RU54810U1 - FILTER FOR PURIFICATION OF DRINKING WATER - Google Patents

Abstract

The filter for drinking water purification refers to filters for drinking water and can be used for its purification in domestic conditions. To improve the quality of water treatment, as well as improve the technical and operational qualities of the filter, it contains a housing 1 with openings 2 and 3 for supplying the source and discharge of filtered water, respectively. Inside the housing 1 there is a filter load 4 of filter materials in the form of layers 5 and 6 separated by a gravel layer 7. The lower layer 6 is made of modified zeolite (zeopagus), and the upper layer 5 is made of activated carbon with developed mesopores. In the center of the housing 1, a vertical water pipe 8 is installed, around which the upper 5 and lower 6 layers of the filter load 4 are arranged sequentially and, between them, there is a separating gravel layer 7. The lower part of the vertical water pipe 8 made in the form of a switchgear 9 is equipped with a grid 10 and has a larger diameter than the vertical water pipe 8. The upper part of the housing 1 is made in the form of a hollow cap 11 with an inlet fitting 12 and an outlet fitting 13 connected to the nozzles 14 and 15 for supplying the outcome oh water and filtrate, respectively. 1 main F-ts, 5 ext. f-ts f-ly, 2 ill.

Description

The utility model relates to filters for the purification of drinking water and can be used to purify drinking water in a domestic environment.

A known filter for drinking water purification, containing a hermetically connected together a lid with an inlet, filter sections, consisting of filter bags made in the form of a set of washers mounted on a perforated pipe and placed between two compression washers, and a funnel with an outlet ribs are made on the inner cover, the lower part of which is mounted in the divider in the form of a flat round plate placed symmetrically to the filter axis above the grill installed in the filter section housing, with with radial ribs, between the ends of which there is a plug that interacts with an upper compression washer connected by a perforated pipe with the possibility of interaction with a set of washers of filter bags made of fibrous material (see RF Patent No. 2055631, class B 01 D 25/26 op 1996.03 .10),

A disadvantage of the known device is the high cost and low quality of water treatment, reliability, and performance.

These disadvantages are due to the design features of the known device, which require frequent changes in the set of filter bag washers, since the latter are not subject to washing and further use, in addition, to filter the drinking liquid, you need to create a certain

the compression force of the washers, since insufficient compression force of the washers will not give high-quality water purification, and the compression force of the washers above the permissible does not give optimal performance and reduces the service life of the filter packs of washers.

It is also known a device for purifying drinking water from radionuclides and harmful chemical elements, containing a frame, a filter element, inlet and outlet fittings (RF Patent No. 2088300, CL B 01 D 24/10 op. 1997.08.27), and the filter element is made in two stages , in the form of U-shaped blocks filled with filtering and sorbing material, mounted on top of each other and interconnected by nozzles, while the inlet fitting is connected to the lower U-shaped block making up the first stage, and filled with filtering material scrap, and the outlet fitting to the upper U-shaped block, comprising the second stage, and filled with sorbent material.

A disadvantage of the known device for treating drinking water is its low quality, performance and reliability in the domestic environment.

These disadvantages are due to the design features of the known device.

The closest in technical essence and the achieved result to the claimed utility model is a device for cleaning and conditioning water, containing an insert with holes for supplying and draining water and placed inside the insert in series layers of crushed mineral, which are made of schungite or dolomite of different thicknesses and particle sizes from 0.03 to 3 mm, and the first layer in the direction of movement of water has a thickness and particle sizes in it from 3x to 8 and times less than the thickness and particle size in it in the second

the motion of the water layer. (see RF Patent No. 2135258, class B 01 D 24/04, op. 1999.08.27).

A disadvantage of the known installation is the low quality of water treatment and low operational and technical qualities.

These disadvantages are due to the fact that in the known device, filters made of successive layers of crushed minerals of schungite or dolomite of different thicknesses and different particle sizes do not give effective adsorption of organic substances, as well as disinfection of water.

The technical result of the claimed utility model is to improve the quality of water treatment, as well as improving the technical and operational qualities.

