SU1542629A1 - Dust separator - Google Patents

Abstract

This invention relates to a dust collection technique and allows for improved dust collection efficiency. The dust separator includes a housing 1 with a cylindrical nozzle 6 installed in it, in the lower part of which triangular windows 10 are made to drain cleaned gas, which is flanged on the inside from the inside. 1 il.

Description

The invention relates to a dust collection technique and can be used in any branch of a national economy where gas cleaning is required from dust.

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

The drawing shows a dust separator, a slit.

The dust separator comprises a housing I forming a chamber for purified gas, in the upper part of which there is an unwinding cochlea 2 with an outlet nozzle 3, and the bottom 4 is concave and passing into a hopper 5 for collected dust. In the housing 1 there is a cylindrical nozzle 6 terminating at the bottom 4. The cylindrical nozzle 6 in its upper part is connected with a conical expansion 7, passing into a screw coil 8 with an inlet 9. In the walls of the lower part of the cylindrical nozzle 6 there are triangular windows 10. In this case, the triangles are obtuse-angled with an obtuse angle at the base parallel to the lower edge of the cylindrical nozzle 6 On the inner side of the nozzle 6, the windows 10 have flanging along their perimeter. In the hopper 5 at the lower edge of the cylindrical nozzle 6 a reflective element 11 is installed in the form of a truncated cone with an axial central hole.

Dust separator works as follows.

Dust-gas flow enters the inlet 9 and twists in the twisting cochlea 8. As a result of centrifugal forces in the conical expansion 7 and in the cylindrical nozzle 6, dust particles are separated, as a result of which they are concentrated in the near-wall area, where they coagulate, and then go to the bottom separation zones, pass through the channels formed by screening the windows 10, and then through the gap between the nozzle 6 and the reflective element 11

enter the bunker 5. Fine particles as a result of radial drift are concentrated near the axis of the apparatus and are discharged into the bunker 5 through the axial orifice of the baffle element 11. The cleaned gas passes through the openings 10 into the chamber of the cleaned gas of housing 1 and is removed from the apparatus through the spinning cochlea 2 and outlet nozzle 3. Flanging along the edges of windows 10 prevents contact of the sieved dust particles with the cleaned gas, which increases the efficiency of dust collection apparatus.

The invention has an economic effect due to the reduction in the amount of dust in the emissions of ventilation systems, as a result of the utilization of collected dust.

When the proposed dust separator is operating in the optimal mode (air velocity in the inlet nozzle is 18 m / s, the initial dust concentration is 3-5 g / m3), the dust removal efficiency is 92-94%. The efficiency of dust collection of the prototype when it is working in a similar mode is 88-90%.

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Claims (1)

Invention Formula A dust separator, comprising a housing, a swirl chamber with an inlet nozzle and conical expansion, coaxially attached thereto, a cylindrical nozzle connected to it, a reflective element in the form of a truncated cone with an axial orifice located at the base of the nozzle, a dust collector that differs the fact that, in order to increase the dust collection efficiency, in the lower part of the cylindrical nozzle there are windows for removal of the cleaned gas of a triangular shape with an obtuse angle with the base they are directed towards the gas flow, while flanging is performed on the inner side of the windows.