SU1680347A1 - Apparatus for cleaning gas-dust flow - Google Patents

Description

The invention relates to the release of dust from the gas-dust flow during the cyclone process and allows to

energy consumption by reducing the hydraulic resistance of the cyclone without reducing the degree of cleaning. The device for cleaning includes a housing 1, an inlet 2, an axial outlet nozzle 3, a mesh flow booster 4 placed vertically between the end of the outlet nozzle and a bunker and made in the form of a packet of grids radially fixed on the longitudinal central rod 6. In the vertical section of the mesh is equal half of the vertical sectional area of the cyclone conical cyclone body. The living section of the nets is 60-70%, and the number of nets is 8-14. 1 hp f-ly, 2 ill.

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The invention relates to the field of dust from the gas and dust flow during the cyclone process and can be used in industries in which production conditions require the use of reciprocating cyclone apparatus for dust collection.

The aim of the invention is to reduce the energy consumption for the cyclone process by reducing the hydraulic resistance without reducing the degree of gas purification, as well as reducing labor costs during repair and installation and cleaning works,

FIG. 1 shows a device for cleaning, a general view; figure 2 - section aa in Fig, 1.

A device for cleaning a gas and dust flow comprises a housing 1 provided with an inlet nozzle 2, an axial outlet nozzle 3 and an unwinding flow 4, a bunker 5 for collecting solid particles.

The straightener 4 thread is installed vertically in the area between the end of the outlet nozzle and the hopper 5 and is made in the form of a packet of grids. The grid packet in the transverse horizontal section is made in the form of a radial star-shaped structure whose center is formed by a longitudinal central rod 6 on which the grids 7 are radially fixed. Area each grid 7 is equal to half the vertical area of the cylindrical conical part of the cyclone body, in which the spinner 4 is directly located. The housing 1 at the junction of its cylindrical part with the conical part is made detachable by means of a flange connection 8,

The device works as follows.

Gas and dust flow enters through the inlet 2 (tangential or spiral snail) into the housing 1 and acquires a rotational motion. A downward rotating spiral flow drops along the inner walls of the cyclone body and repeatedly passes through a packet of straighteners on its way.

4, which allows for an intensive spin-up of the downward and upward flows and, thus, a decrease in the hydraulic resistance.

A downward rotating stream, in which the bulk of the generated dust is concentrated, goes further into the bunker.

5, where the final sedimentation of particles occurs. The flow then rotates 180 ° and forms an upward rotating flow of dust-free gas inside the downstream. This thread comes out of

bunker 5 and when moving upwards in

cylindrical barrel of the cyclone passes through a packet of straighteners 4

flow and is removed from the cyclone through the pipe 3.

The straightener 4 thread is made in the form of a package of grids having a radial star-shaped structure, the center of which is formed by a longitudinal central rod 6 with a diameter of 3 mm, on which radial grids are fixed, for example, by soldering. The height of the net is equal to the distance from the end of the outlet nozzle to the plane of the outlet of the conical part of the cyclone body. The straightener is placed in the cylindrical body of the cyclone so that its grids contact with the inner surface of the wall of the cyclone body. The living section of the grids 7 is 60-70% and the number of grids in the package is 8-14. Such an embodiment of the flow spinner in the proposed device allows minimizing the hydraulic resistance of the device associated with the use of the specified range of the living section of the nets 7. Moreover, due to the fact that the living section of the nets is 60-70%, the cells of such nets facilitate the passage of all large fractions of dust particles trapped in a cyclone, which with a smaller living section is delayed by nets. Therefore, the proposed device achieves a high degree of gas cleaning from dust,

The fact that the cyclone body is made detachable at the junction of its cylindrical part with the conical part with the help of flange connection 8 makes it possible to reduce the labor costs for cleaning and repair and installation work. For example, in the technology of applying polymer powder coatings it is often necessary to change the color of the polymer powder. To do this, clean up the collecting powder of the cyclone of the particles of the powder adhered to its inner surface. With the cyclone's one-piece case, this cleaning is not fully possible, which leads to poor quality polymer coating and an increase in labor costs associated with cleaning work.

The detachable cyclone body allows you to quickly perform repair and installation work associated with the installation and removal of the flow spinner from the cyclone body and its cleaning.

Test results show that

the proposed device compared to

known reduces the hydraulic resistance, and consequently,

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energy consumption during cyclone

process 3.5-3.7 times without practically reducing the degree of purification.

In addition, the proposed technical solution allows to reduce labor costs during cleaning and repair and installation work.

The proposed device allows you to create highly efficient designs of cyclone devices with low energy consumption and a high degree of dust collection.

Claims (2)

Claim 1. A device for cleaning a gas and dust flow, comprising a cylindrical housing with inlet and axial outlet connections, a collection bin for solid particles, a mesh spreader, installed between the end of the outlet nozzle and the bunker, characterized in that, in order to reduce energy consumption by reducing hydraulic resistance without reducing the degree of gas purification, the mesh spreader is made in the form of a packet of grids radially fixed on the longitudinal central rod the vertical section of the cylindrical housing, while the living section of the nets is 60-70%, and the number of nets is 8-14. 2. The device according to claim 1, that is, in order to reduce labor costs during repair and assembly and cleaning works, the body at the junction of the cylindrical and conical parts is made detachable by means of a flange connection. Aa