UA48541C2 - Filter element - Google Patents

Abstract

A filtering element contains a strip of corrugated filtering material, rolled up into a roll. The roll occupies all the space of the filtering element and has inside a zone completely or partially filled by an another or the same filtering material.

Description

Description of the invention

The invention relates to filter elements used for mechanical cleaning of environments in 2 chemical, metallurgical, food and other industries.

The filtering element is one of the most common technical means that allow cleaning of liquid and gaseous media. In this regard, great attention is paid to the development of filter elements that provide an optimal combination of such parameters as filtration fineness, throughput, mud capacity, dimensions of the filter element, service life and the possibility of its regeneration. 70 Filter elements are known, which are packages that consist of layers of metal or plastic fabric, which is selected according to the required corrosion resistance. These are, for example, filter packages according to A.S. USSR Mo1551397, publ. in 1990 The thickness of such packages, as a rule, is 100-150 mm, and at the same time they can have a variety of shapes, including cylindrical ones. However, such packages do not create a rigid structure and therefore must be fixed in special rigid frames. 12 In addition, such packages allow only one-way filtering of the axial flow in the direction of its movement, which leads to rapid contamination of the first surface layers, leaving the performance of the subsequent filtering layers unused. Therefore, filters of this type have become widespread only as droplet catchers for the retention of drops from 1 to 1 μm in size.

For the purification of various media from solid inclusions, filter elements containing a circular corrugated curtain made of strip corrugated material with corrugations of various shapes and sizes are known (see, for example, the patent of the Federal Republic of Germany Mo3907838 dated 12.10.86, AS USSR Mo1255165, publ. 07.09.8br., Blvd. Mo33 and

A.S. USSR Mo1761201, publ. September 15, 1992, Bull. Mo34). The disadvantage of such filtering elements is that the curtain does not occupy the optimal possible volume, has a limited filtering surface, which leads to its rapid contamination. In addition, the strip of corrugated material itself does not have the necessary strength and therefore must be fixed on a rigid frame. Gee)

The filter element according to the patent of the Russian Federation is the closest to the claimed invention

Mo2108845, publ. April 20, 1998, in which an attempt was made to fill the working volume with filter material as much as possible. This filter element also contains a strip of corrugated filter material which is folded around the circle and in which the high corrugations are made inclined with respect to the radial direction and, therefore, a filter volume is created, so that the flow of the medium to be filtered can pass through several "Its layers of filter material.

However, the disadvantages of such filter elements are a limited service life due to low mud capacity, since it has one, albeit developed, working surface. In addition, the indicated filtering element c due to the developed unfixed filtering surface has very low strength characteristics and is therefore prone to deformations at increased flow rates of the filtered medium. WITH

The basis of this invention is the task of creating a filtering element in which, by introducing new features, namely, the shape given to the filtering material, an increase in mud capacity and thereby the working resource, as well as an increase in the strength of the structure, is achieved. "

The task is achieved by the fact that in the filter element containing a folded strip of corrugated Z filter material, the strip of corrugated filter material is rolled into a roll. c By rolling the strip corrugated material into a roll, filling of any, y

Including everything, the volume of the element with filter material, there is a possibility of almost unlimited development of the working surface of the filter and even the creation of an essentially volumetric filter element, which increases its mud capacity and, therefore, its working resource without reducing its regeneration capacity, since , 42 regardless of the actual volume of the filtration process, the access of cleaning liquids or gases remains to almost any point of the surface of the filter material inside the filter element. In addition,

Ge | an increase in the structural strength of the filter element is achieved, since each internal section of the filter material is supported by adjacent sections. i-th In a specific embodiment of the filter element, according to the invention, the roll occupies the entire volume of the filter element 20, which achieves its maximum working surface and maximum working resource.

In an alternative version, the roll of corrugated filter material has a cylindrical area inside, and is filled completely or partially with a different or the same filter material. This, for example, allows to carry out two stages of filtration with different values of fineness of filtration in the same volume and, as a result, to reduce costs necessary to carry out these two stages. 52 A further improvement of the filter element according to the invention is the introduction of at least one

