RU2682558C1 - Self-cleaning filter - Google Patents

Abstract

FIELD: technological processes.SUBSTANCE: invention relates to self-cleaning filters of continuous action and can be used in power engineering and other industries for filtration of water and other liquids. Self-cleaning filter comprises vertically mounted cylindrical housing with lower bottom and flange joint at its top. Cylindrical filter element with blind lower bottom and top bottom communicated with filtered fluid discharge branch pipe is arranged concentric with said casing. In space between filter housing and filtering element along longitudinal axis of filter there is a dead partition separating said space into two cavities. Each cavity is connected to its inlet branch pipe for liquid to be filtered, and to discharge the liquid in countercurrent washing of the filter element.EFFECT: compact design of the filter without electric and other drives, without rotating or moving parts, capable of operating at the required pressure of the filtered liquid.3 cl, 3 dwg

Description

The invention relates to self-cleaning continuous filters for filtering liquids and can be used in the energy sector and in various industries for filtering water and other liquids.

In many technological processes, continuous filters are widely used. So, for example, in the preparation of feed water for energy boilers, the first stage is the purification of raw water on the filter from mechanical impurities.

The design of the filters is a great variety, however, the issues of increasing the reliability of operation, reducing energy costs, reducing weight and size characteristics and cost, are always relevant and prompt the search for new technical solutions.

The traditionally used self-cleaning filters with the regeneration of filter elements by countercurrent washing, as a rule, have moving mechanisms - a manual or mechanical device that moves or rotates the distributing device that connects individual filter elements of the filter for their regeneration by counter-current washing. In this case, electric or pneumatic drives are used. (HYDAK Autofilt ^® RF6 (http://www.hydac.com.ru/filter-rf6.pdf), patent RU 2064325 Automatic self-cleaning filter with regeneration of filter elements by countercurrent washing. It is known that moving mechanisms always require increased attention during operation, technical In addition, the drive shaft passing through the filter housing cover requires reliable tight sealing and periodic maintenance. The presence of a shaft seal limits the pressure of the filtration process. As a rule, the working pressure of filters of this design does not exceed 1 MPa.

Many designs of self-cleaning filters have dual alternately connected for the operation and regeneration of the filter elements of the filter housing. At the same time, the filtering process is carried out alternately in one housing, and in the other, the regeneration of filter elements by counter-current washing (CN 201940104 (U) - Double-cylinder filter). RU 165331 (U1) - COMBINED SELF-CLEANING SEPARATOR). The disadvantages of filters of this design should also include increased weight and size characteristics.

An object of the present invention is to provide a compact, energy-saving self-cleaning filter without electrical and other drives, without rotating or moving parts.

An object of the present invention is also to provide a self-cleaning filter capable of operating at a desired predetermined pressure of a filtered fluid.

To solve the tasks, a self-cleaning, continuously working, vertically mounted filter design is proposed, including a cylindrical housing with a flange connector in the upper part. On the flange concentric to the housing, along its longitudinal axis, a cylindrical perforated frame of the filter element with a blind bottom and an upper bottom fixed to the outlet of the filtered fluid is fixed. A mesh is fixed on the frame of the filter element, while the mesh size determines the maximum size of particles to be separated from the filtered fluid.

In the annular space between the cylindrical filter housing and the cylindrical filter element, as well as in the cylindrical space between the bottom of the filter element and the bottom of the filter along its longitudinal axis, a blind partition is installed dividing these spaces into two cavities. Each cavity is connected to its branch pipe of the fluid inlet to be filtered and the fluid outlet during countercurrent washing of the filter element.

Such a structural embodiment of the filter solves the above objectives of the present invention. The filter element is housed in one compact cylindrical housing. There are no rotating parts or sealing elements in the filter design.

The invention is further illustrated by a specific example of its implementation and the accompanying drawings of FIG. 1, 2 and 3, which schematically depict:

FIG. 1 A longitudinal section of the filter (section BB) with the filter element placed in it.

FIG. 2 Cross section of the filter (section AA).

FIG. 3 Directions of movement of the fluid flows during filtration and backwashing of the filter elements of the filter cavities in the longitudinal and transverse sections of the filter.

The filter contains a cylindrical housing 1 with a lower bottom 2 and a flange connector 3 at the top. A flange 4 is concentric with the housing along its longitudinal axis and has a cylindrical perforated frame of the filter element 5 with a blind bottom 6 and an upper bottom 7 connected to the filtered outlet liquids 8. A grid is fixed to the frame of the filter element 9. An annular space 10 between the cylindrical filter housing 1 and the cylindrical filter element 11, as well as into the cavity of the cylindrical space 12 between the lower bottom 6 of the filter element 11 and the lower bottom of the filter 2 along its longitudinal axis there is a blind partition 13 dividing this cavity into two separate cavities 14 and 15. Each cavity is connected to its pipe 16 and 17 of the fluid inlet to be filtered and pipes 18 and 19 fluid outlet during reverse purge of the filter element. The nozzles 16 and 17 of the fluid inlet to be filtered through the three-way valve 20 are connected to the nozzle 21 of the fluid supply to the filter, and the nozzles 18 and 19 of the fluid outlet when the filter element is backwashed through the three-way valve 22 are connected to the fluid outlet pipe 23 when the cavities of the filter element are back-blown .

The principle of operation of the filter according to the invention is that the medium entering the filtration, for example water, passes through a three-way valve and enters one of the filter cavities, then passes through the filter element of this cavity, limited by a vertical partition. Filtered water enters the inner cylindrical cavity of the filter element, and from it, through the pipe in the upper part of the filter is discharged to the consumer. When connecting a three-way valve on the drainage line with another cavity, the process of cleaning the filter element of this cavity by countercurrent washing occurs. The continuous operation time of each filter cavity for carrying out filtration processes, as well as the time required for countercurrent washing, is determined for each specific condition.

Control of three-way valves can be either manual or automatic.

This technical solution of the filter design provides continuous filtration, compact design and ease of management.

Claims (3)

1. Self-cleaning filter, including a vertically mounted cylindrical housing with a bottom and a flange connector in the upper part, characterized in that a cylindrical perforated filter element frame with a filter mesh fixed to it is fixed on the upper flange concentrically to the housing along its longitudinal axis, with a blind bottom the bottom and the top bottom connected to the outlet pipe of the filtered fluid in an annular space between the cylindrical filter housing and the cylindrical filter an element, and also in the cylindrical cavity of the space between the bottom of the filter element and the bottom of the filter along its longitudinal axis, a blind partition is installed, dividing these spaces into two cavities, each of which is connected to its pipe inlet of the liquid to be filtered and the outlet of liquid at countercurrent washing of the filter element. 2. The self-cleaning filter according to claim 1, characterized in that the fluid inlet pipe to be filtered is connected to the fluid inlet pipes to each cavity through a three-way valve with the possibility of connecting any one cavity of an annular space between the cylindrical filter housing and the cylindrical filter element separated by a partition . 3. The self-cleaning filter according to claim 1, characterized in that the outlet pipe of the liquid from the filter during countercurrent washing is connected to the outlet pipes of the liquid from each cavity during countercurrent washing through a three-way valve with the possibility of connecting any one cavity of an annular space between the cylindrical filter housing and the cylindrical filter element separated by a partition.

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