RU109995U1 - MECHANISM FOR SHAKING CORONA ELECTROFILTER ELECTRODES - Google Patents

Abstract

 The mechanism of shaking the corona electrodes of the electrostatic precipitator, consisting of an electric drive, a gearbox and a transmission mechanism with an insulating element - a connecting rod-insulator, characterized in that the insulating element is made of an elastic polymer or ceramic material with damping gaskets of tips.

Description

The proposed utility model relates to the electrical cleaning of gases from suspended particles in various industries, in particular in the power industry, chemical industry, building materials industry, metallurgy, etc.

Electrofilters are known in which porcelain insulating elements (connecting rod insulators) are used as an insulating element (connecting rod-insulator) in shaking mechanisms. VN Uzhov Industrial gas purification by electrostatic precipitators. M. Chemistry. Page 322. These insulating elements did not have sufficient mechanical reliability due to the hard incorporation of porcelain in the tips, as well as due to electrical breakdown of the surface.

Glass epoxy insulators are also known. The disadvantage of these insulators is that during operation in the presence of dust and at temperature extremes, electrical breakdowns appear on the surface of the glass-epoxy and glass-epoxy-phenol insulators, which disable the insulators, which leads to failure of the fields of the electrostatic precipitator. This reduces the reliability of electrostatic precipitators.

(Gas-cleaning equipment. Electrofilters. Catalog. CINTIKHIMNEFTEMASH. M.1986, Birger M.I., Waldberg A.Yu., Myagkov B.I. Guide to dust collection. M. Energoatomizdat, 1983, p. 208, htt.//www .ykkondor.ru / catalog / 39).

The technical task of the proposed utility model and the technical result achieved by solving it is to increase the reliability of electrostatic precipitators through the use of insulating elements of high reliability.

The specified technical result is achieved in that the mechanism of shaking the corona electrodes of the electrostatic precipitator, consisting of an electric drive, gearbox and gear with an insulating element (connecting rod-insulator), is characterized in that the insulating element is made of an elastic polymer or ceramic material.

Due to the fact that the insulating element is made of an elastic polymer or ceramic material, the electric strength of the insulating element increases, there are no electrical breakdowns of the insulating element. The use of ceramic materials with damping gaskets of tips eliminates the breakage of the ends of the insulating element. As a result, the reliability of the fields of the electrostatic precipitator and the apparatus as a whole increases with variable mechanical loads and with temperature differences of the gas being treated.

These features are significant and interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

The proposed utility model is industrially applicable, since its manufacture does not require special equipment and technologies.

The described design of the utility model does not exclude other options for its manufacture containing a combination of features included in an independent claim of the utility model formula.

Claims (1)

The mechanism of shaking the corona electrodes of the electrostatic precipitator, consisting of an electric drive, a gearbox and a transmission mechanism with an insulating element - a connecting rod-insulator, characterized in that the insulating element is made of an elastic polymer or ceramic material with damping gaskets of tips.