SU1692660A1 - Cyclone - Google Patents

Abstract

The invention relates to a device for separating solid particles from gas and allows an increase in the degree of gas purification. The device comprises a housing consisting of cylindrical 1 and conic 2 parts, tangential inlet 3 and axial outlet 4 nozzles. In the conical part of the housing 2 there are tangential slots 5. The dust collector 6 is equipped with a branch pipe 7 connected to the outlet nozzle 4 and a conical inertia separator located in it, with a conical needle 13 that can be moved inside it. Between the conical part 2 of the housing and the wall 15 of the dust collector 6 is installed cylindrical shell 16. 3il.

Description

The invention relates to devices for separating solid particles from gas.

The purpose of the invention is to increase the degree of purification of gas from dust.

Figure 1 shows a cyclone, a General view; figure 2 is a section aa in figure 1; Fig. 3 section BB in Fig. 1.

The cyclone contains a housing consisting of a cylindrical 1 and conical 2 parts, a tangential inlet 3 and an axial outlet 4 pipe. The conical part 2 of the housing has tangential slots 5 made along its generators and is located in the dust collector 6, equipped with a branch pipe 7 with an adjustable choke 8 installed in it.

The outlet pipe 7 is connected to the outlet pipe 4 and is equipped with a conical inertial separator installed in it, made in the form of a set of truncated conical inserts 9 located with a gap.

The dust outlet pipe 10 of the inertial separator is located in the inlet pipe 3 provided with an ejection plate 11. In the inner space 12 of the inertia separator, the conical needle 13 is mounted with vertical movement. The conical part 2 of the housing has a dust outlet 14, while it is installed between it and the wall 15 of the dust collector 16 cylindrical shell 16.

The cyclone works as follows.

The flow of dusty gas through the tangential inlet pipe 3 enters the cyclone, where it is twisted in the cylindrical part 1 of the housing, forming an annular space with the outlet pipe 4.

Dust particles due to centrifugal forces are thrown to the walls of the housing and move down to its conical part 2.

When the vortex flow moves in the conical part 2 of the casing, dust particles fly out of it through the tangential slots 5 towards the cylindrical shell 16, are reflected from it and fall into the dust collector 6. At the same time, larger dust particles are discharged through the tangential slots 5 in their upper part, and in the lower part are smaller.

Dust particles not removed through the tangential slots 5 fall into the dust collector 6 through the dust outlet 14.

The upward flow of purified gas is discharged through the axial outlet pipe 4.

Dusty gas from the dust collector 6 is sucked out through the outlet pipe 7 due to rarefaction in the dust outlet pipe 10, which occurs when it flows around the gas stream in the inlet pipe 3 provided with an ejection plate 11, as well as in the vacuum in the outlet pipe 4. Gas flow rates in the pipes 11 and 7 are regulated by the deflection of the plate 11 and the throttle 8, and the total flow rate by moving the conical needle 13.

A set of conical inserts 9 constituting an inertial separator allows secondary collection of fine dust particles due to inertial forces that exclude the possibility of dust particles moving along a trajectory with a small radius, while the gas flow passes through the gaps between the inserts 9, dramatically changing the direction of movement.

The stream of purified gas after the inertial separator enters the outlet pipe 4, and the dust with the flow of conveying gas through the pipe 10 - into the tangential inlet pipe 3.

The speed of the gas flow in the inner space 12 of the inertial separator is controlled by changing its bore when moving the conical needle 13.

This design allows the use of a small diameter cyclone to separate solid particles, and also to eliminate clogging of the dust outlet of the conical part of the housing.

Claims (1)

Claim A cyclone containing a housing consisting of a cylindrical and conical parts, a tangential inlet and axial nozzles, the conical part of the housing is located in the dust collector, equipped with an outlet pipe with an adjustable choke installed in it, characterized in that, in order to increase the degree of gas purification from dust, of the conical part of the housing, tangential slots are made, and the outlet pipe is connected to the outlet pipe and is equipped with a conical inertial separator installed in it, the dust pipe of which is located in one cyclone nozzle equipped with an ejection plate, while the inertial separator comprises a conical needle mounted movably inside it to control the gas flow.