RU2715189C1 - Filter material - Google Patents

Abstract

FIELD: filters.

SUBSTANCE: invention relates to dry gas cleaning of dust and is used in filters of various industries. Filtration material includes corrugated filter web, corrugation peaks are connected with distance between peaks of adjacent corrugations from 1.1 to 2.4 of height of corrugation. Distance between fasteners along folding line of corrugations can make from 5 to 15 height of corrugation, and corrugations tops can be attached from both sides of web. At the same time distances between corrugations tops at each side may be identical or different, and crimping of corrugation peaks on opposite sides of the web can be made alternately or in staggered order. Besides, corrugation of crimps top can be made across or (and) at angle to corrugation fold lines.

EFFECT: increased filtration area of filtering material made on corrugated web basis.

5 cl, 5 dwg

Description

The invention relates to the field of dry gas cleaning from dust and is used in filters of various industries.

Known filter material RU 2222369, made embossed with bulges in the direction of the filter flow. Between the bulges, the material is provided with a frame of more durable material. The frame can be located both inside the material and on its surface. In the filters during the regeneration of the material, parts of the falling dust interact with the bulges, which leads to dispersion of the dust and its deposits on the surfaces of the bulges opposite the incident flow. Dispersion leads to re-filtration of fine particles, and deposits - to reduce the filtering area of the material.

Known filter element RU 2283683, comprising a corrugated filter cloth, the corrugations of which are fastened together along lines perpendicular to the fold lines of the corrugations, alternately from the inside and outside to the selected depth of the corrugation height. As a result, the surface of the web is formed in the form of rhombic surfaces (planes) of the protrusions and depressions.

However, in the filters during the regeneration of the filter cloth, made in the form of rhombic protrusions and depressions, deposits are formed inside the depressions, which reduce the filtering area. The main reason for the increased deposits is the presence between the protrusion and the depression of the side surfaces, which are made to increase the filtering area. Side surfaces connect the surface of the protrusion and the surface of the cavity, and are located to them at a certain angle close to the right angle. During pulsed or reverse purging, a layer of contaminants on the lateral surfaces is directed inside the cavity, and most of the contaminants remain there. Thus, this technical solution does not allow to fully realize the advantage of the corrugated filter cloth to increase the filtering area.

Known filter material RU 2404840, selected as a close analogue, including a corrugated filter cloth, the corrugations of which include rivets located at a selected distance from the top of the corrugation and at a selected distance between the rivets along the length of the corrugation. In this case, rivets are made on opposite corrugations in a checkerboard pattern. In contrast to RU 2283683, the corrugations are secured in height not by a line, but rather pointwise by riveting, and the sequence of corrugation fastening is expressed by the concept “in a checkerboard pattern” with quantitative fixing of the distance between rivets along the corrugation line. Due to the surface of the filter material in the form of surfaces of protrusions and depressions, the filtering area during operation is reduced due to dust deposits, which is disclosed in the analysis of RU 2283683.

Thus, the technical result of the claimed invention is to increase the filtering area of the filter material made on the basis of the corrugated fabric.

The specified technical result is achieved by the fact that the filter material, including the corrugated filter cloth, the tops of the corrugations are fastened with a distance between the vertices of adjacent corrugations from 1.1 to 2.4 of the height of the corrugation. The distance between the bonds along the fold line of the corrugations is from 5 to 15 of the height of the corrugation, and the tops of the corrugations are fastened on both sides of the canvas. At the same time, the distances between the corrugation peaks on each side can be the same or different, and the fastening of the corrugation peaks on opposite sides of the canvas can be performed alternately or in a checkerboard pattern. In addition, the fastening of the corrugation top can be performed transversely or (and) at an angle to the fold lines of the corrugations.

The proposed filter material, in contrast to the prototype, is made by fastening the corrugation vertices at a certain distance, rather than the sides of the corrugation, from the corrugation fold line. This eliminates the sequence of formation of protrusions and depressions and, as a result, dust deposits in the concave parts of the corrugations when using the material in the filters. The absence of dust deposits in the concave parts of the corrugation increases the filtering area during filter operation.

