RU2372967C2 - Method of filtration and bulyzhev's self-wiring filter to this end - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to filtration and can be used for purification of industrial and domestic waters. Proposed filtration method comprises feeding purified water perpendicular to filtration layer displacing downward for regeneration. Filtration medium is fed directly in the casing on purified fluid feed side. Filter casing is furnished with two vertical grid baffles dividing it into three zones, i.e. purified fluid feed zone, fluid purification zone and purified accumulation zone. Filtration medium load branch pipe seats at purified fluid feed zone top part. Filtration medium unload branch pipe is arranged at fluid purification zone bottom part. Filter incorporates air-lift pump and filtration medium flushing device with gate valve.

EFFECT: higher filter efficiency, lower filtration medium load.

3 cl, 1 dwg

Description

The invention relates to filtering and can be used to purify industrial and domestic waters from suspended particles, organic substances, heavy metal ions, in enterprises of electronic, engineering, chemical and other industries.

Known self-cleaning filter (see the description of the AC of the Russian Federation No. 1329799. Cl. B01D 29/52. Publ. 08/15/1987 Bull. No. 30), comprising a housing, filter elements placed in it and a regenerating device with a rotary nozzle and a drive. The filter elements themselves are made of rectangular modules, including perforated plates with filter walls on their side surfaces.

The reasons that impede the achievement of the technical result indicated below when using the known device include the fact that the perforated plates used as a filter element do not provide the required cleaning quality, require periodic replacement due to clogging and siltation, and a regenerating device with a rotary nozzle and a drive complicates the design filter.

A known method of filtering a liquid and a self-cleaning filter (see patent US 5730886 A, B01D 24/46, 03.24.1998). The known method includes filtering the liquid to be cleaned through a layer of a filter medium with continuous forced regeneration of the filter medium using an airlift pump.

The filter contains a housing, nozzles for introducing the liquid to be cleaned, nozzles for withdrawing the liquid to be cleaned, a nozzle for withdrawing foreign inclusions extracted from the liquid from the housing, an airlift pump, and a filtering medium.

For reasons that impede the achievement of the technical result indicated below when using the known method and device, the performance of the filter based on the countercurrent principle of liquid purification is determined by the cross-sectional dimensions of the filter. This factor hinders the creation of high-performance filters and reduces the rate of removal of purified liquid from one meter of the square filter area.

The essence of the claimed method lies in the fact that the flow of the liquid to be cleaned is fed perpendicularly to the layer of filter medium that is shifted downward for regeneration, and filling and replenishment of the filter medium is carried out directly into the housing from the supply side of the liquid to be cleaned.

The essence of the claimed device lies in the fact that the casing is additionally equipped with two vertical lattice partitions, dividing the casing into three zones: the zone of supply of the liquid to be cleaned, the zone of liquid purification and the zone of collection of purified liquid. The filter contains a nozzle for loading the filter medium located in the upper part of the zone of supply of the liquid to be cleaned, and a nozzle for unloading of the filter medium located in the lower part of the zone for cleaning the liquid, as well as a device for washing the filter medium with a slide gate. In addition, the slide gate is additionally equipped with a level adjustment device in the vertical direction.

The use of the invention provides the following technical result:

- increase filter performance;

- improving the quality of separation of foreign impurities from the filter medium;

- reducing the volume of filling the filter medium.

The specified technical result during the implementation of the invention is achieved by the fact that the method of filtering liquids includes filtering the liquid to be cleaned through a layer of a filtering medium with continuous forced regeneration of the filtering medium during operation using an airlift pump.

The peculiarity lies in the fact that the flow of the liquid to be cleaned is supplied perpendicularly to the layer of filter medium that is shifted downward for regeneration, and the filling and replenishment of the filter medium is carried out directly into the housing from the supply side of the liquid to be cleaned.

A device that implements a filtration method includes a housing, a nozzle for introducing a fluid to be cleaned, a nozzle for withdrawing a fluid to be cleaned, a nozzle for withdrawing foreign inclusions extracted from the fluid from the housing, an airlift pump, and a filtering medium.

The peculiarity lies in the fact that the casing is additionally equipped with two vertical grating partitions, dividing the casing into three zones: the zone of supply of the liquid to be cleaned, the zone of liquid purification and the zone of collection of purified liquid. The filter contains a nozzle for loading the filter medium located in the upper part of the zone of supply of the liquid to be cleaned, and a nozzle for unloading of the filter medium located in the lower part of the zone for cleaning the liquid, as well as a device for washing the filter medium with a slide gate. In addition, the slide gate is additionally equipped with a level adjustment device in the vertical direction.

The analysis of the prior art by the applicant, including a search by patents and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype, as the closest in the set of essential features of the analogue, allowed us to identify the set of essential distinguishing features in relation to the applicant's technical result in the claimed invention set forth in the claims.

Therefore, the claimed device for its implementation meets the condition of "novelty."

The design of the invention is presented in the drawing.

