SU1669568A1 - Deduster - Google Patents

Abstract

The invention relates to dust collectors that are used to clean the air from dust and are used in chemical, mining and other sectors of the national economy, and allows to increase the efficiency of dust collection. A dust collector comprising a housing, an inlet, an outlet, a dust exhaust outlet, an inertial separator, a bunker, the bunker being connected to the conical part of the dust collector by means of a pipe, both cones of which are closed by solid plates. At the same time, the parts of this pipe located in the bunker and in the conical part of the body are perforated with openings. 2 Il.

Description

The invention relates to the separation of dispersed particles from a gas stream using centrifugal, inertial and inertial forces and can be applied in the chemical, energy, food, machine-building, metallurgical, automotive and building materials industries, as well as in any branch of the national economy.

The purpose of the invention is to increase the efficiency of dust collection.

Figure 1 shows a diagram of a dust collector, a section (front view); figure 2 is the same, top view.

The dust collector includes a housing 1 consisting of cylindrical 2 and conical 3 parts, a cover 4. An inlet pipe 5 is attached to the cylindrical part 2 of the housing 1, an inertial separator 7 is installed to the conical part 3 of the housing 1 - coaxially to the housing 1 passing in the upper part to the exhaust pipe 8. A dust exhaust pipe 6 connects the body of the apparatus 1 with a hopper 9 having a pipe 10 for unloading the dust accumulated in it. The hopper 9 is connected to the conical part 3 of the housing 1 by means of a pipe 11. The pipe 11 is closed at the ends with continuous plates 12 and 13. The side surface of the pipe 11 is perforated with holes 14, which serve to stabilize the pressure both inside the housing 1 and inside the hopper 9. Bracket 15 with the help of rods 16 fixes the pipe 11 along the axis of the apparatus. The holes on the side surface 14 have a diameter equal to 1 / 10-1 / 13 of the diameter of the pipe 11 (established experimentally).

Dust collector works as follows.

Through the inlet 5, the tangentially dust-air mixture is introduced into the housing 1, where it makes a helical motion from top to bottom, and under the action of centrifugal forces it is cleaned. Secondary air purification occurs when air passes through the inertio xenso louver separator 7. Separated in the unit

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The dust particles with a part of the air rotate from top to bottom along the walls of parts 2 and 3 of the housing 1 of the apparatus, and then get through the dust exhaust pipe b into the bunker 9. A part of the air that enters the bunker 9 along with the dust continues its helical motion first bunker 9 from top to bottom, and then from bottom to top continues to move first in the bunker, and then in the body of the apparatus. Bottom-up, this secondary vortex captures dust particles already deposited in the bunker and carries them back to the body of the apparatus. The secondary vortex is formed and exists due to the pressure difference in the bunker 9 and the housing 1 and does not contribute to an increase in the efficiency of dust collection. To eliminate the secondary vortex, equalizing the pressure inside the housing and in the bunker is served by a pipe 11, located along the axis of the apparatus and connecting the hopper 9 (it enters the hopper approximately half of its height) and the conical part 3 of housing 1 (it enters into it by neither from nozzle 6 to separator 7). At each end, the tube 11 is closed with continuous plates 12 and 13 and on

one third of the length is perforated with holes 14 with a diameter of 1 / 10-1 / 13 of the diameter of the pipe 11. These holes serve to trap the air moving vortex-shaped in the hopper 9 and throw it into the conical part 3 of the housing 1. Thus, as a result of a decrease in pressure in the hopper 9, an increase in its conical part 3 occurs. i.e. the pressure in the bunker and the housing, and therefore, in the entire housing 1 of the apparatus, is equalized.

Claims (1)

Claims: Dust collector containing court, mustache. inlet, outlet and dust outlet, inertial separator and hopper, characterized in that. what. in order to increase the efficiency of dust collection, it is equipped with a pipe made with solid ends closed with both ends, and the bunker is connected through the pipe to the conical part of the dust collector body, with the side surface of this pipe located in the hopper and the conical part of the body perforated. four ten fig1 eight fig z