RU2445145C2 - Fluid cleaning filter - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to filtration and may be used for cleaning fluids with inclusions of fibrous structures, for example, cattle-breeding complex effluents used for irrigation of agricultural lands. Proposed filter comprises filtration element made up of perforated barrel with tubular elements made in barrel holes and furnished with tips made from elastic material, for example, rubber, and provided with lengthwise cutouts and annular grooves accommodating ring springs.

EFFECT: higher reliability and quality, expanded applications.

3 dwg

Description

The invention relates to filtering, and in particular to a liquid purification technique, and is intended for liquid purification with inclusions of fibrous structures, for example, livestock runoff complexes of cattle and pig farms used for irrigation of agricultural land.

A known filter for water purification, comprising a housing with inlet and outlet openings, a rotary perforated filter element mounted in the housing, and an impurity capture chamber [1].

A disadvantage of the known filter is that in order to achieve effective operation it is made rotating, which requires the installation of an additional drive, i.e. additional energy costs. In addition, the openings (perforation) of the mesh filter element are clogged with long-fiber impurities, for example, residues of feed entering livestock runoff. As a result, the reliability of the filter is reduced.

Also known is a filter for cleaning liquids containing a filter element [2].

In the known filter for the regeneration of the filtering elements, a special device is used, made in the form of a rotational motion of a shaft connected to the drive connected to a movable filtering element, which makes the process of cleaning the filtering elements from fibrous inclusions time-consuming.

In addition, the use of rods as filter elements (like grids for filtering liquids) with inclusions of fibrous structures does not give the desired effect, since the rods are interwoven with fibrous structures, which cannot be completely removed by rotating the movable filter element due to an increase in the distance between the rods, complete removal (slice, stall) is not observed, because plant structures soaked in water, adhering to stationary filter elements, turn the moving filter elements elements only rumpled. Therefore, it is possible that the filtered residue gets into the pump cavity and further into the irrigation network.

Also known is a filter for cleaning liquids, made in the form of a perforated glass with tubular elements made in the form of a single tube or bundle of tubes placed in the openings of the glass, while the ratio of the height of the tubular element to its inner diameter is more than three [3].

The filter for cleaning liquids contains an outlet pipe, a transition element and a filter element made in the form of a perforated cup with tubular elements placed evenly over the entire surface of the filter element. The filter is mounted on the suction line and placed in a manure storage.

Using floats, the filter is held in the middle layers of the manure storage, in which the liquid is most prepared in structure for use for irrigation. When creating a vacuum in the filter element, the liquid, filtered, passes through the tubes or bundles of tubes of the tubular element and enters the inside of the filter element and then through the outlet to the consumer. After a certain period of time, the filter from the outlet pipe is flushed with a reverse fluid flow. To do this, the liquid is supplied under overpressure. Various fibrous structures adhering to the tubular elements are washed away and, due to compaction, settle to the bottom of the manure storage.

During operation, the filter tubes are clogged with solid impurities and fibrous structures. A part of the filter tubes clogged with solid impurities and fibrous structures is not cleaned by the liquid in the reverse flow from the suction pipe.

A disadvantage of the known filter for cleaning liquids is that the cross-sectional size of the filter tubes during irrigation of agricultural land and during regeneration of the filter element by backwashing does not change.

As a result, the reliability of the filter element decreases

In addition, the quantity and size of suspended particles and mechanical impurities contained in treated wastewater and prepared livestock runoff must comply with the technical requirements of pumps, pipelines and irrigation equipment.

The content of suspended solids in prepared livestock runoff from cattle complexes should be no more than 4%, pig farms - no more than 2%. They should not contain solid and long-fiber inclusions larger than 10 mm, and when using sprinkler machines with a hydraulic drive, more than 2 mm [4].

When watering cattle-breeding complexes of cattle for irrigation is switched to pig-breeding drains, it is necessary to change the filter element.

