RU189976U1 - SEDUCING ELECTRODE ELECTROFILTER - Google Patents

Abstract

The electrode consists of precipitation elements, each of which is made of a metal plate bent at the edges in such a way that the element in cross section is S-shaped and bent in the longitudinal direction in the middle in the form of a groove. Moreover, one of the elements is provided with means of fastening to the upper support of the electrostatic precipitator in the form of a suspension with a hook at one end of the element in its upper part and at least one fastening fixed at the other end, made of a metal strip cut along the middle not less than half strip lengths. In this case, one end of the strip is bent so that the mount forms an H-shape. The utility model provides increased efficiency and ease of maintenance, simplifying installation and disassembly. 2 hp f-ly, 5 ill.

Description

The utility model relates to electrical gas cleaning devices for fine dust and can be used in such industries as metallurgical, chemical, oil refining and others.

A precipitating electrode of an electrostatic precipitator is known, consisting of precipitation elements, each of which is made of a metal plate bent at the edges in such a way that the element in cross section is S-shaped and bent in the longitudinal direction in the middle in the form of a groove (see patent No. 77181 U1, 10/20/2008).

Known electrode is a device of increased rigidity, However, when installing the electrode in the electrostatic precipitator during operation, it is possible to rotate it around the longitudinal axis due to lack of rigidity

The disadvantage is to reduce the efficiency of the filter. The means of mounting the electrostatic precipitator in the patent number 77181 are not disclosed.

The technical result achieved by the utility model is to improve the efficiency and ease of maintenance, simplify installation and dismantling.

This result is achieved by. that in the precipitating electrode of an electrostatic precipitator, consisting of precipitation elements, each of which is made of a metal plate bent at the edges in such a way that the element in cross section is S-shaped and bent in the longitudinal direction in the middle in the form of a groove, one of the elements being equipped with fastening to the upper support of an electrostatic precipitator in the form of a suspension with a hook on one end of the element in its upper part and at least one fastening fixed on the other end made of metal VOCs cut along the middle of not less than half the length of the strip, with one end of the strip folded so that the fastening forms a W-shape.

In the precipitation electrode, the width of the chute is 10-15% of the width of the element.

The electrode also additionally contains lining of metal sheet, with the lining made with holes for fastening elements butt, and one lining is attached to the bottom in the central part of the element and to the other lining, which on its other side has a hole for mounting to the lower support of the electrostatic precipitator with mechanism shaking

When butt-mounted electrodes are preserved, the spatial geometry is preserved and the shaking force is distributed evenly between the mounting bolts and the elements themselves, which significantly reduces the load on the bolts, preventing their cutting, and leads to more efficient cleaning of the collecting electrodes. A stiffer electrode has smaller deflections and a more stable distance to the corona electrode. Under such conditions, the corona current is stronger, which leads to an improved charge process. In addition, due to the curved edges, mechanical resistance to the moving gas flow with contaminating particles appears, and some of them settle on them.

During the tests, the electrode showed the greatest efficiency with a groove width of 10–15% of the total electrode width.

FIG. 1 schematically shows an element of the electrode with fasteners, front view,

in fig. 2 - the same, top view,

in fig. 3 is a cross section of an electrode element,

in fig. 4 schematically shows the connection of the elements of the electrode in the transverse direction,

in fig. 5 - mounting the pads to the lower support of the electrostatic precipitator.

The precipitation electrode consists of precipitation elements 1, each of which is made of a metal plate with curved edges, the edges curved in opposite directions and form an S-shaped cross-section. For mounting the electrode, suspension 2 is provided in the electrostatic precipitator. Suspension 2 is made of a metal strip that is bent in the shape of a hook 3 and fixed at one end of element 1 in its upper part. Hook 3 electrode is attached to the upper support (not shown) of the electrostatic precipitator. To prevent the electrode from rotating around the longitudinal axis, a fastener 4 is provided, which is made by cutting the metal strip at least half along the longitudinal axis, with one end bent in such a way that the fastener is H-shaped. Mount 4 is installed on the other end of the element 1 from the suspension 2, which prevents the rotation of the electrode around the longitudinal axis.

To connect in the longitudinal direction of the elements 1, which form the electrode, they are provided with plates 5 for connecting the elements butt. Pads 5 are made of metal sheet and is a rectangle with beveled corners and holes 6 for fastening bolts. One of the plates 5 is fastened in the lower part of the latter in the longitudinal row of element 1 and is the connecting link between element 1 and plate 7. The plate 7 is made of metal sheet in the form of a rectangular plate with several holes 6 on one side for attachment to the plate 5 and one large hole 8 on the other hand for attachment to the lower support of the electrostatic precipitator with a shaking mechanism. The plates 5 and 7 and fasteners ensure uniform distribution of the impact energy when shaking and prevent the destruction of the electrode. In the transverse direction, the elements 1 are joined with their curved butt edges, as shown in FIG. 3

The electrode is made easy, so the element 1 is made of steel sheet by rolling. At the same time, the rollers first form a groove in the form of a gutter in the center, then bend it at the edges to form an S-shaped cross-section. At the last stage, the holes for the bolts and the cut of the elements 1 to the required length are made with a press. Suspension 2 and fastening 4 are performed by cold forming from a steel sheet. Pads 6 and 7 are made by cutting from solid metal sheet or gas cutting. All parts are bolted together.

Device operation

Assembled from the precipitation elements 1 electrode is installed in the electrostatic precipitator. At the same time on the upper support of the electrode set using a hook 3 and mounting 4 H-shaped. These mounts are easy to manufacture, and also simplify installation and disassembly and increase the rigidity of the electrode, providing an increase in the efficiency of the electrostatic precipitator by about 10-20%.

Claims (3)

1. The precipitating electrode of the electrostatic precipitator, consisting of precipitation elements, each of which is made of a metal plate bent at the edges so that the element in cross section is S-shaped and bent in the longitudinal direction in the middle in the form of a groove, one of the elements being equipped with fastening to the upper support of an electrostatic precipitator in the form of a suspension with a hook at one end of the element in its upper part and at least one fastening made at the other end made of a metal strip, p cut along the middle of not less than half the length of the strip, while one end of the strip is bent so that the mount forms an H-shape. 2. The precipitation electrode according to claim 1, in which the width of the groove is 10-15% of the width of the element. 3. The precipitation electrode according to claim 1, which further comprises lining, made of metal sheet, with lining made with holes for fastening elements butt, and one lining is attached to the bottom in the central part of the element and to the other lining, which has side hole for mounting to the lower support of the electrostatic precipitator with a shaking mechanism.

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