SU465224A1 - Cyclone - Google Patents

Description

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The invention relates to a device for trapping solid particles with a large mass (with a small specific gravity), but of considerable size and can be used in drying technology in the chemical, pharmaceutical and other sectors of the industry.

Known cycle, containing cylindrical housing with a central inlet pipe, under which coaxially installed dissecting; iy element.

In this cyclone, the dust already collected can be carried away due to the impact of the central gas flow, to avoid which large dimensions are necessary; In addition, the lack of regulation of the direction and speed of the dust-gas flow significantly affects the cleaning ratio with a slight change in gas flow, specific gravity and fractional composition of dust.

The purpose of the invention is to increase the efficiency of trapping, stabilizing the operation of the cyclone and reducing its size.

This goal is achieved by the fact that over the expansion; the end of the inlet is coaxial with it and with a gap to the conical part of the body; a spherical direction is provided with a device for axial stirring (up and down); the cutting element is made in the form of a cone with adjustable blades and a device for axial stirring (up-down). The cyclone is equipped with a second cleaning stage, which is made in the form of a diffuser placed behind a curved guide along the gas flow.

The drawing shows a cyclone, a general view. It consists of a cylindrical cone 1, a central inlet nozzle 2 with adjustable vanes 3, an outlet nozzle 4 located tangentially, a bunker 5.

Inside the case, in the lower part, there is a dissecting cone 6, having adjustable blades 7 and equipped with a device 8 for axial movement, for example, a holder pin with a stuffed seal along a helix or up and down.

Above the cutting cone 6, in the transition zone of the cylindrical part of the body into the conical, a curved guide 9 is installed with the device 10 for axial movement thereof.

The cyclone works as follows.

The dust-gas mixture enters the central inlet 2 and acquires rotational motion due to adjustable blades 3, after which the flow expands and enters the cylindrical part of body I, meeting on the way the cutting cone

6 with guide vanes 7. Dust from the dust and gas flow is drained to the walls of the housing 1 due to a sharp expansion and centrifugal force, where the first stage of cleaning takes place. The gap between the Laval nozzle section of the inlet nozzle 2 and the dissecting cone 6 is controlled by the device 8. The solid particles due to the pressure formed at the periphery and the gravitational force are lowered into the hopper 5. Next, the gas flow changes its direction due to the curved guide 9 and goes into second stage of cleaning.

The dust and gas mixture due to expansion and centrifugal force is thrown against the walls of the conical part of the housing 1, where the second cleaning stage takes place.

The gap between the curved guide 9 and the housing 1 is controlled by the device 10. The solid particles due to the pressure generated at the periphery and the gravitational force are lowered through the annular gap formed by the housing 1 and the guide 9, and then into the hopper 5. The cleaned gases leave through a tangentially located outlet 4.

Such a cyclone design allows for improved capture efficiency and reduced size by eliminating trapping of precipitated solid particles by using a dissecting cone equipped with adjustable blades (guides) and a device for its axial movement (up and down); stabilize capture

particles due to the selection of the optimal flow rate in the annular gap between the Laval nozzle section and the cutting cone by changing the cross section as

gas consumption, specific gravity and fractional composition; to increase the capture efficiency by reducing the entrainment of the product with the dust-gas flow, by installing a curved gas flow guide,

with an adjustable gap between the housing and the curved guide; increase trapping efficiency and reduce size due to the second stage of cleaning, which is achieved by a diffuser (in the direction of the upward flow behind the curvilinear guide).

Subject invention

20

A cyclone comprising a cylindrical-conical body with an expandable central inlet, under which a cutting member coaxially mounted, differing

25 by the fact that, in order to increase the efficiency of particle capture, stabilize the cyclone operation and reduce its size, a spherical guide fitted with an axial displacement device is installed coaxially with it and with a clearance to the conical part of the body. in the form of a cone with adjustable blades and a device for axial movement.

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Gas outlet -

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