The technical result is achieved by the fact that in the known filter for drinking water purification, comprising a housing with holes for supplying the source and draining the filtered water and sequentially placed inside the housing layers of the filter load from the crushed material, according to the utility model, the housing is made with a vertical water pipe around which are arranged in series layers of the filter load from the crushed filter material, and is equipped with inlet and outlet fittings associated with the nozzles for supplying the source water and the filtrate, respectively, moreover, the filter load is made of two layers, the lower of which is made of modified zeolite, and the upper is made of activated carbon, while the layers are separated by a separation layer, with a vertical water-lifting pipe installed in the center of the housing and the inlet and outlet fittings are located in the upper part of the housing, while the separation layer is made of gravel, and each of the layers

filter loading is made at a height equal to at least 1/3 of the height of the housing, and the lower part of the vertical water-lifting pipe is made in the form of a switchgear, with a larger diameter than the mentioned pipe, and is equipped with a mesh.

Between the distinguishing features and the achieved technical result, there is the following causal relationship.

Unlike analogs and prototypes, the design of the inventive filter in the form of a housing equipped with inlet and outlet fittings associated with nozzles for supplying source water and a filtrate made with a vertical water-lifting pipe, around which layers of the filter load from the ground filter material are arranged in series, allows selection purified water and the supply of untreated water in one unit, which can be easily replaced in case of failure, in addition, the pipelines for supplying and discharging water are found are on the same level, which is very convenient during the repair and operation of the inventive filter. Thus, the claimed utility model "Filter for drinking water purification" has improved operational and technical qualities, compared with similar objects and the prototype. This confirms that when the filter load is contaminated, it is very easy to clean it by regeneration with countercurrent water, which eliminates additional disassembly of the filter, does not require much time and special equipment. The implementation of the filter load of two layers, the lower of which is made of modified zeolite, and the upper is made of activated carbon, separated by a separating layer of gravel, can improve the quality

purification of water of the inventive household filter since, due to the adsorption of organics, due to the layer-by-layer distribution of the loads with the predominance of meso and micropores, improved characteristics of purified water are obtained. The upper layer of the filter media from activated carbon with developed mesopores allows you to clean the processed water passing through it from suspended particles, chlorine, organochlorine compounds, phenol and high molecular weight organics. The drainage layer in the form of gravel prevents the mixing of the loads, which not only increases the working life of the lower layer of the filtering load from the modified zeolite, but also generally increases the durability of the filter, increasing its technical and operational qualities. After the second lower filter layer made of modified zeolite, which acts as a "molecular sieve", since it has a biocidal effect, adsorption and filtration of low molecular weight organic compounds and water disinfection already occur. Thus, the purified water, passing through two stages of filtration, just such a filter load proposed by the applicant, is of high quality with a relatively simple filter design.

An analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identifying sources containing information about analogues of the claimed utility model, made it possible to establish that the applicant did not find an analogue characterized by features identical to those of the claimed utility model “Filter for drinking water water ”, and the definition from the list of identified analogues of the prototype, as the closest in terms of characteristics

analogue, allowed to identify a set of essential in relation to the perceived by the applicant the technical result of the distinguishing features in the claimed object, set forth in the utility model formula.

Therefore, the claimed utility model meets the criterion of "novelty," according to current legislation.

The set of essential features characterizing the essence of the claimed utility model “Filter for drinking water purification” can be repeatedly used in the production and use of similar filters for drinking water purification to obtain a technical result consisting in improving the technical and operational qualities of the filter when filtering drinking water, which allows conclusion on the compliance of the claimed utility model with the criterion of "industrial applicability".

The essence of the claimed utility model is illustrated by an example of a specific implementation, where:

- figure 1 shows a diagram of a filter for treating drinking water during filtration;

- figure 2 shows a diagram of a filter for treating drinking water during the regeneration of filter media.

