RU1813515C - Dust separator - Google Patents

Abstract

Use: for air purification in any industry. SUMMARY OF THE INVENTION: In a conical housing 1 with a tangential inlet pipe 2, a step-inertial separator 5 ° is placed. Its cylindrical sections 6-9 are composed of vertical louvre plates 10. the plates of 10 sections 7 and 9 are offset relative to them by an angle of 10-12,. The plates 10 in each section have the same width. The width of the plates of each subsequent section is less than the width of the plates of the overlying section 1 panel, 2 il

Description

The invention relates to the field of separation of dispersed particles from gases using centrifugal forces and can be used for air purification in any industry

The closest in design and positive effect is the cyclone, which has a housing with a spiral inlet pipe and an axial exhaust pipe with a step plate inertial separator with

A disadvantage of the known design is the uneven movement of the dust-air mixture, both along its body and when passing through the slots of the inertial separator, which has a significant impact on the efficiency of the apparatus

The aim of this invention is to increase the efficiency of cleaning air from dust.

This goal is achieved in that in a dust collector comprising a housing with a tangential axial inlet exhaust and dust outlet and an inertial separator consisting of four sections, according to the invention, the blinds of the first and third sections of the inertial separator (towards the dust outlet) begin in one radial plane, and the beginning of the blinds and the second and fourth sections are shifted relative to them by an angle of 10-12 °, and the width of the louvre plates within each individual section is unchanged, and in each subsequent conductive reduced section

Comparison of technical solutions with the prototype made it possible to establish their compliance with the criterion of novelty. In the study of other known technical solutions in the art, distinguishing the claimed invention from

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prototype. no signs were found and therefore ensure the claimed technical solution meets the criterion of significant differences

The essence of the invention is to optimize the movement of the dust-air mixture, both inside the apparatus and when passing through the louvers of the inertial separator by shifting the blinds of the sections of the inertial separator from top to bottom by a certain angle

Presented is the proposed dust collector, front view, Fig. 02 is the same, top view with the cover removed

The dust collector consists of a housing 1 of a conical, tangential inlet nozzle 2 axial: an exhaust nozzle 3 for clean air and a dust exhaust nozzle Inside the housing 1, an inertial separator 5 is coaxially located, consisting of sections 6, 7, 8 and 9. Each of these sections consists of a set of louvre plates 10, fixed between the corresponding two mounting rings (not shown), the pairs of plates 10 of sections 6 and 8 of the inertial separator 5, which are closest to the axis of the housing, are located in one radial plane, and the plates 10 of section 7 and 9 are shifted relative to them by an angle equal to 10-12 ° ,, The diameter of the sections from 6 to 9 of the inertial separator 5 decreases uniformly from top to bottom, therefore, the width of the plates 10 in the neighboring sections of the inertial separator evenly decreases, remaining equal to the limit of each individual sections The casing of the appliance is closed by a lid. eleven

The dust collector works as follows

The air flow together with suspended particulate dust particles through the nozzle 2 is tangentially fed into the housing 1, where it makes a helical movement from top to bottom, first along the exhaust nozzle 3, where it is cleaned by a known method under the action of centrifugal forces

Then, a layer-by-layer separated dust and air flow enters the cavity between the housing 1 and the inertial separator 5, where it is secondary cleaned by inertia. Air j rotates around section 6 of the inertial separator 5

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goes through the cracks between its plates 10, while making a sharp turn of a small radius an angle larger. 90 °, but less than-180. Dust particles also make the same rotation, but due to the force of inertia, their radius of rotation is greater than air and as a result they are removed from the plate 10, reflected from them and again fall into the rotating air flow. Thus, after making several collisions of the o-plate 10 of the section 6, the dust particles either enter the rotating air stream along the inner wall of the housing 1, where they mix with the dust particles separated during the primary cleaning, or enter the air stream moving along section 7 of the inertial separator 5, the plates of which The 10th are shifted by an angle of 10-12 ° relative to the plates 10 of section 6, and the entire dust separation process is repeated as the dusty air mixture moves. along sections 7, 8, 9 of the inertial separator 5. The volume of air passing to each next section from top to bottom decreases by its volume passing through the slots between the plates 10 of the previous section. As the dust-air mixture rotates around the inertial separator 5 from top to bottom, the amount of air decreases due to the removal of clean air through the slots between the plates 10 of each of its sections: In order to maintain a constant flow rate, it is necessary to reduce the surface of the sections of the inertial separator 5 and the body of the apparatus will make conical, as we have done.

The tests of the proposed dust collector for sections 7, 8, 9 of the inertial separator, the plates 10 in which are shifted at different angles relative to the plates 10 of the sections 6 erg

Test data are shown in the table.

The table shows that the maximum dust collection efficiency is achieved at a shear angle of the plates 10 in each subsequent section after the sixth (at 7, B and 9), equal to 10-12 °.

Above 20 ° there was no sense in the shift, t „to„ the plate 10 of the section is located in width on a sector whose length is equal to the length of the arc of the angle in (Fig. 2 G.

The width of the plates 10 sections 7-9 is reduced compared to the width

1813515

are relative to them by an angle of 10-12, while the width of the plates in each section is the same and decreases in the underlying section.