When transferring irrigation with hydraulic sprinklers to electric machines, it is necessary to change the filter for cleaning the liquid, which has tubes with a cross section of a different size.

As a result, the scope and versatility of the filter for cleaning liquids is reduced.

The purpose of the invention is to increase the reliability and quality of liquid purification, for example, livestock waste from solid and fibrous structures, increasing the scope and versatility of the filter for cleaning liquids.

This goal is achieved by the fact that the filter for cleaning liquids, for example, livestock waste complexes of cattle and pig farms from solid impurities and fibrous structures, contains a filter element made in the form of a perforated glass with tubular elements placed in the holes of the glass, and the tubular elements are made with tips made of an elastic material, for example rubber, having longitudinal cuts and annular grooves in which annular springs are mounted.

Comparative analysis with the prototype shows that the claimed filter for cleaning liquids, such as livestock waste from solid impurities and fibrous structures, meets the criterion of "Novelty", as it differs from the prototype.

1. The tubular elements are made with tips of an elastic material, such as rubber.

2. Tips made of elastic material, in addition to internal holes, have longitudinal sections.

3. The tips of the tubular elements having internal holes and longitudinal sections are made with annular grooves.

4. In the annular grooves of the tips made with internal holes and longitudinal sections, ring springs are installed.

5. The tips of the tubular element are configured to resize the cross section of the inner hole.

In order to change the inner hole of the tubular filter element for cleaning liquids, the tubes screwed into the holes of the glass are made with tips made of an elastic material, such as rubber.

When using a known filter for cleaning liquids, such as livestock drains, solid impurities block the inlet openings of the tubes, and fibrous structures accumulate on the walls of the tubes around the end. Part of the fibrous structures also accumulates inside the openings of the filter tubes. In the event of a significant clogging of the filter, the pump is turned off, and the liquid flows back from the suction pipe into the filter tubes and cleans them of impurities.

However, some of the tubes that are most clogged are not cleaned of solid impurities and fibrous structures. This is explained by the fact that solid impurities and fibrous structures are sucked into the internal openings of the tubes by the liquid due to the vacuum that the pump creates, and the tubes are cleaned of impurities due to the reverse flow of the liquid. In this case, the liquid cleans part of the tubes, which are slightly clogged. Some of the tubes that are significantly clogged by solid impurities and fibrous structures are not cleaned, since the liquid flows back from the cleaned tubes, which were slightly clogged, by the reverse flow.

The filtering filter tubes will be better cleaned of solid impurities and fibrous structures if, in the backwash mode, the size of the inner holes of the tubes increases.

In order to change the internal holes of the filter tubes, the tips of the elastic material are made with longitudinal sections.

Longitudinal cuts made on the tips of tubes made of elastic material in the backwash mode allow to increase the size of the internal holes of the tubular element due to the reverse fluid flow.

In the filtering mode, the liquid passes through the internal holes of the tubular element and enters the filter, and then into the pipeline due to the vacuum that creates the pump.

Due to the fact that the tips of the tubular element are made of elastic material, and a vacuum is created in the filter, the inner diameter of the holes of the tips of the tubular element is reduced.

In order to reduce the size of the inner hole of the tubular filter element, annular grooves are made in the tips, in which annular springs are installed.

Ring springs make it possible to reduce the size of the holes of the tips made of elastic material in the liquid filtration mode.

Ring springs installed in the grooves of the tips made of elastic material also allow you to increase the size of the holes of the tips in the backwash mode.

Identified signs of a technical solution of the proposed filter for purification of liquids, such as livestock waste, allow us to conclude that the technical solution meets the criterion of "significant differences".

Figure 1 shows a filter, a longitudinal section; figure 2 - the tip of the tubular filter element in filtering mode; figure 3 - the tip of the tubular filter element in the backwash mode.

The filter for cleaning liquids, such as livestock effluents of cattle complexes or pig farms prepared for irrigation of agricultural land, contains an outlet pipe 1, a transition element and a filter element 3, made in the form of a perforated glass with tubular elements 4, placed evenly over the entire surface of the filter element 3.

