SU1153949A1 - Filter - Google Patents

Abstract

1. A FILTER containing a housing with inlets and outlets, inside which partitions are installed parallel to one another with deformed elastic filtering elements placed between them, with the elements that, in order to increase the cleaning efficiency, the partitions alternately with one of their own the ends are placed in the wall of the housing, and the other end is located at a distance from the wall of the housing, wherein the distance between the end of each partition and the wall of the housing decreases along the medium being cleaned. 2. The filter according to claim 1, wherein the partitions are arranged with the possibility of reciprocating horizontal movement. 3. The filter according to claim 1, characterized in that the filtering element is made of a sheet material of an open-cellular structure in the form of a continuous strip. (Lsa so; o; o

Description

This invention relates to liquid and gas fine filtrate using elastic materials, for example, a porous material that is deformed during operation.

A filter is known that includes a housing with inlet and outlet openings, inside of which are placed parallel walls of one another with deformed elastic filter elements 1 placed between them.

A disadvantage of the filter design is that when using porous filter elements, the latter need to be deformed by 60-SO / o to ensure the fineness of filtration of solid particles with a diameter of 1-200 µm, since the minimum average cell diameter is 0.5 mm. Over time, the filter becomes clogged, the hydraulic resistance on it grows, the solid filtered phase can penetrate into the drain of the filter, due to an increase in pressure drop across the filter element and leaching of particles.

The purpose of the invention is to increase the cleaning efficiency.

The goal is achieved by the fact that in a filter containing a housing with inlet and outlet apertures, inside of which are placed parallel walls of one another with deformed elastic filter elements placed between them, the partitions are alternately placed with one of their ends in the wall of the housing and the other end is located on the distance from the wall of the housing, while the distance between the end of each partition and the wall of the housing decreases along the medium being cleaned.

In addition, partitions are placed with the possibility of reciprocating horizontal movement.

The filtering element is made of sheet material of an open-cellular structure in the form of a continuous strip.

FIG. 1 shows a filter, frontal section; in fig. 2 is a view A of FIG. one; in fig. 3 - filter option.

The filter consists of a housing 1, inside of which partitions 2 are installed parallel to each other, between which the deformed filter elements 3 are placed. The housing 1 is made with an inlet 4 and an outlet 5. The partitions 2 are located at a distance of 6 between their ends 7 and the wall of the housing 1, and the partitions 2 are alternately fixed in the wall of the housing 1. The housing 1 is equipped with a cover 8. Structurally, the partitions 2 can be installed in the slots 9 of the housing 1 with the possibility of horizontal reciprocating displacements, while in the direction towards the outlet 5, the distances b between the ends 7 of the partitions 2 and the housing 1 are made with a reduced width along the medium being cleaned.

The filter has a zone of 10 settling filtrate.

As filter element 3

Sheet material of an open-cellular structure, for example, based on polyurethane, is used in the form of a continuous strip laid in a zigzag through one-sided distances 6 between partitions 2 and walls of the housing 1.

The filter works as follows. Through the inlet 4, liquid contaminated with solid particles is supplied. Since the distance 6 is located on the opposite side of the housing 1 with respect to the inlet 4, there is a sharp bend in the fluid flow at the point of entry into and out of the filter element 3. As a result, inertial forces act on the solid particles, throwing them into the stagnant zones of the filtering elements 3, where they migrate and accumulate as sludge in the pores of the filtering elements 3. The magnitude of the inertial forces acting on the solid particles is due to the change in the velocity vector of the fluid flow the direction and magnitude at the points of flow bending when passing through distances 6 and orifices 4 and 5, since the flow rate of the liquid in the middle part of the filter element is much lower than at the entrance and exit from it. This is achieved by

 As a filter element 3, an open-celled material, for example, based on polyurethane, having a very low flow resistance, is used. removal from other materials (fibrous, granular), since partitions 2 constitute 4-5% of its volume. This material is deformed on the solid walls of its gripping surfaces, which has little effect on the change in its hydroresistance and at the same time forms stagnant zones for

0 accumulation of filtered solids. Thus, it can be seen that it is possible to regulate the flow rate of fluid in the filter elements 3 at the inlet, outlet and in its middle part within wide limits in size and direction, adjusting the dimensions, structure, compression ratio of the filter elements 3, as well as adjusting the width of the inlet 4 and output 5 holes. The partitions 2 arranged with the possibility of horizontal reciprocating displacements have a decreasing width of the distance 6 in the direction to the outlet bore 5. This contributes to an increase in the degree of purification of the liquid during the operation of the filter, especially particles of a relatively small size, as the flow velocity and inertial forces acting on solid particles will be different. In this way, the voter is provided

Claims (3)

1. FILTER containing a housing with inlet and outlet openings, inside of which are placed parallel to one another partition with the deformed elastic filter elements located between them, characterized in that, in order to improve cleaning efficiency, the partitions are alternately placed with one of their ends in the wall housing, and the other end is located at a distance from the wall of the housing, while the distance between the end of each partition and the wall of the housing decreases along the cleaned medium. 2. Filter by π. 1, characterized in that the partitions are placed with the possibility of reciprocating horizontal movement. 3. Filter by π. 1, characterized in that the filter element is made of sheet material of an open-mesh structure in the form of a continuous strip. Φυζ.ΐ ( and