GF) of an additional strip of corrugated filter material, which is rolled into a roll together with the first strip. This yuyu allows you to either increase the filtration surface to an even greater extent by filling the volume between the corrugations of one strip with the corrugations of the adjacent strip or to change the characteristics of the filter element, such as the throughput, the fineness of the filtration, etc. due to the displacement of the corrugations of one strip relative to another. 60 Another further improvement of the filter element according to the invention is that the corrugated filter material is inclined relative to the direction of folding of the corrugations. This further enhances the volumetric property of filtration, as any flow paths pass through the filter material in any direction of flow of the medium to be filtered. This property becomes especially noticeable with a relatively small resistance of the filter material, which leads to swirling and dispersion of elementary flows in the area of contact with the surfaces of neighboring layers of the filter material, their mixing and effective separation of impurities, in particular due to centrifugal forces. The presence of such a property as filtering volume, in turn, allows the use of a filtering element in any configuration of input and output streams. For example, by closing the cylindrical surface of the filter element, the same axial orientation of the input and output streams is obtained. By closing one of the end surfaces of the filter element, it is possible to obtain filtration of the axial flow with its exit into the radial flow and vice versa. Moreover, with any location of the spaces of the input and output streams, provided that they are crossed by the filter element according to the invention, due to the indicated vortices and dispersion of elementary flows, practically the entire volume of the filter element is working. 70 In the next improvement of the filter element, according to the invention, the corrugations of each of the two adjacent strips are inclined at different angles in terms of magnitude and/or sign relative to the direction of rolling of the roll, and the number of touches of each of the corrugations of one strip to the corrugations of the adjacent strip is not less than one. This increases the probability of contaminant particles colliding with the filter material to an even greater degree, in particular at the points of contact of adjacent strips, i.e. it increases the quality of filtration and the working life of the element.

Another improvement of the filter element according to the invention is that each of the two adjacent strips of corrugated filter material have different periods and/or amplitudes of the corrugations. Variation of these parameters allows, in each specific version of the design, taking into account the displacement of the strips relative to each other when rolling the roll, to obtain the maximum filling of the volume with filter material and/or the maximum number of points of contact of the corrugations of the adjacent strips, which further increases the quality of filtration and 2o working element resource.

In yet another further improvement of the filter element according to the invention, the edges of the strips, other than those forming the ends of the roll, are offset relative to each other. This, on the one hand, allows you to form a suitable shape of the filter element, for example, a cylindrical one, and on the other hand, to fill the volume in the central area of the roll as much as possible and thereby increase the quality of filtration and the service life of the element. high school

In a specific embodiment of the filter element, according to the invention, the corrugated filter material is made in the form of a corrugated metal mesh. This, on the one hand, significantly increases the characteristics of i) the strength of the filtering element, and, on the other hand, strengthens the characteristics of the filtering volume due to the relatively small value of the resistance of the metal mesh as a filtering material and its high heterogeneity, as a result of which the marginal gas or hydrodynamic effects, and high flow turbulence occurs in the volume of the element. In addition, the use of metal mesh as a filter material greatly increases the ability of the filter element to regenerate by washing or blowing. -

A further specific embodiment of the filter element according to the invention is a corrugated metal mesh as a filter material, the latter made of metal resistant to aggressive environments.

This allows expanding the fields of use of the filter element and increases its operational characteristics. "Mr

And finally, in the last specific embodiment of the filter element with a corrugated metal mesh, at least two adjacent strips of the latter have cells of different sizes. Varying the dimensional characteristics of the shell and the thickness of the wire makes it possible to obtain cleaning not only from solid, but also from droplet impurities, for example, oil, which makes it possible to get rid, if necessary, of a two-stage (requiring the presence of "different volumes)" cleaning of the filtered medium . with c The attached drawings show examples of the embodiment of the filtering element according to the invention, and: Fig. 1 shows a three-dimensional image of a filter element with one strip of filter material rolled into a roll that fills the entire volume of the element; Fig. 2 shows a three-dimensional image of the filter element at the end of the rolling process with two 15" strips rolled together in a roll, which also fill the entire volume of the element; Fig. 3 shows a sectional view of a filter element with one sheet folded into a roll, which fills part of the volume of the element, inside of which another volumetric filter material is located. c As can be seen from Fig. 1, the filter element, according to the invention, is a strip of 15 mm corrugated filter material rolled into a roll, and the roll fills the entire volume of the filter element. The corrugations in the filter material have a period I. and an amplitude A. and create an angle o with the direction of folding. In the process of rolling, each layer of the roll is supported by adjacent layers, the corrugations of each layer are in contact with the corrugations of the adjacent layers, and a three-dimensional strong filtering element with a developed filtering surface is created. In principle, it is not even necessary to strengthen it with a frame: it is enough to simply fasten it

The outer end of the roll on the previous layer and insert this filter element into the construction of the pipeline, where the filtration is carried out. iF) Fig. 2 shows a filter element according to the invention, which is two co-folded strips 1 and 2 of corrugated filter material, which also fill the entire volume of the filter element.

The corrugations of different strips create different angles with the direction of folding - o and p, respectively, while each corrugation of one strip has at least one contact with the corrugations of another strip. To maximize the volume of the element and vary the filling density, the strips can have different lengths, and their edges, other than those that create the end of the roll, can be shifted relative to each other.

