the exhaust air through the ventilation system 7 of the cover 8 is increased. From the quencher 3, oxygen-saturated water falls on the surface of the filter material 5, which can be used as an albitofir with a fraction size of 5-10 mm. Evenly spreading over the entire area, water passes through a layer of filter material and is cleaned of iron by aeration. Particles of iron formations that are in water adhere to larger grains of filtering material 5, forming a film consisting of iron bacteria using ferrous iron as a source of energy for their life, oxidizing a large number of ferrous compounds. Ferrous iron, being oxidized, turns into ferric iron, which settles on the surface of albitofire grains, being separated from water. The fraction of albitofire becomes porous, which allows to retain sludge, sand, turbidity, contributing to additional water purification. The purified water enters the outlet switchgear 4 and with the valve 15 open, is supplied to the consumer from the filter outlet. In this case, the valves 13, 14 are closed. To put the filter into regeneration (flushing) mode, close the valves 12, 15, at the same time open the valves 13, 14, valve 10 air supply. The filter material is washed with a reverse flow of feed water under pressure removed from the filter into the sewer. The perforated tubes of the outlet switchgear 4, occupying the entire cross-sectional area of the filter, allow water to be distributed evenly throughout the filter in the cleaning and regeneration mode, preventing water stagnation in the filter.

The proposed design of the utility model is intended for water purification with a chemical composition of iron up to 10 mg / l, relates to non-reagent water purification devices, reliable, simple, has a capacity of up to 200 m ³ / hour. The device provides fast filter regeneration with a low flow rate of washing water, does not require consumables during operation, has a high service life due to the use of non-corrosive materials (at least 20 years).

Claims (4)

1. A device for water purification, including a filter and a system of technological pipes with shut-off and regulating devices for transferring the filter from the filtering mode to the washing mode, filtering material located in the filter housing, an output switchgear with perforated tubular elements placed in the drainage system and connected with an output of the filter, characterized in that the device is equipped with an input distribution device located in the filter housing associated with the input of the filter and laid over the filter material, and a speed damper located between the inlet switchgear and the filter material, while the inlet switchgear is made in the form of a closed system consisting of tubular elements with perforation, the combined input of which is the input of the switchgear, the speed damper consists of tubular elements located in layers, and the tubular elements in the plane of each layer are located at an angle relative to the tubular elements in the plane STI adjacent layer, the inputs and outputs of perforated tubular elements drainage system output distribution device connected to its output. 2. The device for water purification according to claim 1, characterized in that albitofir is used as a filter material. 3. The device for water purification according to claim 1, characterized in that the tubular elements of the input distribution device are made with perforation in the upper part. 4. The device for water purification according to claim 1, characterized in that the tubular elements are made of non-corrosive materials, for example, polyethylene or polypropylene.