RU2656304C2 - Cyclone-dust collector "pipe in a pipe" - Google Patents

Abstract

FIELD: technology for cleaning.

SUBSTANCE: invention relates to a technology intended for dry cleaning of gases from dust and can be used in construction, refractory, metallurgical, food and other industries. Cyclone-dust collector "Pipe in a pipe" contains a cylinder-conical casing with an inlet nozzle located tangentially at an angle to the horizontal and with a cylindrical outlet nozzle coaxially connected to the casing and located in the center of the casing; a cylindrical insert installed in the body, in which the conical casing of the second stage of cleaning of the cyclone is located with a tangential inlet pipe and an exhaust pipe.

EFFECT: technical result: increasing the efficiency of cleaning dusty gas emissions, saving production spaces and energy resources.

1 cl, 3 dwg

Description

The invention relates to techniques for dry dust cleaning of gases and can be used in the construction, refractory, metallurgical, food and other industries.

The closest in technical essence and the achieved effect is cyclone TsN-11 (Shtokman EA. Air purification at food industry enterprises. - M .: Food industry, 1977. - 304 p., P. 59), which consists of a cylinder-conical housing with an inlet pipe tangentially located at an angle to the horizontal and an outlet pipe coaxially connected.

The disadvantage is the low degree of purification of gas emissions from dust due to the possibility of swirling and removal of its fine fractions.

An object of the invention is to increase the efficiency of cleaning dusty gases from dust, reducing material and energy consumption.

The object of the invention is achieved in that in a cyclone dust collector comprising a cylindrical conical housing with an inlet pipe tangentially located at an angle to the horizontal located in the center of the housing and a cylindrical insert coaxially connected to the housing, a conical housing is installed in the cylindrical insert the second stage of cyclone cleaning, equipped with a tangentially located inlet pipe and exhaust pipe.

The technical result consists in increasing the efficiency of cleaning dusty gas emissions from dust, lowering material and energy intensity in comparison with a two-stage cleaning system.

In FIG. 1 is a diagram of a cyclone dust collector; FIG. 2 - the movement of flows in the first stage of the cyclone dust collector; FIG. 3 - the movement of flows in the second stage of the cyclone dust collector.

The cyclone dust collector “Pipe in pipe” consists of a cylindrical conical housing 1, a cylindrical insert 2, a conical housing of the second stage 3, inserted into a cylindrical insert 2, tangentially located at an angle to the horizontal of the inlet pipe 4; the inlet pipe of the housing of the second cleaning stage 5, the exhaust pipe 6; a nozzle for removing precipitated dust 7 and an annular nozzle 8 formed by the cyclone body 1 and the body of the second stage 3 to remove precipitated dust after the first cleaning stage.

The cyclone dust collector "Pipe in the pipe" works as follows. Dusty gas through the inlet pipe 4 (Fig. 2) enters the casing, moves in a spiral towards the lower end of the outlet pipe of the cylindrical pipe 2. Under the action of the centrifugal force resulting from this, dust particles are thrown to the wall of the casing 1, hit it and fall down in the conical part, after which the annular nozzle 8 is removed through the nozzle 8. Partially purified air enters the space between the cylindrical insert 2 and the body of the second cyclone 3 cleaning stage. Moving there spirals upward, partially the cleaned stream enters the inlet of the second stage 5 - FIG. 3. Due to the location of the nozzle 5 and the housing 3, the flow spirals downward along the inner wall of the housing 3, due to the centrifugal force, the particles remaining in the stream after the first stage are removed through the nozzle 7, and the second-cleaned stream enters the exhaust pipe 6.

The proposed cyclone dust collector "Pipe in the pipe" allows you to increase the efficiency of cleaning dusty gas emissions, save production space and energy.

Claims (1)

A pipe-in-pipe cyclone dust collector comprising a cylindrical conical body with an inlet pipe tangentially angled to the horizontal and a cylindrical outlet pipe coaxially connected to the body located in the center of the body, characterized in that a cylindrical insert is installed in the cyclone body, in which there is a conical the housing of the second stage of cyclone cleaning with a tangential inlet port and an exhaust pipe.

Images