SU1726047A1 - Electrode of electrostatic precipitator - Google Patents

Abstract

The invention relates to the electrical purification of gases from suspended particles and can be used in ferrous and nonferrous metallurgy, energy, and other industries. The goal is to increase the operational reliability of the precipitation electrode (OE). OE contains electrode modules (EM), placed one above the other and connected pivotally. Each of the EMs consists of horizontal rows of vertical plates 1 arranged parallel to each other in a row, through which the upper and lower studs 2 pass through the upper and lower ends that form articulated joints with them. Each of the EMs is additionally equipped with plate-like elements (PE) 3, through which horizontal studs 2 with rows of plates 1 placed on them, with PE 3 adjacent EM placed coaxially and hingedly interconnected, with the cross-sectional area of PE larger than the cross-sectional area plate p yes. 3 il. with C

Description

The invention relates to the electrical purification of gases from suspended particles in electrostatic precipitators and can be used in ferrous and nonferrous metallurgy, energy, cement and other industries.

The purpose of the invention is to increase the operational reliability of the precipitating electrode of the electrostatic precipitator.

The goal is achieved by the fact that in a precipitation electrode containing electrode modules placed one above the other and connected pivotally, each of the modules is made of horizontal plates arranged in horizontal rows parallel to each other in the row, through which the upper and lower ends are passed horizontal studs that form articulated with them

Compounds according to the invention. Each of the electrode modules is additionally equipped with at least two plate elements, through which horizontal studs with rows of plates are placed on them, while the plate elements of adjacent modules are arranged coaxially and pivotally interconnected, and the cross section of the plate element greater than the cross-sectional area of the plate row yes.

The use of the invention will improve the operational reliability of the electrostatic precipitator by preventing the possibility of breaks in the collecting electrodes when they are shaken. Preventing breaks of the collecting electrode plates is provided by transferring

loads, especially when shaken by lifting and then dropping the electrode onto the fixed support, from the plates of the plate to additional plate elements. The strength properties of plate elements are higher, because they have a large cross-sectional area. The transfer of the load on the plate elements is ensured by the fact that the modules of the precipitation electrode are interconnected in height through a hinged connection of their plate elements that fully perceive the entire static load of the modules. Thus, the plate is affected only by dynamic loads corresponding to its weight, as a result, in any extreme situations of tearing the ends of the plates of the row through which the studs pass, connecting the plates into a row and on which each of them is suspended, does not occur.

FIG. 1 shows the collecting electrode of the electrostatic precipitator, side view; in fig. 2 - the same, front view; in fig. 3 - plate element.

The precipitation electrode consists of modules (in Fig. 1 a three-module electrode is shown with modules I, II, III). Each of the modules is made up of two horizontal rows of vertical plates parallel to each other in each row, through which the upper and lower studs 2 horizontal studs, which form articulated joints with them, are passed through the upper and lower ends. Each of the modules includes at least two lamellar elements 3, through holes 4 of which horizontal horns 2 are also missed, while lamellar elements 3 of adjacent modules are placed coaxially and pivotally interconnected by means of earrings 5, passed through holes 6, made at their ends. Thus, modules I and II, II and III are hinged together by means of a hinged connection of their plate elements 3. The plate element 3 has a cross-sectional area that is 3-5 times larger than the cross-sectional area of a row plate. The upper module I is fixed (suspended) on the upper beam 7.

The precipitating electrode of the electrostatic precipitator works as follows.

The gas to be cleaned containing suspended particles is passed along (or through) the precipitation electrode. Suspended particles in the corona discharge field of an electrostatic precipitator acquire an electric charge and under the action of an electric field force (and a gas stream — if the gas to be purified passes through the precipitation electrode) are transferred to the precipitation electrode and deposited on

plates 1 last. Under the influence of a shaking force, for example, when lifting the upper beam 7 and then dropping the precipitating electrode on the fixed support 8, the dust layer deposited

0 on the plates 1 of the precipitation electrode, is removed to the electrostatic precipitator hopper (not shown in Fig. 1). When cleaning the collecting electrode from dust, the main dynamic loads acting on the electrode structure, especially its upper modules, are subjected to plate elements suspended from the top beam 7 of the electrode and interconnected in height by hinged joints 5, and plates 1, the main purpose which provide a highly developed deposition electrode surface and performance at elevated temperatures, do not carry any additional

5 loads, with the exception of its own weight.

Thus, the advantages of the precipitation electrode are to eliminate the breakage of the plates 1.

0 precipitation electrode under the influence of dynamic loads when cleaning the electrode from a layer of trapped dust.

The use of the invention makes it possible to increase the reliability of the electrostatic precipitator, prevents the electrostatic precipitator from stopping (and, consequently, stopping the purification of gases from suspended particles) to carry out work to remove the dangling plates, eliminates the work on

0 recovery of the electrostatic precipitator.

Claims (1)

DETAILED DESCRIPTION OF THE INVENTION A precipitated electrostatic precipitator electrode comprising pivotally connected 5 electrode modules placed one above the other and made of horizontal plates arranged in horizontal rows parallel to each other in a row, through which horizontal pins are passed through the upper and lower ends, 0 articulating joints forming with them, characterized in that, in order to increase the operational reliability of the precipitation electrode, each of the electrode modules is provided with at least 5 by two additional plate elements through which horizontal studs with rows of plates are passed, with the plate elements of adjacent modules placed coaxially and hingedly 517260476 are interconnected, and the cross-sectional area of the plate section of the plate element is large. 7