RU220171U1 - Device for purifying gases from dust - Google Patents

Abstract

The proposed device is intended for purifying gases from dust and other solid particles in various industries. A device for purifying gases from dust, containing a cylindrical-conical body, in the cylindrical part of which a loading device and a device for unloading purified gas are installed tangentially, and in the lower part there is a device for unloading solid particles, connected to a hopper for receiving solid particles; in the cylindrical part of the body there are bumpers rectangular plates. The tangentially installed loading device communicates with the peripheral part of the spiral guide, and the purified gas unloading device communicates with the central part of the spiral guide, under which a conical guide element is installed with the top up, between the base of which and the inner wall of the cylindrical-conical body there is a gap, and the fender plates are rectangular in shape installed on the inner surface of the spiral guide at an angle to the vertical. The proposed design of the device makes it possible to effectively purify contaminated gases containing solid particles in varying quantities and differing in physical and mechanical properties.

Description

The proposed device is intended for purifying gases from dust and other solid particles in various industries. Can be used in chemical, pharmaceutical, food, construction and other industries.

A known dust collector-classifier [RF Patent No. 2497569 IPC B01D 45/04, publ. 11/10/2013, BI No. 31], containing an inlet pipe, dust removal pipes, a coaxially located receiving cylinder, an outlet pipe and a screen used to change the direction of flow, a second stage of gas purification from dust, equipped with an inclined bottom. The housing contains three stages of purification of dusty gas, the inlet pipe has a spiral shape, the pipes for removing large and medium fractions of dust are located on one inclined bottom, and the third stage of purification has fixed blades and a conical bottom.

The disadvantages of this device include the low degree of purification.

The closest to the proposed one is a unit for gas purification [RF Patent No. 2685650, IPC V04S 5/081, publ. 04/22/2019, BI No. 12], containing a cylindrical-conical body, in the upper cylindrical part of which a loading device is installed tangentially and a device for unloading purified gas is installed coaxially, and in the lower part a device for unloading solid particles is connected to a hopper for receiving solid particles in the lower zone In the cylindrical part of the body there are cylindrical support cavities, which are in contact with the inner surface with coaxially installed cylindrical inserts having a rotation device and through slots of rectangular cross-section, in which rectangular fender plates are placed with the possibility of longitudinal movement, equipped with a mechanism for moving along the slots, and in the conical part The cylindrical-conical body has rectilinear streams on its inner surface, the depth of which decreases towards the solid particle unloading device

The disadvantages of this device include the low degree of purification.

The technical result of the utility model is the creation of a device for purifying gases from dust, having a high degree of purification.

The technical result is achieved by the fact that a device is proposed for purifying gases from dust, containing a cylindrical-conical body, in the cylindrical part of which a loading device and a device for unloading purified gas are tangentially installed, and in the lower part a device for unloading solid particles, connected to a hopper for receiving solid particles, rectangular fender plates are located in the cylindrical part of the body.

Distinctive design features of the proposed device for purifying gases from dust are that the tangentially mounted loading device communicates with the peripheral part of the spiral guide, and the purified gas unloading device communicates with the central part of the spiral guide, under which a conical guide element is installed with the top up, between the base of which and There is a gap in the inner wall of the cylindrical-conical body, and rectangular-shaped fender plates are installed on the inner surface of the spiral guide at an angle to the vertical.

In fig. Figure 1 shows a diagram of a device for purifying gases from dust.

In fig. 2 shows section A-A.

The device for purifying gases from dust contains a cylindrical-conical housing 1, in the cylindrical part of which a loading device 2 and a device for unloading purified gas 3 are installed tangentially, and in the lower part there is a device for unloading solid particles 4, connected to a hopper 5 for receiving solid particles. The baffle plates 6 are placed on the surface of the spiral guide 7. The tangentially mounted loading device 2 communicates with the peripheral part of the spiral guide 7, and the purified gas unloading device 3 communicates with the central part of the spiral guide 7, under which a conical guide element 8 is installed with the top up, between the base of which and the inner wall of the cylindrical-conical body 1 has a gap. In the cylindrical part of the housing 1, on the inner surface of the spiral guide 7, there are rectangular fender plates 6. The fender plates 6 are installed at an angle to the vertical.

A device for purifying gases from dust works as follows.

The gases to be purified enter the internal volume of the cylindrical-conical housing 1, through a tangentially installed loading device 2 and enter the peripheral part of the spiral guide 7, where they move between the turns to its central part. During the movement, the gas with the solid particles contained in it moves along curved trajectories - between the turns of the spiral guide. Centrifugal forces of inertia press denser (compared to gas) solid particles to the inner walls of the spiral guide 7. Under the influence of gravity, pressed against the spiral guides 7, the solid particles fall down and, having reached their lower edge, fall onto the conical guide element 8, move down along its side surface and pass through the gap between its edge and the inner wall of the cylindrical-conical body 1. Next, the particles enter the solid particle unloading device 4, and then into the hopper 5 for receiving solid particles.

In order to increase the degree of purification due to additional separation of solid particles from the flow, rectangular baffle plates 6 are placed on the inner surface of the spiral guide 7. As the flow moves, the particles interact with the fender plates 6, are reflected from them and are directed downward to the conical guide element 8. The location of the fender plates 6 on the surface of the spiral guide 7 at an angle to the vertical makes it possible to separate solid particles from the gas and dust flow and direct them to the conical guide element 8.

Thus, in the proposed utility model, the separation of solid particles from the stream being cleaned is carried out when moving along spiral guides 7 and due to interaction with the baffle plates 6.

When the flow moves along spiral guides 7, the radius of curvature of the particle trajectory constantly decreases, which makes it possible to ensure high values of centrifugal forces along the entire path of movement.

The proposed design of the device makes it possible to effectively purify contaminated gases containing solid particles in varying quantities and differing in physical and mechanical properties.

Claims (1)

A device for purifying gases from dust, containing a cylindrical-conical body, in the cylindrical part of which a loading device and a device for unloading purified gas are installed tangentially, and in the lower part there is a device for unloading solid particles, connected to a hopper for receiving solid particles; in the cylindrical part of the body there are bumpers rectangular plates, characterized in that the tangentially installed loading device communicates with the peripheral part of the spiral guide, and the purified gas unloading device communicates with the central part of the spiral guide, under which a conical guide element is installed with the top up, between the base of which and the inner wall of the cylindrical-conical body there is a gap, and rectangular-shaped fender plates are installed on the inner surface of the spiral guide at an angle to the vertical.

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