The Bulyzhev self-cleaning filter consists of a housing 1, a shirt 2, vertical grating partitions 3 and 4, a partition 5, a slide gate 6 of the filter medium washing device, a level adjustment device 7, a corrugated inner 8 and an outer 9 pipe, a central pipe 10 of the air-lift pump, a pipe 11 the input of the liquid to be cleaned and the outlet 12 of the outlet of the purified liquid, the nozzle 13 of the loading of the filter medium, the nozzle 14 of the output from the housing of foreign inclusions extracted from the liquid, the duct 15 with a valve 16, a valve 17 and a pipe 18 narrow the filter medium, the filter medium 19.

Vertical grating partitions 3 and 4 divide the filter housing into three zones: the zone of supply of the liquid to be cleaned, the zone of liquid purification and the zone of collection of purified liquid.

The filter works as follows. Water contaminated with foreign inclusions through the pipe 11 is gravity fed into the filter housing 1, and then, passing through the filtering medium 19, it is cleaned of foreign impurities. The purified liquid from the housing 1, circling the partition 5, is discharged to the consumer (or to the storage tank) along the outlet pipe 12.

The filter medium 19 as the filter is working is saturated with foreign inclusions. Removal of foreign inclusions from the filter medium 19 is carried out in the central pipe 10, which acts as an airlift pump. A contaminated filter medium, together with the liquid and the air supplied to the pipe, rises. In the process of lifting, the filter medium is separated from foreign inclusions. Foreign inclusions together with the liquid float in the upper part of the shirt 2, overflow through the gate 6 and through the pipe 14 are dumped for disposal. The cleaned filter medium 19 at the exit from the pipe 10 falls into the gap between the corrugated pipes 8 and 9, where the final washing of the filter medium occurs due to a small counterflow of water rising upward. The flow of countercurrent water is set by adjusting the gate 6 by the level adjustment device 7. The finally cleaned filter medium 19 from the gap of the corrugated pipes 8 and 9 is dumped into the upper part of the liquid cleaning zone.

As the filter medium 19 is carried away from the filter housing during its operation, the filter medium 19 is additionally loaded into the jacket body 2 through the nozzle 13. The nozzle 18 and the gate valve 17 are designed to completely replace the filter medium 19 from the filter housing.

The valve 16 is used to adjust the performance of the airlift pump formed in the pipe 10 by supplying the required flow rate and air pressure.

Thus, when changing the principle of movement of the liquid being cleaned and its direction perpendicular to the layer of filter medium 19, organized by vertical grating partitions 3 and 4, the proposed filter allows to increase the cleaning performance and significantly reduce the amount of filling of the filter medium.

The increase in performance of the proposed filter is directly related to the increase in its height. This leads to an increase in the height of the airlift pump (pipe 10) and the height of the corrugated pipes 8 and 9. The height of the above elements determines the time of separation of the filter medium 19 from foreign inclusions and thereby the quality of separation.

The filter medium loading port proposed in the device, located in the upper part of the zone of supply of the liquid to be cleaned, allows you to load the filter medium from the side of the stream of the liquid to be cleaned at any time, without interfering with the cleaning process, and therefore, not reduce the quality of cleaning.

Thus, the foregoing description indicates the fulfillment of the following set of conditions when using the claimed invention:

- a tool embodying the claimed invention, in its implementation is intended for the purification of industrial and domestic water from foreign particles, organic substances, heavy metal ions;

- for the claimed method in the form as described in the claims, the possibility of its implementation using the means and methods described in the application is confirmed;

- a tool embodying the claimed invention in the implementation, is able to ensure the achievement of the perceived by the applicant of the assigned technical tasks. Therefore, the claimed invention meets the condition of "industrial applicability".

Claims (3)

1. A method of filtering liquids, comprising filtering the liquid to be cleaned through a layer of filter medium with continuous forced regeneration of the filter medium during operation using an air lift pump, characterized in that the flow of the liquid to be cleaned is fed perpendicular to the layer of filter medium moving downward for regeneration, and filling and replenishing the filter the medium is carried out directly into the housing from the supply side of the liquid to be cleaned. 2. Self-cleaning filter, comprising a housing, a nozzle for introducing a liquid to be cleaned, a nozzle for withdrawing a liquid to be cleaned, a nozzle for withdrawing foreign inclusions extracted from a liquid from the housing, an air-lift pump, a filter medium, characterized in that the housing is additionally equipped with two vertical grating partitions that divide the housing into three zones: the zone of supply of the liquid to be cleaned, the zone of liquid purification and the zone of collection of purified liquid, the filter contains a nozzle for loading the filter medium located in the upper part of the zone of supply liquid, and a nozzle for unloading the filter medium located at the bottom of the zone for cleaning the liquid, as well as a device for flushing the filter medium with a slide gate. 3. The filter according to claim 2, characterized in that the slide gate is additionally equipped with a level adjustment device in the vertical direction.

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