UA58036C2 - Filtering element (variants) - Google Patents

Abstract

A filtering element contains layers of corrugated filtering material, which adjoin to each other. In this case the layers, which fill all space of filtering element, can be formed from one sheet of corrugated filtering material by its zig-zag folding. The layers of filtering element can also be formed from separate sheets of corrugated filtering material. In this case, the edges of said sheets are free, and the corrugations are inclined relative to the sides. The invention allows obtaining any shape of cross section of the filtering element, thus improving universality of design.

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 and shape of the filter element, service life and the possibility of its regeneration, as well as the possibility of its performance in any cross-sectional shape so that it can be placed in a pipeline of any cross-sectional shape.

Closest to the claimed invention is a filter element according to (patent of Ukraine Mo48541 dated 15.08.2002), which uses corrugated filter material rolled into a roll, so that layers of filter material are created that are adjacent to each other. At the same time, the corrugated filter material 12 occupies either part of the volume, or even the entire volume of the filter element.

However, the disadvantage of such a filter element is that when the corrugated filter material is folded into a roll, a cylinder is created, with a cross-section in the form of a circle or an oval, and it is practically impossible to make other cross-section shapes.

The basis of this invention is the task of creating a filter element, in which by introducing new features, namely the shape given to the filter material, it becomes possible to make a filter element with any cross-sectional shape, thereby increasing the versatility of the design of the filter element.

In one variant of the invention, the set task is achieved by the fact that in a filter element containing layers of corrugated filter material that are adjacent to each other, the layers are formed from one strip of corrugated filter material by folding it into an accordion. Gee)

Due to the folding of the strip corrugated material into an accordion, any volume of the filter element with any cross-sectional shape can be filled with filter material, which is equivalent to increasing the versatility of the design.

In a specific embodiment of the first variant of the invention, layers of corrugated filter material fill the entire volume of the filter element, which achieves its maximum working surface and maximum working resource.

In an alternative embodiment of the first variant of the device according to the invention, the roll of corrugated filter material has a cylindrical area inside, filled completely or partially with a different or the same filter material. This, for example, allows two stages of filtration with different values of fineness of filtration in the same volume. emi and, as a result, reduce the costs necessary to carry out these two stages.

A further improvement of the device according to the first variant of the invention is the introduction of a new element, namely a strip of filter material, which wraps around the perimeter of the main folded into an accordion strip of "corrugated filter material, and its end is connected to its beginning. This increases the rigidity of the design of the filter element. c In a specific embodiment of the device according to the first variant of the invention of the sleeve, which wraps the folded in

From" accordion strip of corrugated filter material, made of the same filter material as the main strip. This simplifies the design of the filter element.

In another further specific embodiment of the first variant of the device, the wrapping strip is made as a single unit with the main strip and is its continuation. This simplifies the manufacturing technology of the i-th filtering element. o Another further improvement of the device according to the first variant of the invention is that the corrugated filter material has inclined relative to the sides of the corrugations. This reinforces the property of filtration volume, which is inherent in both the above-mentioned device, selected as a prototype, and the device according to the invention, since with 20 any flow paths pass through the filter material in any direction of the flow of the medium being filtered. This property becomes especially noticeable with a relatively small resistance of the filtering material, which leads to swirling and scattering of elementary flows in the area of contact with the surfaces of neighboring layers of the filtering material, their mixing and effective separation of impurities, in particular due to centrifugal forces. The presence of such a property as the filtering capacity in turn allows the filter element to be used in any configuration of input and output streams. Example,

GF) covering the side surfaces of the filter element, obtain the same directionality of the input and output flows from top to bottom or vice versa. By closing the upper or lower surface of the filter element, it is possible to obtain filtration of the axial flow with its output in the lateral directions and vice versa. Moreover, at 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.

In another specific embodiment of the device 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 strength characteristics of the filter element, and, on the other hand, because it 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 are enhanced 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.

In a further specific embodiment of the filter element according to the invention with a corrugated metal mesh as a filter material, the latter is made of a metal resistant to aggressive environments. This makes it possible to expand the fields of use of the filter element and increases its operational characteristics.

According to the second variant of the invention, the problem is solved by the fact that in the filter element, which 7/0 contains layers of corrugated filter material that are adjacent to each other, the layers are formed from separate strips of corrugated filter material.

This also, as in the first variant, provides the possibility of filling any volume of the filter element with any cross-sectional shape with filter material, which is equivalent to increasing the versatility of the design.

