RU10596U1 - Separator Concentrator - Google Patents

Abstract

1. The separator-hub, containing a cylindrical vortex chamber, the input of the cleaned gas-air mixture, an end wall connected to the chamber, an axial pipe for removing purified air from the opposite end of the chamber and a side pipe for discharging contaminated mixture, while the axial pipe is installed in the chamber at a distance of 1 , 0 - 1.5 of the diameter of the chamber from the end wall of the input of the cleaned air, characterized in that one or more side pipes are additionally introduced into it to discharge the contaminated mixture, while all side patrons The tubes are made tangential and installed in one transverse plane on a cylindrical vortex chamber at the same distance from each other and in the direction along the rotation of the gas in the chamber. 2. The separator-hub according to claim 1, characterized in that the input of the gas to be purified contains a cylindrical body with a tangential inlet pipe.

Description

MPKVO1D 45/12 VO4S 3/00, 3/06

Hub separator

The utility model relates to devices for dividing the input total gas-air flow with a solid phase into several output streams with a higher concentration of the solid phase and one output stream with a low concentration of the solid phase and can be used in chemical, paint, construction and other industries.

Known separator-concentrator containing a vortex chamber, a swirl mounted in its lower part with rotary blades for swirling the air mixture, an axial pipe for introducing purified air into the pipe for removing the mixture, which is installed tangentially and divided by a partition into two channels, is installed at the outlet of the pipe rotary gate (see the description of the invention for the USSR author's certificate No. 313029, IPC F23K 1/00, V01D 45/12, V04C 3/00, publication 26.10.71 g).

A disadvantage of the known separator-hub is its complexity.

A known separator-concentrator containing a cylindrical vortex chamber, a snail inlet of the cleaned air, an end wall connected to the vortex chamber, an axial pipe for discharging purified air from the opposite end of the chamber and a side pipe for discharging the contaminated mixture. The end wall of the snail input is made in the form of a truncated cone connected to the vortex chamber with a smaller base facing the inside of the cochlea. The axial tube is installed at a distance of 1-1.5 diameter of the vortex chamber from the smaller base of the truncated cone (see the description of the invention to the USSR author's certificate No. 850221 MGZH VO4S 3/00, publication July 30, 81 g).

A disadvantage of the known device is the lack of dust separation efficiency.

The task to which the proposed utility model is aimed is to increase the efficiency of the concentrator separator.

This is achieved by the claimed combination of features.

The essence of the utility model lies in the fact that in the separator of the concentrator containing a cylindrical vortex chamber, the input of the cleaned gas-air stream is connected by an end wall to the chamber, an axial pipe for outputting the cleaned gas stream from the opposite end of the chamber and a side pipe for discharging contaminated mixtures, while the axial tube is installed in the chamber at a distance of 1-1.5 diameter of the chamber from the end wall of the input of the gas to be cleaned; one or more side pipes are additionally introduced into it for the discharge of contaminated cm B, wherein the lateral tangential nozzle are made and installed in a transversal plane on a cylindrical vortex chamber at the same distance from each other and in a direction along the rotation of the gas in the chamber.

In addition, the input of the cleaned air may include a cylindrical body with a tangential inlet pipe.

The essence of the utility model is illustrated by drawings, where: in Fig.1 shows a General view of the separator-hub; figure 2 - separator concentrator, top view.

The separator-concentrator contains a cylindrical vortex chamber 1, an inlet 2 of the gas-air stream to be cleaned, an end wall 3 connected to the chamber 1, an axial pipe 4 for discharging gas with a lower concentration of the solid phase from the opposite end of the chamber 1, and side pipes 5 for venting gas with a larger solid phase concentration. The axial tube 4 is installed in the chamber 1 at a distance of 1-1.5 diameter of the chamber 1 from the end wall 3 of the input 2. All side pipes 5 are made tangential and installed in the same transverse plane on the cylindrical chamber 1 at the same distance from each other and in the direction during the rotation of the gas in the chamber 1.

The input 2 of the cleaned air can be made in the form of a cylindrical body with a tangential inlet pipe.

Separator hub works as follows.

In the vortex chamber 1, the gas-air mixture with a solid phase is fed through a tangential inlet 2, where the flow acquires a rotational movement. Under the action of centrifugal force, the flow is divided into two phases: the more polluted, which moves to the near-wall zone of the chamber 1 and the less polluted, which moves in the central zone of the chamber 1 and enters the axial pipe 4 for output. The phase of the gas-air flow containing a large amount of the solid phase, moves in the wall space between the axial tube 4 and the side wall of the vortex chamber 1 and is discharged through the side nozzles 5, and the content of the solid phase in each nozzle is different.

The proposed design of the separator-concentrator allows you to split the dust and gas stream into several streams with different concentrations of the solid phase, reduce pressure losses when completing complex dust cleaning systems, which will significantly improve economic performance and increase the efficiency of further gas purification.

Claims (2)

1. The separator-hub, containing a cylindrical vortex chamber, the input of the cleaned gas-air mixture, an end wall connected to the chamber, an axial pipe for removing purified air from the opposite end of the chamber and a side pipe for discharging the contaminated mixture, while the axial pipe is installed in the chamber at a distance of 1 , 0 - 1.5 of the diameter of the chamber from the end wall of the input of the cleaned air, characterized in that one or more side pipes are additionally introduced into it to discharge the contaminated mixture, while all side patrons The tubes are made tangential and installed in the same transverse plane on a cylindrical vortex chamber at the same distance from each other and in the direction along the rotation of the gas in the chamber. 2. The separator-hub according to claim 1, characterized in that the input of the gas to be purified contains a cylindrical body with a tangential inlet pipe.