The tubular element 4 consists of a metal tube 5 and a tip 6 made of an elastic material, such as rubber. The tip 6 is hermetically attached to the tube 5. The tip 6 has an opening 7 and through holes 8.

In addition, each tip 6 has an annular groove 9, in which an annular spring 10 is installed.

The filter for cleaning liquids is mounted on a suction line (not shown) and placed in a manure storage. Using floats (not shown), the filter is held in the middle layers of the manure storage, in which the liquid is most prepared by structure for use in irrigating agricultural land.

In filtering mode, the filter for cleaning liquids works as follows.

When creating a vacuum in the filter element 3, the liquid, filtered, passes through the holes 7 of the tip 6, metal tubes 5 and enters the inside of the filter element 3 and then through the outlet pipe 1 to the consumer.

Solid impurities and fibrous structures located in the liquid are delayed at the entrance to the holes 7 of the tip 6. Moreover, large solid impurities overlap the inlets 7, and the fibrous structures accumulate on the walls of the tip 6 around their ends and holes 7.

The filter for cleaning liquids operates in the backwash mode as follows.

In the case of significant clogging of the filter element 3 with solid impurities and fibrous structures, that is, after a certain period of time, the pump (not shown) is turned off, and the liquid flows back from the suction pipe to the outlet pipe 1, the transition element 2 to the filter element 3. From the filter element 3, the fluid enters the tube 5 and the lugs 6 through the holes 7 to the bottom of the manure storage.

The liquid from the filter element 3 comes under the influence of overpressure through the tubes 5 to the tips 6. Under the action of the fluid pressure due to the fact that the tips are made of elastic material, the holes 7 and the through slots 8 increase.

Solid impurities due to the fact that the hole 7 increases, the liquid is removed from the filter element 3 of the tube 5, the tip 6 and the hole 7 in the manure storage.

Various fibrous structures adhering to the tubular elements 4, tubes 5 and tips 6 are completely washed off with liquid through enlarged through slots 8 and settle to the bottom of the manure storage.

Upon termination of the backwash regime, the liquid pressure in the filtering element 3 decreases to below atmospheric pressure (the pump starts to work in the filtering mode) under the action of springs 10 installed in the annular grooves 9 of the tip 6, the through slots 8 are reduced to a minimum, since the tips are made of elastic material, and holes 7 are reduced. The filter for cleaning liquids starts to work in the filtering mode.

The filter for cleaning liquids is cleaned in the backwash mode from solid impurities clogging the filter element 4, and from fibrous structures adhering to the tubular element 4 by changing the size of the holes 7 and made through the slots 8 on the tip 6 made of elastic material, due to ring springs 10 installed in the annular grooves 9 of the tip 6.

Thus, the filter for cleaning liquids as a result of backwashing is constantly ready for use, it acts reliably for a long time without additional cleaning and replacing the filter element.

The economic effect is achieved due to high-quality cleaning of the filter element in the backwash mode when cattle and pig complexes are irrigated using livestock irrigation systems using irrigation systems and by eliminating laborious manual labor to clean the filter of solid impurities and fibrous structures.

Information sources

1. A.S. USSR No. 874115, cl. B01D 3/00, 1980.

2. A.S. USSR No. 528938, class B01D 27/12, 1974.

3. A.S. USSR No. 1111792, class B01D 27/2, 1984.

4. VNTP 01-98. Reclamation systems and facilities. Irrigation systems using wastewater and livestock drains.

Claims (1)

A filter for cleaning liquids, for example, livestock effluents of cattle and pig complexes, from solid impurities and fibrous structures, containing a filter element made in the form of a perforated glass with tubular elements placed in the openings of the glass, characterized in that the tubular elements are made with tips made of elastic material, for example rubber, having longitudinal cuts and annular grooves in which annular springs are mounted.

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