The filter for drinking water purification, contains a cylindrical housing 1 with holes 2 and 3 for supplying the source and discharge of filtered water, respectively. Inside the housing 1 there is a filter load 4 of crushed filter materials in the form of sequentially arranged, top to bottom layers 5 and 6 separated by a separating gravel layer 7. The lower layer 6 of the filter load is made of modified zeolite (zeopag), and the upper layer 5 of the filter load 4 is made from activated carbon

with developed mesopores, and both layers 5 and 6 are separated by a separation layer 7 of coarse gravel. The height of the separation layer 7 is equal to 1/10 of the height of any filter layer 5 or 6. In the center of the housing 1 there is a vertical water lift pipe 8, around which the upper 5 and lower 6 layers of the filter load 4 are arranged sequentially and, between them, a separation gravel layer 7 is located. Made in the form of a distribution device 9, the lower part of the vertical water pipe 8 is equipped with a grid 10 and has a larger diameter than the vertical water pipe 8. The upper part of the housing 1 is made in the form of a hollow cap 11 with an inlet Utsera 12 and outlet fitting 13 connected with nozzles 14 and 15 for supplying raw water and filtrate, respectively. Each of the upper and lower filter layers 5 and 6 layers of the filter load 4 is made at a height equal to 1/3 of the height of the housing 1.

The filter for drinking water purification works both in the water filtration system and in the regeneration system - washing filter loads.

The source water to be treated (cleaned) passes through the inlet 12 and enters through the nozzle 14 into the filter housing 1, to the upper layer 5 of the filter load 4, made of activated carbon with developed mesopores. The treated water, passing through the upper filter layer 5 of activated carbon with developed mesopores, is purified from suspended particles, chlorine, organochlorine compounds, phenol and high molecular weight organics. Then the water passes through a separation layer 7 made of coarse gravel, which fixes the filter layer 6 located below with a filter load 4 of modified zeolite.

Separation layer 7 made of coarse gravel also prevents mixing of the filter layers 5 and 6 during regenerative washing of the filter. Next, pre-purified water passes through a second filter layer of a modified zeolite (zeopag), which, given the fact that it has a biocidal effect, and disinfects the water in contact with it, i.e. performs the role of a "molecular sieve" in which the adsorption and filtration of low molecular weight organic compounds and the disinfection of water, previously purified from suspended particles, chlorine, organochlorine compounds, phenol and high molecular weight organics, are disinfected. Purified drinking water through a switchgear 9, equipped with a grid 10 along a vertical water pipe 8 rises to the upper part of the housing and then through the pipe 15 through the outlet 13 is sent to the drive or directly to the consumer.

The regeneration of the filter for the purification of drinking water is as follows. The raw water through the outlet fitting 13 through the pipe 15 is fed under pressure into a vertical water pipe 8 and, getting into the switchgear 9, enters the lower layers of the filter layer 6 from a modified zeolite. Rising along the filter housing 1, the water begins to wash the filter load of the lower filter layer 6 of the modified zeolite, and then, rising higher, rinses the filter load of the upper filter layer 5 of activated carbon with developed mesopores. After regeneration, you can rinse the filter with filtered water and re-enable the filter in the work on the purification of drinking water

The use of the present utility model “Filter for drinking water purification” made it possible to improve the quality of water purification, by increasing the efficiency of adsorption of organic compounds and disinfecting reliability during filtration of drinking water, as well as operational and technical qualities.

Claims (6)

1. A filter for drinking water purification, comprising a housing with holes for supplying the source and draining filtered water and successively placed layers of a filter load from the crushed material inside the housing, characterized in that the housing is made with a vertical water pipe, around which layers of the filter load are arranged in series crushed filter material, and is equipped with inlet and outlet fittings associated with nozzles for supplying source water and filtrate, respectively, moreover, filtering I loading is made of two layers, the lower of which is made of modified zeolite, and the upper is made of activated carbon, while the layers are separated by a separation layer. 2. The filter for drinking water purification according to claim 1, characterized in that the vertical water pipe is installed in the center of the housing. 3. The filter for drinking water purification according to claim 1, characterized in that the inlet and outlet fittings are located in the upper part of the housing. 4. The filter for drinking water purification according to claim 3, characterized in that the separation layer is made of gravel 5. The filter for drinking water purification according to claim 1, characterized in that each of the layers of the filter load is made at a height equal to at least 1/3 of the height of the housing. 6. The filter for drinking water purification according to claim 1, characterized in that the lower part of the vertical water-lifting pipe is made in the form of a switchgear, with a larger diameter than the pipe, and is equipped with a mesh.