The distance between the peaks of adjacent corrugations is from 1.1 to 2.4 of the height of the corrugation. When the distance between the vertices of adjacent corrugations is less than 1.1 of the corrugation height, the maximum filtering area is achieved, however, when the filter is working in the concave parts of the corrugations, dust deposits are formed due to the direction of the pollution layer during the regeneration of the material inside these corrugations, which reduces the filtering area. When the distance between the peaks of adjacent corrugations is greater than 2.4 corrugation heights, the effect of corrugation on increasing the filtering area is practically absent. The choice of the distance between the vertices of adjacent corrugations depends on the properties of the filter cloth, and for elastic cloths with a framework of more durable material (RU 2222369), use a distance closer to 1.1 corrugation heights, and for flexible materials, use a distance closer to 2.4 corrugation heights.

The distance between the bonds along the fold line of the corrugations also depends on the properties of the filter cloth, and for an elastic cloth with a frame made of a stronger material (RU 2222369), use a distance closer to 15 of the corrugation height, and for flexible materials - a distance closer to 5 of the corrugation height.

To increase the elasticity of the filter material, the corrugation vertices can be fastened on both sides of the corrugated filter cloth, and the fastening of the corrugation vertices on opposite sides of the cloth is performed alternately or in a checkerboard pattern. In this case, the distances between the corrugation vertices on each side can be the same and different, for example, for use in filters made with a circular wire frame, the side of the filter material adjacent to the frame is made with a smaller distance between the corrugation vertices than the opposite side. For rectangular frames, the distances between the corrugation vertices are the same on each side. For frames with a cross section in the form of an ellipse, the sides of the web can be made by fastening with different distances between the corrugation vertices due to the combination of circular and straight sections of the cross section in the ellipse.

As elements for fastening the corrugation vertices, strips of the web of various flexibility and elasticity or strips made at an angle to the corrugation bend lines transverse to the corrugation lines of the corrugations can be used. The fastening of the corrugation vertices, made at an angle to the fold lines of the corrugations, allows to increase the elasticity of the filter material, while a combination of transverse and fastening elements made at an angle to the fold lines is possible.

The figure 1 shows the filter material in cross section.

The figure 2 shows the filter material along the fold lines of the corrugations with transverse fastening elements and with fastening elements made at an angle to the fold lines of the corrugations.

The figure 3 shows the filter material in cross section: with fastening elements on both sides of the corrugated filter cloth, and the fasteners provide different distances between the vertices of the corrugations of the sides.

The figure 4 shows the filter material located on a wire frame of circular cross section.

The figure 5 shows a cross section of a filter material located on a wire frame of circular cross section.

In the drawings:

“A ₁ ” - the distance between the vertices of adjacent corrugations or between adjacent bend lines of corrugations on one side of the canvas;

"A ₂ " - the distance between the peaks of adjacent corrugations or between adjacent bend lines of corrugations on the other side of the canvas;

"P" is the height of the corrugation.

The filter material includes a corrugated filter cloth 1, the tops of the corrugations 2 of which are fastened by transverse fastening elements 3 or (and) fastening elements 4, made at an angle to the fold lines of the corrugations 5. The fastening elements 3 and 4 can be supplemented by fastening elements 6 and 7 made on the other side of the corrugated filter cloth 1. The distance “a ₁ ” on one side and the distance “a ₂ ” on the other side of the cloth can be the same and different for the sides, as well as different for one side of the cloth. Bonds 6 and 7 are made with respect to bonds 3 and 4 alternately or in a checkerboard pattern. The distance between the bonds on one side of the canvas and along the fold line of the corrugations is from 5 to 15 corrugation heights.

The resulting filter material 8 from a filter cloth with an internal wire mesh was installed on the wire frame 9 in the form of a standard sleeve and tested.

Tests of several filter media options showed that the initial resistance after pulsed purging is reduced to lower values compared to analogues, and in the future, the residual resistance grows more slowly. This confirms the absence of dust deposits on the filter material after pulsed purging and, as a result, an increase in the filtering area of the filter material made on the basis of the corrugated cloth.

Claims (5)

1. Filter material, including a corrugated filter cloth, characterized in that the tops of the corrugations are fastened with a distance between the vertices of adjacent corrugations from 1.1 to 2.4 of the height of the corrugation. 2. Filter material according to claim 1, characterized in that the distance between the bonds along the fold line of the corrugations is from 5 to 15 of the height of the corrugation. 3. The filter material according to claim 1, characterized in that the corrugation peaks are fastened on both sides of the web with the same or different distance between the corrugation peaks of each side. 4. The filter material according to claim 3, characterized in that the fastening of the corrugation tops on opposite sides of the web is made alternately or in a checkerboard pattern. 5. The filter material according to claim 1, characterized in that the fastening of the corrugation top is made across or (and) at an angle to the fold lines of the corrugations.

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