RU2770379C1 - Gas cleaning apparatus - Google Patents

Abstract

FIELD: gases cleaning.SUBSTANCE: proposed device is designed for cleaning gases from dust and other solid particles in various industries. In the apparatus containing a cylindrical-conical body with inlet and outlet pipes and a hopper, in the inner volume of the body, in its conical part, a coaxial cylindrical-conical screen is installed with the possibility of vertical movement, equipped with a vertical movement drive located in the inner volume of the hopper and connected to the cylindrical part of the cylindrical-conical screen using radial spokes. In this case, in the cylindrical part of the body, under the inlet pipe, coaxially with the outlet pipe, a cylindrical insert with rectangular holes on the side surface is placed with the possibility of vertical movement, and there is a gap between the inner surface of the cylindrical part of the body and the outer surface of the cylindrical insert.EFFECT: increasing the degree of purification by preventing the entrainment of particles by interacting flows in the cylindrical part of the body.1 cl, 2 dwg

Description

The proposed device is designed for cleaning gases from dust and other solid particles in various industries.

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 that serves to change the direction of flow, the second stage of gas purification from dust, equipped with an inclined bottom. Three stages of dusty gas cleaning are placed in the housing, the inlet pipe has a spiral shape, the nozzles for removing coarse and medium fractions of dust are located on one inclined bottom, and the third cleaning stage has fixed blades and a conical bottom.

The disadvantages of this device include the complexity of the design, the low degree of purification caused by the entrainment of particles by interacting flows, the limited range of application (the ability to separate solid particles of a certain size and shape) and increased hydraulic resistance.

Closest to the proposed is a device for gas purification, containing a cylindric housing, to the upper end part of which is coaxially attached to the outlet pipe, to the side surface of the cylindrical part, in its upper zone is connected to the inlet pipe, and in the lower part there is a hopper communicating with the conical part of the housing through unloading opening, in the internal volume of the body, in its conical part, a coaxial cylindrical-conical screen is installed with the possibility of vertical movement, and the taper angle of its conical part coincides with the taper angle of the conical part of the body, and the diameter of the cylindrical part of the screen is less than the diameter of the discharge opening, in addition, cylindrical-conical the screen is equipped with a vertical movement drive located in the internal volume of the hopper and connected to the cylindrical part of the cylindrical-conical screen by means of radial spokes and closed by an elastic casing. [RF Patent No. 2688545].

The disadvantages of this device include a relatively low degree of purification caused by the entrainment of particles by interacting flows in the cylindrical part of the housing.

The objective of the invention is to create an apparatus for gas purification, which has a high degree of purification due to the prevention of entrainment of particles in the cylindrical part of the housing.

The task is achieved by the fact that in the apparatus for gas purification, containing a cylindrical-conical body to the upper end part of which an outlet pipe is coaxially attached, an inlet pipe is connected to the side surface of the cylindrical part, in its upper zone, and in the lower part there is a hopper communicating with the conical part of the body through the discharge opening, in the internal volume of the body, in its conical part, a coaxial cylindrical-conical screen is installed with the possibility of vertical movement, and the taper angle of its conical part coincides with the taper angle of the conical part of the body, and the diameter of the cylindrical part of the screen is less than the diameter of the discharge opening, in addition, the cylindric screen is equipped with a vertical movement drive located in the internal volume of the hopper and connected to the cylindrical part of the cylindric screen by means of radial spokes and closed by an elastic casing.

Distinctive features of the proposed device for gas purification is that in the cylindrical part of the body, under the inlet pipe, coaxially with the outlet pipe, a cylindrical insert is placed with the possibility of vertical movement, with rectangular holes on the side surface, and between the inner surface of the cylindrical part of the body and the outer surface the cylindrical insert has a gap.

In FIG. 1 shows a diagram of an apparatus for gas purification.

In FIG. 2 shows view A.

Apparatus for gas purification, contains a cylindrical-conical body 1 to the upper end part of which is coaxially attached to the outlet pipe 2, to the side surface of the cylindrical part, in its upper zone, the inlet pipe 3, and in the lower part there is a hopper 4 communicating with the conical part of the body 1 through the unloading hole 5. In the internal volume of the body 1, in its conical part, a coaxial cylindrical-conical screen 6 is installed with the possibility of vertical movement, and the taper angle of its conical part coincides with the taper angle of the conical part of the body, and the diameter of the cylindrical part of the screen is less than the diameter of the discharge opening 5. Cylindrical-conical the screen 6 is equipped with a vertical movement drive 7, located in the internal volume of the hopper 4 and connected to the cylindrical part of the cylindrical-conical screen 6 with radial help of spokes 8. In order to prevent contact with dusty gas, the vertical movement drive is closed by an elastic casing 9.