Fig. 3 shows an alternative embodiment of the filter element according to the invention, in which the central part of the filter element is filled with a different filter material than the one from which strip 1 (or strips) of corrugated filter material is made, rolled (or rolled) in roll around the center of the filter element. The filtering material of the central part can carry out filtration both in its volume and on its surface, including it can be made in the form of a folded strip of corrugated filtering material, in particular, a metal mesh, and occupy the entire volume of the central part or only its the periphery

The filter element is suitable for operation in any geometry of input and output flows and works as follows (Fig. 1). The axial inlet flow (dashed arrow) falls on the filter surfaces of the filter material, where the pollutant particles are removed. Microflows of the filtered medium repeatedly pass through the filtering surfaces, changing the directions of propagation, including in the contact points of the corrugations of adjacent layers, where due to small gaps and centrifugal forces, pollutant particles settle down. 70 Under the influence of the flow pressure, the axial flow causes flows in all directions, and depending on which external surfaces are closed, the output flow is axial and/or radial (dashed arrows).

Lateral inlet flow similarly induces axial and radial flows (solid arrows). Flow separation is achieved by the appropriate geometry of the pipeline design. Note once again that due to multiple changes in the direction of the microflows inside the filter element, the pressure of the incoming flow makes these 7/5 Microflows reach any point inside the element and, therefore, makes the entire volume of the element work to remove pollutants. This phenomenon is especially noticeable when the filter material is a metal mesh, which, due to its inhomogeneity, creates a significant turbulence of microflows and effective removal of particles both on the mesh wires and in the contact points of the corrugations.

The filtering element shown in Fig. 3 allows you to carry out two stages of filtering the medium.

For example, with an axial input flow within the end surface of the central part, the opposite end surface of the central part is closed and the output flow is obtained, which has passed two stages of filtration (one - in the central part, and the second - in the peripheral part of the element) from all the outer surfaces of the roll. If the incoming flow of the medium is radial to the outer side surface of the roll, then the end surfaces of the roll are covered, leaving one or both end surfaces of the central part of the required size open. At the same time, the incoming flow of purified medium is removed from these surfaces.

Regeneration of the filter element according to the invention is carried out by simple washing or i) blowing under pressure. As the flushing or purging medium reaches any point inside the filter element, it is able to separate any contaminant particles that have settled inside. Moreover, washing or blowing can be carried out from different areas of the outer surface of the filter element. Thus, a simple design and high-tech filter element has been created, which has a much larger filtering surface in a limited volume, compared to conventional filter elements, and at the same time has the possibility of using any of the side surfaces for the entrance the output of the filtered flow (regardless of its direction) allows you to do without additional protection of the filter element from damage, i.e. without an external protective hard casing, when using a metal mesh as a filter material to expand the field of application in filtered media with various " E physicochemical characteristics, as well as repeatedly use the filter element after appropriate cleaning by washing or blowing, that is, regeneration of the element.

Due to the simplicity of the design and high manufacturability, the requirements of GOST 24243-90 regarding the ratio of the width and the outer diameter of the filter element can be satisfied quite easily. " - with

Claims (11)

The formula of the invention with 1. A filter element containing a rolled strip of corrugated filter material, characterized in that the strip of corrugated filter material is rolled into a roll. drive 2. The filter element according to claim 1, which is characterized by the fact that the roll occupies the entire volume of the filter element. with Z. The filter element according to claim 1, which is characterized in that the roll of corrugated filter material has an inner region filled completely or partially with a different or the same filter material. 4. The filter element according to claims 1, or 2, or 3, which is characterized by the fact that it contains at least one additional strip of corrugated filter material, which is rolled into a roll together with the first strip. cheek 5. The filter element according to any of the previous items, which is characterized by the fact that the corrugated filter material is inclined relative to the direction of folding of the corrugations. 6. The filter element according to claim 5, which is characterized by the fact that the corrugations of each two adjacent strips are inclined at different angles in terms of magnitude and/or sign relative to the direction of rolling of the roll, and the number of touches of each of the corrugations of one strip to the corrugations of the adjacent strip is not less than one. (F) 7. A filter element according to any one of items 4-6, characterized in that every two adjacent GI bands of the corrugated filter material have different periods and/or amplitudes of the corrugations. 8. A filter element according to any of claims 4-7, which differs in that the edges of the strips, other than those that form the ends of the roll, are offset relative to each other. 9. The filter element according to any of the previous items, which is characterized by the fact that the corrugated filter material is made in the form of a corrugated metal mesh. 10. The filter element according to claim 9, which is characterized by the fact that the metal mesh is made of metal resistant to aggressive environments. 65 11. A filter element according to claims 9 or 10, which is characterized in that at least two adjacent strips of corrugated metal mesh have cells of different sizes.