RU30617U1 - Liquid filter - Google Patents

Description

Filter for cleaning liquids.

The utility model relates to filters intended for mechanical or ion-exchange liquid purification with bulk filtering material (granular loading), and can be used in all industries where liquid purification is required.

A filtration device is known that comprises a housing, a piping system and partitions installed inside the housing with filter caps and filter material placed between the partitions (see the certificate on the Russian metro line No. 23786, IPC 7 V 01 D 24/04, 2002 .).

The disadvantage of this solution is the presence of "dead zones formed between the filter caps and the surface of the septum and impair the regeneration of the filter material. As well as the short service life of the filter caps, since part of the filter caps protruding above the surface of the dividing board is destroyed under the influence of a granular load. When washing a granular load, the washing liquid supplied under pressure, leaving the protruding part of the adjacent filter caps, raises the granular load and strikes it with the corresponding floating parts of the adjacent filter caps, which causes damage to the surface of the filter caps.

A filter for cleaning liquid is known, comprising a housing with a bottom, at least one intermediate bottom with a granular load located on it and drainage elements fixed in it with an upper perforated part and a lower part connected to the pipe (see.with.

g o o 3 1 o o 3 5

IPC 7 V 01 D 24/42

USSR No. 1282385, IPC 6 01 D 24/38, 05/15/1985) This decision was made as a prototype.

The disadvantage of the prototype is the presence of "dead zones formed in the granular charge between the drainage elements on the surface of the intermediate bottom and worsen the regeneration of the granular charge. “The dead zones are formed due to the fact that the direction of flow of the washing liquid when leaving the perforated part of the drainage elements is almost vertical and the zones located between the drainage elements are not washed. Due to which, the quality of washing and regeneration of the granular load is deteriorating.

The problem solved by the utility model is to minimize dead zones formed between the drainage elements and the surface of the intermediate bottom and worsen the quality of regeneration and washing of the granular load, and also to eliminate damage to the surface of the drainage elements by the granular load when it is loosened during washing and regeneration.

The problem is solved due to the fact that in the known filter for cleaning liquid containing a housing with a bottom, at least one intermediate bottom with a granular load located on it and drainage elements fixed to its openings with an upper perforated part and a lower part connected to according to the utility model, the upper perforated part of the drainage elements is made in the form of a truncated cone, and a recess corresponding to the shape is made over each hole in the intermediate bottom the lower part of the drainage element, so that the drainage elements with their lower part are recessed in the said recess.

) 0 The intermediate bottom is located so that the perforated part

drainage elements facing up the housing.

The intermediate bottom is located so that the perforated part of the drainage elements faces down the housing.

Comparison of the claimed technical solution with the prior art in scientific, technical and patent documentation at the priority date in the main and related sections shows that the set of essential features of the claimed solution was not previously known, therefore, it meets the patentability condition of novelty.

The proposed solution is applicable, workable, and feasible, because can be manufactured using well-known filter manufacturing and assembly technologies both in mass production and in small batches, and used to purify liquids in any industries, therefore, it meets the patentability condition “industrial applicability.

FIG. 1 - filter;

FIG. 2 - intermediate bottom with drainage elements (view 1 of Fig. 1)

FIG. 3-drainage element (view 1 of Fig. 2).

The filter consists of a housing 1 with upper and lower bottoms 2, 3, respectively. A switchgear 4 is installed in the upper part of the casing 1. An intermediate bottom 5 is installed in the lower part of the casing 1. An intermediate bottom 5 can be installed at the top of the casing, or several can be installed at once, when one intermediate bottom is located under another. In the intermediate day 5, holes 6 are made in which the drainage elements 7 are installed and fixed with the upper perforated part 8 and the lower part 9 connected to the nozzle 10. The lower edge of the perforated part 8 is rolled into the upper edge of the lower part 9. Both parts, 8 and 9 have

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truncated cone shape. However, the lower part 9 may also be cylindrical in shape. A recess 11 is made over each hole 6 in the intermediate day 5, the shape of which corresponds to the shape of the lower part 9 of the drainage element 7. Thus, the lower part 9 of the drainage element 7 is buried in the recess 11 of the intermediate bottom 5 and only the perforated part 8 protrudes above the surface of the latter. the intermediate bottom 5 is a layer of granular load 12. The intermediate bottom can be installed so that the perforated part 8 of the drainage elements 7 will face up to the housing 1, or can be rotated so that rforirovannaya portion 8 of drainage elements 7 will be facing towards the lower bottom 3 of the housing 1. As the drainage elements 7 can be used, e.g., slotted caps.

The filter housing 1 is equipped with nozzles 13 for supplying washing water and draining the filtered liquid and 14 for supplying cleaned and draining the washing water.

The filter works as follows. The liquid to be cleaned is supplied through the pipe 14 to the filter housing and, with the help of a distributor 4, is distributed over the entire cross section. Next, the water enters the layer of the granular charge 12, where it is purified from both mechanical insoluble and soluble impurities, passes through the perforated part 8 of the drainage elements 7 and is discharged through the nozzle 13. When filtering the liquid, the granular load layer is gradually saturated with impurities, and the filtration process becomes ineffective. Therefore, regular washing and regeneration of the granular charge is carried out. Why through the pipe 13 under high pressure flushing fluid is supplied.

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which, leaving the protruding perforated part of the drainage elements 7, raises the granular load 12, loosens, cleans and regenerates it.

Due to the fact that a recess 11 is made over each hole 6 in the intermediate day 5, corresponding in shape to the lower part 9 of the drainage element 7, the lower part 9 of the drainage elements is buried in it and only the perforated part 8 protrudes above the surface of the intermediate bottom 5. Thus, the destruction of the lower part of the 9 drainage elements during washing is prevented by granular loading.

Since the perforated portion 8 is made in the form of a truncated cone, such an arrangement of the drainage elements on the intermediate bottom 5 allows the wash liquid flow to cover a large area “B in the processing of the granular load, decreasing” the dead zones of washing (see FIG. 3). In addition, this embodiment of the perforated part 8 allows to increase the service life of the drainage elements, because granular load 12, lifted by water, falls on adjacent perforated parts of the drainage elements casually, and thus, the degree of damage is reduced.

The filter can be manufactured both in mass production and in small batches using well-known manufacturing and assembly technologies.

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Claims (3)

1. A filter for cleaning liquids, comprising a housing with a bottom, at least one intermediate bottom with a granular charge located on it and drainage elements fixed in its openings with an upper perforated part and a lower part connected to the nozzle, characterized in that the perforated part of the drainage elements is made in the form of a truncated cone, and a recess corresponding to the shape of the lower part of the drainage element is made over each hole in the intermediate bottom, so that the drainage elements of their lower part recessed in the recesses mentioned. 2. The filter for cleaning liquids according to claim 1, characterized in that the intermediate bottom is located so that the perforated part of the drainage elements faces upwards of the housing. 3. The filter for cleaning liquids according to claim 1, characterized in that the intermediate bottom is located so that the perforated part of the drainage elements faces down the housing.