RU2198736C2 - Collector electrode for electrostatic separators - Google Patents

Abstract

FIELD: electric filters. SUBSTANCE: collector electrode is so designed that distance between parallel sections along perpendicular to them amounts to 0.16 to 0.4 of distance along axis between central planes of adjacent strips of sheet metal. Width of parallel sections is from 0.025 to 0.075 of distance between centers of two parallel sections in one plane following one another. Gap in zone of bend, on boundary of strip of sheet metal exceeds thickness of strip of sheet metal by factor of 5.2-6.2. Outer length of zone of bend exceeds value of gap in zone of bend by factor of 2.5-3.5. Transit part between parallel sections and inclined sections form with parallel section angle from 30 to 60 degrees. Length of transit part is from 0.12 to 1.4 of width of parallel section 13. EFFECT: improved electric and operational characteristics of electric filter. 1 cl, 4 dwg

Description

 The present invention relates to an electrostatic electrode, preferably intended for electrostatic separators.

This electrode is made in the form of a sheet metal strip with a repeatedly curved profile for an electrostatic separator for dry dust (dry electrostatic dust collector) with a horizontal flow, in which sections parallel to the direction of flow are located between sections located with an alternating slope to the direction of gas flow. The boundary sections of the sheet metal tape also extend parallel to the direction of flow. They are 180 ^° curved to form a moving hook at the end. The angle between the inclined sections and the parallel sections of sheet metal tapes is at least about 150 ^° . The dimensional ratios for this electrode are worked out in detail.

 Known collecting electrodes made in the form of strips of sheet metal intended for dry electrostatic dust collectors. Usually they have alternating and symmetrically located dust collection zones, and at vertical longitudinal boundaries they are usually made in such a way that two subsequent metal sheets can be hooked to each other with a hook.

 Collecting electrodes are also known that are partially connected to a knockout set of rods at the lower end. A set of rods simultaneously serves as a transverse connection.

 Known collecting electrodes made in the form of strips of sheet metal have various disadvantages. For example, in some designs, two strips of shaped metal sheet need to be welded to each other, which causes elongation of the strip of sheet metal profiled in the cold state, and in the case of very long strips of sheet metal, this causes deviations from the specified dimensions, leading to difficulties in the assembly process of the collecting electrodes, and the efficiency of such an electrostatic separator is reduced. In the case of other known collecting electrode designs, two adjacent sheet metal strips can simply be engaged with each other. However, the profile of the sheet metal strip does not allow a direct, firm connection to the knocking out set of rods, or the dust collection zones are completely flat in width, so there is a risk that the collected dust will fall back into the gas stream when these zones are cleaned. It is known that when deciding on the shape of the collecting electrodes, a number of conflicting requirements must be taken into account. The depth of the dust collection spaces should be such that fixed zones can be formed that are not affected by the gas flow and in which a real dust coating can be formed with minimal swirling dust in the opposite direction during the cleaning process. On the other hand, with the formation of deep capture zones, the gas flow rate is higher, resulting in a decrease in the degree of separation. Therefore, it is necessary to ensure the most uniform distribution of the flux density when designing the electrode profile.

 Czech patent 278119 proposes to avoid the above disadvantages by using special form ratios. But there is a disadvantage in that the shape of the electrodes is not completely optimal and as a result of this, the electrical characteristics, as well as the operational characteristics of the filter as a whole, deteriorate. The mechanical properties of the collecting electrode in the longitudinal and transverse directions are not completely satisfactory. With electrodes made in this way, secondary dust particles fly off the surface, resulting in reduced efficiency. It is proposed to eliminate the above-mentioned disadvantages by means of a construction according to CZ 4514 U1, in which a transition zone is formed that improves electrical and operational characteristics, as well as, for example, increases rigidity.

