RU2496584C1 - Rotary dust cleaner - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to inertial cleaning of gases from dust and may be used in whatever industry, particularly, in food and chemical industries. Proposed separator comprises cylinder-taper casing with tangential inlet pipe arranged at angle to horizontal and cylindrical outlet pipe arranged at casing center and aligned therewith. Insert shaped to helical surface is arranged inside said rotary cleaner at casing wall and furnished with collar with slotted dust catching holes.

EFFECT: higher efficiency of cleaning.

Description

The invention relates to the food and chemical industries and can be used in any industry where inertial gas cleaning from dust is used, in particular, after drying units.

The closest in technical essence and the achieved effect is cyclone TsN-11 [Shtokman EA Ventilation, air conditioning and air purification at food industry enterprises. - M.: DIA, 2001 - 563 p. Section 6.2.], Which consists of a cylindrical-conical body with an inlet nozzle tangentially angled to the horizontal and located in the center of the body coaxially with a cylindrical outlet nozzle.

The disadvantage is the low degree of purification of gas emissions from dust due to the possibility of vortexing and removal of its fine fractions with a purified gas stream leaving the cyclone.

An object of the invention is to increase the efficiency of cleaning dust gases from dust.

The object of the invention is achieved in that in a centrifugal dust collector containing a cylindrical conical housing with an inlet pipe tangentially positioned at an angle to the horizontal and a coaxially cylindrical outlet pipe located in the center of the housing, it is new that the housing wall inside the centrifugal dust collector is lower than the inlet pipe, an insert in the form of a helical surface is installed, having a rim with slit-like catching holes.

The technical result of the invention is to increase the efficiency of cleaning dusty gas emissions from dust.

Figure 1 presents the proposed centrifugal dust collector; figure 2 is a section aa of figure 1; figure 3 - insert, in the form of a helical surface having a rim with slotted catch holes.

Centrifugal dust collector (Fig.1-3) includes:

a cylindrical-conical housing 1, inlet pipe 2 tangentially angled to the horizontal, the outlet pipe 3, an insert in the form of a helical surface 4, having a side 5 with slit-like catching holes, a discharge pipe 6.

The proposed centrifugal dust collector operates as follows.

The dusty gas entering the centrifugal dust collector, due to the relative position of the housing 1 and the inlet pipe 2, moves in a spiral towards the lower end of the exhaust pipe 3. Under the action of the centrifugal force generated, the dust particles in the gas stream move towards the wall of the dust collector . In this case, larger dust particles touch the dust collector wall above the installation site of the insert in the form of a screw surface 4, descend along the cyclone wall to the surface of the insert in the form of a screw surface 4 and move down it into the conical part to the discharge pipe 6. Smaller particles having a smaller the radial component of the velocity, move in a downward gas flow, thereby reaching the surface of the side 5 with slotted catching holes.

Continuing the movement along the surface of the side 5 with slotted catching holes, small dust particles pass through the slotted catching holes, fall on the surface of the insert in the form of a helical surface 4 and move along it together with the large particles down to the discharge pipe 6 and thereby are captured. The side 5 of the insert 4 also prevents their removal from the apparatus with the outgoing gas stream when passing through the zone of its rotation into the outlet pipe 3.

The height of the rim, the number of turns, the shape of the forming helical surface, as well as the configuration, dimensions, inclination angle and the number of slotted catch holes on the rim of the insert in the form of a helical surface are determined depending on the concentration, physico-mechanical properties of the dust and the operating parameters of the dust collector.

The proposed centrifugal dust collector can improve the efficiency of cleaning dusty gas emissions from dust.

Claims (1)

A centrifugal dust collector comprising a cylindrical conical body with an inlet pipe tangentially angled to the horizontal and a coaxially cylindrical outlet pipe located in the center of the body, characterized in that an insert in the form of a helical surface having a groove with a slotted edge is installed on the wall of the body inside the centrifugal dust collector below the inlet pipe holes.

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