RU71263U1 - DRAINAGE AND DISTRIBUTION DEVICE - Google Patents

Abstract

The utility model relates to the field of purification of liquids by filtration through bulk materials and can be used for all types of filters of chemical water treatment systems in the energy sector and other industries. The drainage-distributing device 1 is mounted in the lower part of the ion-exchange filter with an oval (elliptical) bottom 2 (the upper part of the filter is not shown conditionally, because it has the usual form for these types of filters). The drainage-distributing device 1 contains a central branch (outlet pipe) 3 to which two collectors 4 are mounted, made with kinks 5, so that the collectors repeat the curvature of the bottom 2. To each collector are attached pipe-beams 6. Pipe-beams 6 made with bends 7, repeating the curvature of the bottom 2. On the pipe-rays can be performed several bends 7, for more effective repetition of the curvature of the bottom 2. The pipe-rays 6 are directed in opposite directions from the collectors 4. The pipe-rays are provided with a plug shkami 8 located at their ends. The fastening of the collectors 4 to the central branch 3 and pipe-beams 6 to the collectors 4 can be performed by welding and / or flange connection. (3 ill.)

Description

The utility model relates to the field of purification of liquids by filtration through bulk materials and can be used for all types of filters of chemical water treatment systems in the energy sector and other industries.

A lower distribution device for water treatment filters is known, comprising a horizontal manifold attached to it along the side generatrix distribution pipes and connected to the pipes along the bottom forming drain caps by means of bushings. Drain cap bushings are made with a length increasing from the periphery to the center of the filter (see AS USSR N 1214150, IPC 4 V01D 24/42, 1986).

The disadvantage of this device is the limitation of the number of sleeves with drainage caps and lengths that are equidistant to the profile of the filter bottom in various sections, which can be simultaneously installed on the distribution pipes, and, therefore, a decrease in the density and uniformity of the filter layer, especially for ion-exchange filters with an oval-shaped bottom, which reduces filter performance.

Known drainage distribution device containing a collector and attached pipes with plugs at the ends. The holes were made in the pipes, which were closed by slotted elements located above the holes, in which the slots were made in the form of blinds (see AS USSR No. 1681889, IPC 5 В01D 24/38, 1991).

The disadvantage of this solution is the low efficiency of coverage of the backfill material, and, as a result, the appearance of stagnant zones and a decrease in the efficiency of liquid purification.

A drainage-distributing device of an ion-exchange filter is known, comprising an outlet pipe with collectors fixed to it, provided with beam distribution pipes, and cap filter elements attached to the distribution pipes by means of pipes having different lengths in which the beam

distribution pipes placed in the planes of the cross sections of the collectors at an angle to the axis of the collector (see RF patent No. 2137526, IPC 6 V01D 24/38, 1999)

The disadvantage of this device is the limitation of the number of sleeves with drainage caps and lengths that are equidistant to the profile of the filter bottom in various sections, which can be simultaneously installed on the distribution pipes, and, therefore, a decrease in the density and uniformity of the filter layer, especially for ion-exchange filters with an oval-shaped bottom, which reduces filter performance.

A drainage device of an ion-exchange filter is known, comprising an outlet pipe with a collector fixed to it, provided with beam steel drainage pipes located in the plane of the axis of the collector. At the same time, the surface of each drainage pipe has perforations in the form of holes along the entire length and a helical groove on which a steel profile wire is wound to form filter slots of a given size (see AS USSR N 253025, IPC B01D, 1969).

The disadvantage of this device is the low efficiency of coverage of the backfill material, and, as a result, the appearance of stagnant zones and a decrease in the efficiency of liquid purification, which does not allow for the efficient use of the entire volume of ion-exchange resin in ion-exchange filters with an oval or hemispherical shape of the bottom.

Known solutions for drainage distribution systems made in the form of a central branch with radial tubes-beams attached to it (see copies of advertising booklets of Trislot, Johnson screens, companies)

A disadvantage of the known solutions is the low efficiency of coverage of the backfill material, and, as a result, the appearance of stagnant zones and a decrease in the efficiency of liquid purification, which does not allow for the efficient use of the entire volume of ion-exchange resin in ion-exchange filters with an oval or hemispherical shape of the bottom.

A drainage-distributing device is known that is made in the form of an outlet pipe with radial radial tube-branches attached to it, having a bend in the central part, in which a transverse process is attached to the end of each second radial pipe-branch to increase the coverage area of the backfill material (see copy advertising

booklet of the company CON-SLOT, p. 10). This decision was made as a prototype.