As for the first option, further improvements and specific embodiments of the invention are provided, which give the same technical results as described above, namely: - layers of corrugated filter material can fill the entire volume of the filter element; - the filter element can have an area inside filled completely or partially with a different or the same filter material; - the filter element may additionally contain a strip of filter material that wraps around the perimeter of the main set of layers of corrugated filter material, and its end is connected to its beginning. - the strip that wraps the main set of layers of corrugated filter material can be made of the same filter material as the main strip. - the wrapping strip can be made as a single unit with the outermost layer of the main set of layers and is its longitudinal extension; - corrugated filter material can have corrugations inclined relative to the sides of the strips; i) - the corrugated filter material can be made in the form of a corrugated metal mesh. - the metal mesh can be made of metal resistant to aggressive environments.

In addition, in further improvements of the filter element according to the second variant of the invention, the Gezo corrugations of each two adjacent strips are inclined at angles of different magnitude and/or sign relative to the sides of the strips, and the number of touches of each of the corrugations of one strip to the corrugations of the adjacent strip is at least one and /or every two adjacent strips of corrugated filter material have different periods and/or amplitudes of the corrugations. at

Variation of these parameters allows in each specific version of the design, taking into account the displacement of the layers relative to each other, to obtain the maximum filling of the volume with the filter material and/or the maximum

The number of points of contact of the corrugations of neighboring strips, which further increases the quality of filtration and the working life of the element.

In yet another further improvement of the filter element according to the second variant of the invention, every two adjacent strips of corrugated metal mesh 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 allows you to get rid, if necessary, of a two-stage (requiring the presence of different volumes) cleaning of the medium, which is filtered.

And the attached drawings show examples of the embodiment of the filtering element according to the invention, and? moreover: Fig. 1 shows a three-dimensional image of the first version of the filter element with a strip of filter material folded into an accordion; c in Fig. 2 is a sectional view of the first version of the filter element with a circular cross-section; Fig. 3 shows a sectional view of the second version of the filter element, which is made of separate strips of filter material and has an area inside filled differently than outside.

The filtering element according to the first variant of the invention, presented in Fig. 1, contains a frame 1, inside which a strip 2 of corrugated filter material folded into an accordion is located with the formation

F layers of filtering material, which in general create a volumetric filtering element with a developed filtering surface. Corrugations 4 of the filter material have a period | and amplitude A and create an angle c with the side of the strip 1, while the corrugations 4 of each layer Z are in contact with the corrugations of the adjacent layers, and each corrugation 4 of one layer Z has at least one contact with the corrugations 4 of another layer 3, and these layers Z fill the entire volume inside the frame 1. To simplify the drawing, dashed lines represent the invisible lines of the corrugations of only the second layer. Figure 2 shows a filter element also according to the first variant of the invention in the form of a band 2 of corrugated filter material folded into an accordion, which also fills the entire volume of the filter element. Other elements have the same positions as in Fig.1. But the cross-section of the filter element is a circle. This implementation of the first variant of the invention is given as an example that a strip of corrugated filter material can be folded into an accordion within any shape of the perimeter, including a circle.

To increase strength, the accordion-folded strip is wrapped around the perimeter with a strip 5 of the same corrugated filter material as the accordion-folded strip 2, and the strip 5 wrapping the accordion is an extension of the accordion strip 2. In principle, it is not even necessary to strengthen such a filtering element with some kind of frame: it is enough to simply fix the outer end of the wrapping strip 5 at its beginning and insert this filtering element into the structure of the pipeline, where filtration is carried out.

Fig. 3 shows an alternative - the second embodiment of the filter element according to the invention, in which the C layers are formed from separate strips of corrugated filter material. The filter element has a central area 6, which is filled differently than the rest of the volume of the filter element, namely, strips 7 of filter material with different characteristics than the outer strips 2, and located in a perpendicular direction. The filter element according to Fig. 3 also has a strip 5 that wraps the inner layers C, and this strip 5 has areas 8 that are parallel to the layers 3.

The filtering material of the central part 6 can be different from the above and carry out filtration both in its volume and on its surface, including it can be made in the form of a strip of corrugated filter material folded into a roll or into an accordion, in particular, a metal mesh, and occupy the entire volume of the central part 6 or only its periphery.

The filter element is suitable for operation in any geometry of input and output flows and works as follows (Fig. 1). The vertical inlet flow (dashed arrow) falls on the filter surfaces 7/5 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 at the contact points of the corrugations of adjacent layers, where due to small gaps and centrifugal forces, pollutant particles settle. Under the influence of flow pressure, the axial flow induces flows in all directions, and depending on which external surfaces are closed, the output flow is vertical and/or horizontal (dashed arrows).

