SU1301510A1 - Cyclone - Google Patents

Abstract

The invention relates to devices for centrifugal gas cleaning from solid dust particles contained in them and allows increasing the gas cleaning degree by eliminating its entrance into the dust collector and improving the cyclone aerodynamics due to the forced formation of the beginning of the rise of its vortex gas flow. The cyclone includes a housing 2 with a tangential inlet 3 and a central exhaust 4 nozzles, a dust collector 7, in front of which there is a reflector, made in the form of an inverse truncated cone 8, to the side surface of which are attached radially upward triangular blades 9 that interact with external edges with the inner surface of the housing 2 A screw 12 is attached to the larger base of the cone 8, the lifting of the turns of which is directed in the direction of rotation of the vortex gas flow. The blades 9 slow down the peripheral layer of the downward dust and gas vortex flow, prevent it from entering the dust collector 7, allow the separated dust to pass through it, and contribute to additional dust separation both before the blades 9 due to the formation of turbulence, and behind them due to the presence there are quiet, and the turns of the screw 12 forcefully form the beginning of an upward vortex flow of purified gas. I zp f-ly, 2 ill. § (L co about 01

Description

The invention relates to devices for cleaning gas flow from dust using centrifugal force, in particular to cyclones, and can be used by enterprises of mining, coal, metallurgical, energy and other industries.

The purpose of the invention is to increase the degree of gas purification by eliminating its entry into the dust collector, as well as improving the aerodynamics of the cyclone due to the forced formation of the beginning of the rising vortex flow of the purified gas.

FIG. 1 shows a cyclone, with a partial cut; in fig. 2 shows section A-A in FIG. one.

The cyclone contains a cylindrical housing 2 mounted on frame 1 with a tangential inlet 3 and central exhaust 4 nozzles and a dust outlet 5, as well as a dust collector 7 attached to the housing 2 by means of a quick-release clamp 6, mounted in front of it in the housing 2 reflector, made in the form of a truncated back a cone 8 with radially upward facing triangular blades 9 attached to its lateral surface, interacting with their outer edges with the inner surface of the conical part 10 of the housing 2, and A screw 12, aligned with its axis, is attached to the larger base 11 of the reverse truncated cone 8, the lift of which turns in the direction of rotation of the ascending vortex flow of purified gas. The reflector thus designed is loosely inserted into the housing 2 and held in its conical part 10 by jamming the blades 9.

The presence of radially upward directional elongated triangular blades that interact with the outer side edge with the inner surface of the body in its conical part prevents dust and gas flow from entering the dust collector, which eliminates its participation in dust emission, and therefore it may be small in size. In connection with the exclusion of flows in the dust outlet, the removal of dust by the cleaned gas is eliminated, and by braking the blades of the peripheral (parietal) layer of the outgoing dust and gas vortex flow from it in front of the blades and dust is additionally separated from them. By eliminating the removal of dust with purified gas and its additional separation, the degree of gas purification increases.

The use of a screw cone attached to a larger base, the raising of the turns of which coincides with the rotation of the gas flow, ensures the formation of the beginning of the upward vortex gas flow in the housing, which improves the aerodynamic

cyclone characteristic, increasing its efficiency.

The cyclone works as follows. Cyclone attach tangential

the inlet pipe 3 to the source of dusty gas, and the central exhaust pipe to the exhaust fan (not shown). When the fan is turned on, the dusty gas through the tangential inlet nozzle 3 with a high (more than 20 m / s) velocity enters the cylindrical body of the 2nd cyclone and acquires in it a downward (vortex) motion. In this case, under the action of the centrifugal force arising during the rotation of the dust particles

are thrown to the wall of the housing 2 and move along it down to the dust outlet 5, and the purified gas freed from dust is concentrated in the center of the housing 2 and is rotatingly ascending (vortex) flowing to the central exhaust pipe 4 and vented through the fan into the atmosphere or enters a technological process. The entrance to the reflector, the peripheral layer of the downward dust-gas vortex flow is braked by blades 9. Previously separated dust from the wall of the conical part 10 flows down to the dust outlet 5 and falls through it into the dust collector 7.

Cree passing vortex flow over

- blades 9 gas, as a lighter substance in comparison with dust, due to bending around them changes the direction of movement, which does not coincide with the direction of movement of dust due to its greater inertia, therefore dust is additionally separated from the gas as before the blade mi 9 due to the formation of a turbulence in front of them, and behind them due to the presence of a lull there. Due to the additional separation of dust from the vortex flow, the degree of gas purification increases. When a downward flow reaches the base 11 of the reverse truncated cone 8, it encounters ascending turns of the screw 12, which forcibly form the beginning of the upward flow of purified gas entering the central outlet 5 of the floppy pipe 4, and reducing its resistance to movement, improves the aerodynamic characteristics of the cyclone.

Due to the presence of a reflector in the cyclone containing elongated triangular blades and a screw with upward turns directed in the direction of rotation of the vortex flow, the downward dust and gas flow into the dust collector is eliminated, eliminating the removal of the cleaned gas

5 of separated dust, additional separation from the stream is achieved, an increase in the degree of gas purification and an improvement in the aerodynamic characteristics is provided.

cyclone tics. In view of this, the latter may have small dimensions allowing use of interp in low rooms and in battery cyclones.

Claims (2)

1. A cyclone containing a cylindrical body with a tangential inlet and central exhaust pipes and a dust outlet in the conical part, a dust collector and a reflector installed in front of it in the case, in order to increase the degree of gas purification by eliminating the entrance it in the dust collector, the reflector is made in the form of The war truncated cone with the lower part attached to the side surface of the lower part of the triangular radially upward directional blades, interacting outer edges with the inner surface of the housing. 2. The cyclone according to claim 1, characterized in that, in order to improve its airfield 1, by compulsory formation of the beginning of an upward vortex flow of purified gas, it is equipped with a screw fixed on a larger base of a reverse truncated cone and coaxially aligned with it. directed in the direction of rotation of the vortex gas flow.