However, such a change in design has the same drawback, namely, low efficiency of coverage of the backfill material, and, as a result, the appearance of stagnant zones and a decrease in the efficiency of liquid purification, which does not allow for the efficient use of the entire volume of ion-exchange resin in ion-exchange filters with oval or hemispherical bottom shape.

The problem solved by the utility model is to provide the most effective coverage of the bulk material, increase the operational characteristics of ion-exchange filters.

To achieve the task in the known drainage distribution device of the filter, made in the form of a central outlet with pipe-beams having an inflection, in accordance with a utility model, the device is equipped with collectors connected to the central outlet, made with inflections that repeat the curvature of the filter bottom, and the pipes -rays are connected to the collectors parallel to each other and directed in opposite directions.

The technical result from the use of the utility model is that the presence of collectors allows to seal the located pipe-rays, to increase their number, which leads to the most effective coverage of the backfill material.

In addition, the implementation of the collector and pipe-rays with kinks allows you to repeat the curvature of the bottom, which increases the length of the pipe-rays and also provides the most effective coverage of the backfill material, which leads to an increase in the operational characteristics of the filters.

Fastening the tube-rays to the collectors parallel to each other, placing them directed in opposite directions from the collectors, also allows you to provide the most effective coverage of the backfill material.

The implementation of several bends on the pipe-rays allows you to more effectively repeat the bottom curvature, especially if the drainage distribution device is used in a horizontal filter.

The invention is illustrated below using images:

figure 1 - General view of the drainage distribution device of the ion exchange filter

figure 2 - section aa in figure 1

figure 3 - section bB in figure 1.

The drainage-distributing device 1 is mounted in the lower part of the filter with an oval (elliptical) bottom 2 (the upper part of the filter is conditionally not shown, because it has the usual appearance for these types of filters). The drainage distribution device 1 comprises a central branch (outlet pipe) 3 to which two radially opposite directed collectors 4 are attached, made with kinks 5, so that each of the collectors repeats the curvature of the bottom 2. To each collector, parallel beam tubes are attached 6. The pipe-beams 6 are made with bends 7, repeating the curvature of the bottom 2. On the pipe-beams can be performed several bends 7, for a more effective repetition of the curvature of the bottom 2. The pipe-beams 6 are directed in opposite the sides of the collectors 4. The pipe-rays are equipped with plugs 8 located at their ends.

The fastening of the collectors 4 to the central branch 3 and pipe-beams 6 to the collectors 4 can be performed by welding and / or flange connection.

The collectors 4 and pipe-beams 6 with their lower part are supported by brackets 9 mounted on the bottom of the filter 2, which ensures the reliability of the device at high pressures supplied to the cleaning fluid.

The pipe-rays 6 can be made in the form of independent filter elements, or can be equipped with filter caps (not shown conditionally). If filtering (slotted) caps are used, then receiving holes (not shown conditionally) are preliminarily performed on the tube-pipes into which the filtering caps are installed.

The proposed drainage distribution device operates as follows.

The processed liquid (water) enters the inlet pipe of the upper part of the filter (not shown conditionally). Further, the liquid passes through a bed of backfill material, where it is cleaned of impurities, and then separated from the backfill material in filter elements (pipe-beams 6, made as filter elements, or in slotted caps (not shown conditionally) installed in pipe-beams 6) . Through these pipes-rays 6, the fluid enters the collectors 4, and then into the central outlet (outlet pipe) 3.

The implementation of the drainage distribution device with collectors and pipe-beams repeating the curvature of the filter bottom allows you to create a more dense filter field, equidistant to the profile, for example

oval, bottom of the filter, which increases the efficiency of using the volume of bulk material in the bottom of the filter.

The inventive drainage distribution device can be manufactured on standard equipment using known existing technologies and assembled using known devices at the installation site in the filter.

Claims (2)

1. The drainage distribution device of the ion-exchange filter, made in the form of a central outlet with pipe-beams having an inflection, characterized in that the device is equipped with collectors connected to the central outlet, made with inflections that repeat the curvature of the filter bottom, the pipe-beams are connected to the collectors in parallel to each other and directed in opposite directions. 2. The drainage distribution device according to claim 1, characterized in that the pipe-rays can be made with several bends.