In the cylindrical part of the body 1, under the inlet pipe 3, coaxially with the outlet pipe 2, is placed with the possibility of vertical movement, a cylindrical insert 10, with rectangular holes 11 on the side surface. There is a gap between the inner surface of the cylindrical part of the housing 1 and the outer surface of the cylindrical insert 10.

Apparatus for cleaning gases works as follows.

The gases to be purified enter through the inlet pipe 3 into the internal volume of the cylindrical-conical body 1. When moving in the internal volume, the flow is twisted and the solid particles in it are thrown to the stacks under the action of centrifugal forces and move in the near-wall layer - in the gap between the inner surface of the cylindrical part of the body 1 and the outer surface of the cylindrical insert 10.

Moving down, the swirling flow enters the conical part of the housing 1, where it interacts with the cylindrical-conical screen 6. When interacting with the screen, solid particles separated from the flow, moving in the near-wall layer, are separated by the latter from the purified gas flow. Thus, in the lower (conical) zone of the housing, solid particles move in the gap between the inner surface of the housing and the screen, and the purified gas in the volume inside the screen, that is, the separation of the peripheral condensed flow from the purified gas takes place using the screen. Going through the discharge opening 5 into the hopper 4, solid particles do not interact with the ascending flow of the purified gas, which prevents their entrainment and increases the degree of purification.

The possibility of vertical movement of the screen allows you to adjust the gap between the screen and the body, which makes it possible to effectively use the proposed apparatus for cleaning gases of various degrees of dustiness.

Due to the fact that the angle of taper of the conical part of the screen coincides with the angle of taper of the conical part of the body, when it is moved, a constant gap is provided. Making the diameter of the cylindrical part of the screen less than the diameter of the discharge opening allows the passage of solid particles into the hopper.

The location of the vertical displacement drive 7 in the internal volume of the hopper 4 (in its upper part) allows you to protect its mechanisms from contact with dusty flows. The presence of radial spokes 8 ensures the free passage of gas in the gap.

The presence of a cylindrical insert 10 ensures the separation of the swirling flow containing solids and moving down, with an upward, purified flow. This makes it possible to prevent the entrainment of solid particles in the cylindrical part of the body and, due to this, to improve the quality of gas purification.

Due to the fact that the cylindrical insert is placed with the possibility of vertical movement in this device, it becomes possible to configure the device for various operating modes and use it to purify gases with various types of dust.

The presence of rectangular holes 11 on the side surface of the cylindrical insert 10 allows you to equalize the pressure in the internal volumes of the apparatus (in the gap and the central part) and prevent the formation of radial flows that contribute to the entrainment of particles in the central part. The rectangular shape of the holes makes it possible to use almost the entire height of the cylindrical insert with a minimum size.

The use of a cylindrical insert (in the cylindrical part) and a cylindric-conical screen (in the conical part) in this apparatus for separating the downward and upward flows, which have the possibility of independent vertical movements, allows the most efficient adjustment of the apparatus, which improves the quality of cleaning, including due to preventing entrainment of particles by interacting flows.

The proposed apparatus has a high degree of purification, due to the prevention of entrainment of particles by interacting flows in the cylindrical part of the body.

Claims (1)

Apparatus for gas purification, containing a cylindrical-conical body, to the upper end part of which an outlet pipe is coaxially attached, an inlet pipe is attached to the side surface of the cylindrical part, in its upper zone, and a hopper is located in the lower part, communicating with the conical part of the body through an unloading opening, in the internal volume of the body, in its conical part, a coaxial cylindrical-conical screen is installed with the possibility of vertical movement, and the taper angle of its conical part coincides with the taper angle of the conical part of the body, and the diameter of the cylindrical part of the screen is less than the diameter of the discharge opening, in addition, the cylindrical-conical screen is equipped with a drive vertical movement, located in the internal volume of the hopper and connected to the cylindrical part of the cylindrical-conical screen using radial spokes, and closed with an elastic casing, characterized in that in the cylindrical part of the body, under the inlet pipe, coaxially with the outlet pipe , a cylindrical insert with rectangular holes on the side surface is placed with the possibility of vertical movement, and there is a gap between the inner surface of the cylindrical part of the body and the outer surface of the cylindrical insert.

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