SU1766525A1 - Cyclone - Google Patents

Abstract

Use: in the field of gas purification. SUMMARY OF THE INVENTION: The inlet port has a trapezoid shape in cross section, the upper 3 and lower 7 walls of which are parallel to the cyclone cover, and the side walls 8 and 9 are parallel, respectively, forming the conical housing 10 and forming the outlet 11 3 Il. fi-ff

Description

Figz

The invention relates to the field of gas cleaning, namely, to centrifugal inertia dust collector m.

The SIOT cyclone is known, consisting of a conical body, inlet tangential, outlet and dust outlet.

A disadvantage of the known cyclone is the insufficiently high efficiency of air purification from dust caused by increased turbulence in the dusty air mixture in the upper part of the body due to the inconsistency of the triangular shape of the cross section of the inlet nozzle with the cross section of the upper part of the cyclone body to which the airborne mixture is supplied.

The aim of the invention is to increase the efficiency of air cleaning from dust.

This goal is achieved by the fact that in a known cyclone comprising a conical body with a lid, an inlet tangential, an outlet axial and a dust outlet, according to the invention, the inlet has a cross section of a trapezium whose upper and lower sides are parallel to the lid, the first side is located on the outer wall of the nozzle parallel to the generatrix of the body cone, and the second side is located on the wall of the nozzle closest to the axis of the body parallel to the generatrix of the output nozzle.

Comparative analysis with prototym allows us to conclude that the proposed cyclone is distinguished by the trapezoidal cross-sectional shape of the inlet nozzle. Thus, the proposed technical solution meets the criterion of Novelty.

Analysis of the known technical solutions (analogues) in the studied area, i.e. gas cleaning, and in adjacent areas, allows to conclude that there are no signs in them that are similar to the significant distinctive features in the proposed cyclone, and to recognize the proposed solution meets the criterion Significant differences.

FIG. 1 shows a cyclone, longitudinal section; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a section BB in FIG. 2,

The cyclone contains a conical body 1 with a cover 2. A tangential inlet 3 and an axial outlet nozzle 4 are attached to the upper part of the conical body 1, and a dust outlet pipe 5 is located in the lower part of the body 1. The inlet 3 has a cross section

the shape of the trapezoid, the upper 6 and lower 7 walls of which are parallel to the lid 2, the first lateral side 8, is located on the outer wall of the nozzle 3, parallel to the generatrix of the cone 9 of the housing 1, and the second lateral side 10 located on the proximal to the axis of the housing 1 wall of the nozzle 3, parallel to the generatrix 11 of the outlet nozzle 4. Inside the conical housing 1 is located

a conical inertial separator 12. The cyclone works as follows. The air flow together with suspended dispersed dust particles is fed into the housing 1. Here the dust-air flow makes a helical rotation from top to bottom around the outlet 4, where the centrifugal forces cause the primary cleaning of the air from dust. The bulk of the dust particles is pressed

to the inner wall of the housing 1, and making a helical rotation downward, enters the dust exhaust pipe 5, from which dust enters the hopper for collecting dust (not shown in Fig.). Then airflow with

the remaining dust particles enter the cavity between the conical body 1 and the conical inertial separator 12, continuing the helical rotation from top to bottom and pass gradually through the inertial separator 12. When passing through the inertial separator 12, secondary air purification from dust occurs: the removed particles of dust get into the dust outlet 5 and the cleaned air from the inner cavity of the inertial separator 12 enters the outlet 4, from which it is removed to the outside,

Trapezoidal shape in cross section of the inlet pipe 3, in which

the upper 6 and lower 7 walls are parallel to the lid 2, and the side walls 8 and 10 are parallel respectively forming the conical housing 9 and forming the output patrolvka 11, ensure smooth entry of the dust-air mixture from the inlet 3 into the upper part of the housing 1 with a minimum of turbulization of the dust-air flow in turn leads to an increase in the efficiency of air purification from

dust.

Comparative tests of the proposed cyclone and SIOT cyclone, carried out on a test stand for dry cyclones mounted at the Department of Processes and

devices of the Lviv Polytechnic Institute, showed the efficiency of dust collection for standard quartz dust with a median diameter of 8 microns equal respectively to 79% and 72.5%.

Claims (1)

Claims of the invention A cyclone containing a conical body with a lid, an input tangential, an output axial and a dust outlet pipe, characterized in that, in order to increase the efficiency of air purification from dust, the inlet pipe has a trapezoid shape in cross section, the lower side of which is parallel to the lid, the first side, located on the outer wall of the nozzle parallel to the cone-forming body, and the second side, located on the wall of the nozzle parallel to the axis of the body, parallel-forming the output nozzle. BUT I five 1 one BUT-/