SU587974A1 - Cyclone filter - Google Patents

Description

(54) FILTER CYCLONE

one

The invention relates to the field of cleaning ventilation emissions from porous and fibrous particles and may find application in the textile, pulp and paper and other sectors of the industry.

Known filter cyclone containing a cylindrical body with a tangential inlet nozzle, a central output nozzle, a conical bottom, placed inside the body of a cylindrical filter element with a device for regeneration with compressed air 1.

This device is the closest to the technical essence and the achieved result of the present invention.

A disadvantage of the known device is the low degree of gas purification from the fibrous material in front of the filter element, which leads to the rapid clogging of the latter, the difficulty of its regeneration and the decrease in the efficiency of gas purification.

The purpose of the invention is to increase the efficiency of the device due to additional inertial gas cleaning.

The goal is achieved by the fact that between the filter element and the filter cyclone body there is a shell with a conical bottom, in the cylindrical part of which there is a longitudinal slit with a reflector, and the body is equipped with

its entire height and in front of the longitudinal slit is an ellipsoid trap connected to the wall of the housing and the shell.

It is advisable to carry the inlet across the entire height of the cylindrical part of the housing.

Pa figs. 1 shows a filter cyclone, a longitudinal section; in fig. 2 is a section along A-A and FIG. one.

The cyclone filter includes a housing 1 with an inlet nozzle 2, an outlet nozzle 3, a conical bottom 4 with a sluice gate 5 for removing the collected dust.

A shell 6 with a conical bottom 7 is installed inside the housing, having a longitudinal slot 8 with a reflector 9 and cylindrical filtering elements 10, illuminated to the device housing lid 11.

The filter elements are made of frames 12, covered with filter cloth 13.

The inner filter element has an open upper end for the exit of the purified gas, and the outer filter element has an open lower end for drainage.

A tube 14 with a nozzle 15 and a rotational drive 16 is installed along the axis of the device’s cornea, which serves to reversely flush the filter elements with compressed air.

The second nozzle 17 is made in the form of a pipe placed between the filter elements and attached to the pinnacle part of the pipe 14.

Before the longitudinal slit along the entire height of the case, an ellipsoid trap 18 is installed with a pipe 19 for removing the collected dust.

The device works as follows.

Through the inlet 2, the dusty gases enter the α-annular gap between the housing 1 and the shell 6, where, under the action of centrifugal forces, heavy, coarse and fibrous particles are pressed against the inner surface of the housing wall. Next, the gas enters the gap 8, changing its direction by 180 °. At the same time, the particles pressed to the inner surface of the body, continuing to move by inertia fall into the trap 18 and are removed from the device through the nozzles 19 for removing the collected dust.

Reflector 9 serves to prevent particles from escaping from the annular gap between the casing and the shell, as well as to direct the flow of purified air into the above-mentioned gap. In this gap, final gas purification from heavy particles occurs under the action of centrifugal forces. Separated dust falls into the conical bottom 7 and is withdrawn from the filter cyclone through a sluice gate 5.

The gas stream then passes successively through the filtering elements 10 and the purified gas is removed from the device through the pipe 3.

The filter fabric 13, for example polypropylene, is continuously cleaned with a stream of air supplied through pipe 14 through nozzles 15 and 17, which rotate with the pipe by means of an actuator 16.

Dust, blown off fabric, falls into annular gaps, falls into conical bottoms.

4 and 7 and is output from the cyclone filter with the slam shutter 5.

Thus, due to the installation between the filtering element and the filtering body of the shell with a conical bottom, in the cylindrical part of which there is a longitudinal slit with a reflector and supplying the body installed along its entire height n in front of the longitudinal slit with an intersecting hull wall and sidewall high efficiency of the device due to additional gas purification.

Claims (2)

1. A cyclop filter for removing air from dust, comprising a cylindrical body with a tangential inlet, a central outlet, and a conical device, located 1 inside the body of a cylindrical filter element with a device for regenerating it with compressed air, characterized in that in order to increase the efficiency of the device due to additional inertial gas cleaning, a shell with a conical bottom is installed between the filtering element and the filter cyclone body; flax gap with poisons studios, and the housing siabzh; ene installed over its entire height and front longitudinal slit trap ellipsoidal shape conjugate with the wall of the housing shell n. 2. Filter-cyclone for and. 1, characterized in that the inlet is made along the entire height of the cylindrical part of the housing. Sources of information taken into account during the examination 1. US Patent No. 2678109, cl. 55-294, 1954. Isle: ЗЕ ::: 7 и Гтра . I -five