Lateral (horizontal) inflow, indicated by the solid arrow, similarly induces vertical in two directions and horizontal flows in all directions (solid arrows). Flow separation is achieved by the appropriate geometry of the pipeline design. We note once again that due to multiple changes in the direction of microflows inside the filter element, the pressure of the input flow causes these microflows to reach any point inside the element and, therefore, forces the entire volume of the element to work to remove pollutants. This phenomenon is especially noticeable when the filter material is a metal mesh, which, due to its heterogeneity, creates a significant turbulence of microflows and effective removal of particles both on i) the mesh wires and in the contact points of the corrugations.

The filtering element shown in Fig. 3 allows for two stages of filtering the medium.

For example, when the direction of the incoming flow is from the observer towards the drawing within the central part, Gezo cover the opposite surface of the central part | receive the output flow that has passed two stages of filtration (one - in the central part, and the second - in the peripheral part of the element) from all external surfaces of the filter element. If the incoming flow of the medium falls on the outer side surface (su) of the filter element parallel to the plane of the drawing, then the surfaces of the element parallel to the plane of the drawing are covered, leaving open one or both surfaces of the central part of the required size. со 5 At the same time, the outgoing flow of the purified medium is removed from these surfaces. i

Regeneration of the filter element according to the invention is carried out by simple washing or blowing under pressure. As the flushing or purging medium reaches any point inside the filter element, it is able to separate all the 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 was created, which has much greater versatility than the prototype, as it allows to obtain any cross-sectional shape of the filter element. ;" Due to the simplicity of the design and high manufacturability, the requirements of GOST 24243 - 90 regarding the structural dimensions of the filter element can be satisfied quite easily. others

Claims (1)

Formula of the invention (ee) o 1. A filter element containing layers of corrugated filter material that are adjacent to each other, which is characterized by the fact that the layers are formed from one strip of corrugated filter material by folding it into an accordion. Ф 2. A filter element according to claim 1, which is characterized by the fact that the layers of corrugated filter material fill the entire volume of the filter element. 3. A filter element according to claim 1, which is characterized by the fact that it has an area inside which is completely or partially filled with a different or the same filter material. 4. A filter element according to claim 2 or 3, which is characterized by the fact that it additionally contains a strip of filter (F) material, which wraps around the perimeter of the main folded into an accordion strip of corrugated filter GI material, and its end is connected to its beginning. 5. A filter element according to claim 4, which is characterized by the fact that the strip that wraps the folded into an accordion STRIP of corrugated filter material is made of the same filter material as the main strip. 6. A filtering element according to claim 5, which is characterized by the fact that the wrapping strip is made as a single unit with the main strip and is its continuation. 7. A filter element according to any of the preceding items, characterized in that the corrugated filter material has corrugation strips inclined relative to the sides. 65 8. A 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. 9. Filter element according to claim 8, which is characterized by the fact that the metal mesh is made of metal resistant to aggressive environments. 10. A filter element containing layers of corrugated filter material that are adjacent to EACH OTHER, characterized in that the layers are formed from separate strips of corrugated filter material. 11. Filter element according to claim 10, which is characterized by the fact that the layers of corrugated filter material fill the entire volume of the filter element. 12. A filter element according to claim 10, which is characterized by the fact that it has an area inside which is completely or partially filled with a different or the same filter material. 70 13. A filter element according to claim 10 or 11 or 12, which is characterized by the fact that it additionally contains a strip of filter material that wraps around the perimeter of the main set of layers of corrugated filter material, and its end is connected to its beginning. 14. A filter element according to claim 13, which is characterized in that the strip that wraps the main set of layers of corrugated filter material is made of the same filter material as the main strip. 15. The filtering element according to claim 14, which is characterized by the fact that the wrapping strip is made as a single unit with the outermost layer of the main set of layers and is its continuation. 16. A filter element according to any one of claims 10-15, characterized in that the corrugated filter material has corrugations inclined relative to the sides of the strips. 17. A filtering element according to claim 16, which is characterized by the fact that the corrugations of each two adjacent strips are inclined by 2o at angles of different magnitude and/or sign relative to the sides of the strips, and the number of contacts of each of the corrugations of one strip to the corrugations of the adjacent strip is not less than one. 18. A filter element according to any one of claims 10 - 17, characterized in that every two adjacent strips of corrugated filter material have different periods and/or amplitudes of the corrugations. 19. A filter element according to any one of claims 10 - 18, which is characterized by the fact that the corrugated filter material is made in the form of a corrugated metal mesh. 20. Filter element according to claim 19, which is characterized by the fact that the metal mesh is made of metal, (8) resistant to aggressive environments. 21. A filter element according to claim 19 or 20, which is characterized in that every two adjacent strips of corrugated metal mesh have cells of different sizes. Ge (ze) «c) (ee) And c) - and? 1 (ee) («c) (95) 4) ime) 60 b5