The technical result of the present invention is to eliminate the above disadvantages. This technical result is achieved by the fact that in the collecting electrode, preferably intended for electrostatic separators, consisting of a sheet of metal tape with a shaped profile designed for horizontal gas flow, and between sections located with alternating inclination with respect to the direction of gas flow, there are sections parallel to the gas flow, as a result of which the boundary sections of the sheet metal strip also run parallel to the direction of flow, and they are bent 180 ^o at the end for the formation of a moving hook, and the angle between the inclined sections and parallel sections of the strips of sheet metal is at least 150 ^o , between the parallel sections and the inclined sections there are transitional parts. This electrode according to the invention is characterized in that the distance between parallel sections along the perpendicular to them is from 0.16 to 0.4 from the distance along the axis between the central planes of adjacent strips of sheet metal, the width of parallel sections is from 0.025 to 0.075 of the distance between the middle two consecutive parallel sections in the same plane, the gap in the bend zone at the border of the sheet metal strip exceeds the thickness of the sheet metal strip by 5.2-6.2 times, and the outer length of the bend zone is reduces the gap in the bend zone by 2.5-3.5 times, while the transitional part between the parallel section and the inclined sections forms an angle with the parallel section, comprising from 30 to 60 ^o . The length of the transitional part is from 0.12 to 1.4 of the width of the parallel section.

 By maintaining the shape and dimensional limits according to the invention, better electrical characteristics of electrostatic separators are provided, resulting in a higher separation efficiency. In addition, the strength characteristics of the collecting electrodes are taken into account.

The invention is further described with reference to the drawings, in which:
figure 1 depicts a cross section of one strip of sheet metal with longer horizontal sections;
figure 2 depicts a cross section of one strip of sheet metal with shorter horizontal sections;
figure 3 depicts a longer horizontal section in more detail;
figure 4 in more detail depicts a shorter horizontal section.

 An example embodiment of the invention.

The collecting electrode according to the invention is made of a strip 5 of sheet metal with a shaped profile designed for horizontal gas flow. Between the inclined sections 12 arranged with an alternating slope with respect to the gas flow, horizontal sections 13 are arranged parallel to the flow direction in the direction of the central plane 4, as a result of which a capture zone 2 is formed. The boundary sections of the bend 9 of the strip 5 of the metal sheet also extend parallel to the flow direction and are bent 180 ^° at the end to form a moving hook. The angle between the inclined sections 12 and the horizontal sections 13 of the metal sheets 5 is at least 150 ^o . There are transitional parts 14 between the parallel sections 13 and the inclined sections 12. The distance 1 between the parallel sections 13 along the perpendicular thereto is from 0.16 to 0.4 from the distance 3 along the axis between the middle planes 4 of the adjacent strips 5 of sheet metal. The horizontal sections 13 have a width of 7, comprising from 0.025 to 0.075 from the distance 6 between the midpoints of two consecutive parallel sections 13 in the same plane. The gap 8 in the bend zone 9 at the border of the sheet metal strip 5 exceeds the thickness 10 of the strip 5 of sheet metal by 5.2-6.2 times, and the outer length 11 of the bend zone 9 exceeds the gap 8 in the bend zone 9 by 2.5- 3.5 times. The transition part 14 between the parallel section 13 and the inclined sections 12 forms an angle α with the parallel section 13, comprising from 30 to 60 ^o . The length 15 of the transition part 14 is from 0.12 to 1.4 from the width 7 of the parallel section 13.

Claims (2)

1. A collecting electrode, preferably intended for electrostatic separators, consisting of a sheet metal strip with a shaped profile designed for horizontal gas flow, in which sections parallel to the gas flow are located between sections arranged alternately with respect to the gas flow direction, whereby the boundary portions of the sheet metal strips are also parallel to the flow direction, and they are bent at 180 ^o at the end to form a hook moving under em angle between the inclined portions and the parallel portions of the sheet metal strips is at least 150 ^o, between the parallel portions and the inclined portions are transitional portion, characterized in that the distance between the parallel portions along the perpendicular thereto is from 0.16 to 0.4 times the the distance along the axis between the central planes of adjacent strips of sheet metal, the width of the parallel sections is from 0.025 to 0.075 from the distance between the midpoints of two consecutive parallel sections in the same gloss, the gap in the fold zone at the border of the sheet metal strip exceeds the thickness of the strip of sheet metal by 5.2-6.2 times, and the outer length of the fold zone exceeds the gap in the fold zone by 2.5-3.5 times, and at the same time the transitional part between the parallel section and the inclined sections forms an angle with the parallel section, comprising from 30 to 60 ^o .  2. The collecting electrode according to claim 1, characterized in that the length of the transitional part is from 0.12 to 1.4 from the width of the parallel section.

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