RU217720U1 - Cyclone with outlet channel - Google Patents

Abstract

The utility model relates to devices that are used to separate dispersed impurities from a dust and gas flow, and can be used to purify gases from dust particles in the food, mining, textile, chemical and other industries. The cyclone with an outlet channel consists of a cylindrical-conical body, a rectangular inlet tangential branch pipe, a spiral volute, an axial branch pipe, a conical part of the body, an outlet branch pipe, a conical vortex funnel, a baffle cone, and an unloading window. At the top of the baffle cone there is an outlet tube leading outside the conical part of the body, in which the diameter of the upper part of the cone is greater than the diameter of the outlet tube. EFFECT: removal of dispersed impurities from the zone of eddy formation in a vortex conical funnel by installing an outlet channel. 1 ill.

Description

The utility model relates to devices that are used to separate dispersed impurities from a dust and gas flow, and can be used to purify gases from dust particles in the food, mining, textile, chemical and other industries.

The closest in technical essence and the achieved effect is a cyclone [PM Patent No. 208117], the distinguishing features of which are the presence of a baffle cone and a coaxially mounted conical vortex funnel with an outlet pipe, creating an additional separation chamber.

The disadvantage of this device is the formation of a reverse flow in the outlet pipe of the cyclone, which leads to the accumulation of a fine component in the zone of formation of eddies in the vortex conical funnel.

The technical task of a cyclone with an outlet channel is the removal of a finely dispersed component from the swirl zone.

The technical task of the utility model is achieved by the fact that in a cyclone consisting of an inlet tangential branch pipe of rectangular cross section, a spiral volute, inside which an axial branch pipe is installed, a conical part of the body, an outlet branch pipe of reduced diameter, an axial branch pipe of a vortex funnel, a baffle cone, an annular channel, new is the fact that a tube is installed at the top of the baffle cone, forming an outlet channel, in such a way that a passage channel is formed from the top of the baffle cone, through which the swirling fine component is discharged into a separate container outside the conical part of the body.

EFFECT: removal of dispersed impurities from the zone of eddy formation in a vortex conical funnel due to the installation of an outlet channel.

A cyclone with an outlet channel includes: a cylindrical body 1, a tangential inlet pipe of rectangular section 2, a spiral volute 3, an axial pipe 4, a conical part of the body 5, an outlet pipe of reduced diameter 6, a conical vortex funnel 7 is installed at the upper end of the axial pipe, at the inlet to the axial branch pipe is equipped with a baffle cone 8, an unloading window 9, at the top of the baffle cone an outlet tube 10 is installed, leading outside the conical part of the body in which the diameter of the upper part of the cone is greater than the diameter of the outlet tube d _to ≥29⋅d out and the length of which is _less than the length from the top cone to the unloading window

The figure shows a cyclone with an outlet channel

The cyclone with an outlet channel works as follows:

The dust-gas flow enters the cylindrical housing 1, through the inlet 2 into the spiral volute 3 due to the vacuum created in the outlet 6, for example, using a fan (not shown in the drawing). In the spiral volute 3, the dust and gas flow is twisted and directed into the conical part of the body 5. The rectangular section of the inlet pipe 2 and the annular channel formed by the axial couple 4 and the inner wall of the spiral volute 3 create a directed downward flow along the inner wall of the surface of the cyclone body. When the dust and gas flow is swirling, a centrifugal force arises, under the influence of which large dust particles move along a helical spiral in a radial direction downwards and go into the discharge window 9 along the conical part of the housing 5.

Fine dust particles with an upward flow of gas rush upwards and meet with a baffle cone 8. Moving along its generatrix, they fall into the annular channel between the axial nozzle 4 and the baffle cone 8. The conical vortex funnel 7 creates a low pressure area along the axis of the cyclone, which leads to a sharp a change in the direction of the gas flow in the annular channel, and dust particles, moving by inertia, touch the inner wall of the axial nozzle 4 and fall out of the flow.

The conical vortex funnel 7 has a larger diameter in its upper part and a smaller diameter in its lower part than the outlet pipe 6. Thus, a vortex with a variable circumferential velocity is created in the funnel 7. Dust particles entrained by the resulting vortex, under the action of centrifugal force, rotate on a larger diameter than the outlet pipe 6 and are not removed from the cyclone. The purified gas flow exits through the outlet pipe 6.

Due to the formation of a reverse flow in the outlet pipe 6, the particles rotating on a larger diameter in the vortex funnel 7 are involved in this flow down to the inner top of the baffle cone 8, thereby in the vortex, acquiring a tangential direction, enter the outlet channel 10, up to the tank collection of fine fraction (not shown in the drawing).

This solution makes it possible to increase the efficiency of cleaning the dust-gas flow, excluding the emission of dust rotating in a conical vortex funnel into the exhaust pipe, and allows depositing a finely dispersed component in a separate container.

Claims (1)

A cyclone with an outlet channel, containing a cylindrical-conical body, a spiral volute with a tangential inlet and axial outlet nozzles, a baffle cone installed at the inlet to the axial nozzle, an outlet nozzle, a conical vortex funnel installed at the upper end of the axial nozzle, characterized in that a baffle cone is installed at the top of the baffle cone outlet tube leading outside the conical part of the body, while the diameter of the upper part of the cone is greater than the diameter of the outlet tube and is equal to d _to ≥29⋅d _out , and the length of the outlet tube is less than the length from the top of the cone to the discharge window

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