UA59259A - Dust catcher with displaced sections of separator - Google Patents

Abstract

Dust catcher with displaced sections of separator contains cylindrical conical casing with tangential pipe, axial exhaust manifold, jalousie separator composed of four cylindrical sections, dust discharge pipe.

Description

Description of the invention

The invention relates to air purification from dust and can be used in all branches of industry without exception.

The closest technical solution to the proposed one is a cyclone, which includes a body with a tangential inlet nozzle, an axial exhaust nozzle, a louvered separator, and a dust outlet nozzle. The air mixture spirally moves from top to bottom from the tangential inlet nozzle, separating layer by layer under the action of outward forces. The already cleaned stream enters the secondary cleaning by passing through the slits 70 of the separator, where the dust particles under the action of inertial forces are reflected from its blinds into the stream, which moves along the wall of the device body down to the dust discharge nozzle. The purified air that has passed through the separator exits through the exhaust pipe of the CI.

The disadvantages of the known device are the uneven movement of the mixture, both along its body and when passing through the louvered separator, which significantly affects the efficiency of dust cleaning. 19 The invention is based on the task of creating a dust collector in which the secondary cleaning of air from dust takes place in an optimal mode: the speed of air movement through the gaps between the shutters of the separator in the direction of the dust discharge nozzle remains constant all the time due to the shift of the shutters of the sections of the separator to a certain angle; reducing the width of the blinds from section to section in the same direction, which also improves cleaning efficiency. 20 The task is solved by the fact that in a dust collector with shifted sections of the separator, which contains a body with a tangential inlet nozzle, an axial exhaust nozzle, a louvered separator consisting of four cylindrical sections, a dust outlet nozzle, according to the invention, the first and third sections of the separator are located in one radial plane, and its second and fourth sections are shifted relative to them at an angle of 10-12 degrees, moreover, the width of the blinds within each section is the same, and in each subsequent section, 25% of its width is reduced. "

The operation of the dust collector will be clear from the drawing and description.

Figure 1 shows the proposed dust collector (front view).

Fig. 2 shows the proposed dust collector with the cover removed (top view).

The dust collector consists of a cylindrical-conical housing 1, an inlet tangential nozzle 2, an axial: o 30 exhaust nozzle 3, a clean air outlet and a dust outlet nozzle 4. Inside the housing 1, a louvered separator 5 is coaxially located, which consists of sections b, 7, 8 and 9. Each of these sections consists of a set of blinds 10 fixed between two rings (not shown); Closer to the axis of the case, shutters 10 of sections 6 and 8 of the separator 5 are located in the same radial plane, and shutters 10 of sections 7 and 9 are shifted Ф) relative to them by an angle equal to 10-12 degrees. The width of blinds of sections 6 to 9 is uniformly reduced by 1/4 of their 39 length, while remaining the same within each individual section. The body of the device is fixed on the cover 11 from above.

A dust collector with pushed separator sections works as follows.

The air flow together with the suspended particles of dust through the nozzle 2 is tangentially supplied to the inside of the housing 1, where it performs a helical movement from top to bottom, first around the exhaust nozzle 3, where layer-by-layer C 40 separation of the flow occurs under the action of centrifugal forces. The layer-by-layer separated flow enters the area of operation of the louver c separator, (the speed of its rotation, respectively, and the speed of passage through the louver

"Iz" separator, remains constant), where its secondary cleaning takes place under the influence of inertial forces. The air rotating around section b of the blind separator 5 passes through the gaps between the blinds 10, making a sharp turn of a small radius at an angle of more than OO degrees, but less than 18 degrees. Dust particles also make this turn, but due to the force of inertia, they have a larger turning radius than air, and as a result, they hit the blinds 10, bounce off them and again fall into the flow moving around the wall (se) of the dust collector. Thus, making several reflections from the louver 10 of section b, the dust particles either fall into the helical air flow that moves along the inner part of the housing 1, where it mixes with the dust particles that were reflected at the first stage of cleaning, or fall into the air flow that passes through 20 along section 7 of the louvered separator 5 and the entire process of dust separation is repeated as the dust-air mixture moves along sections 7, 8, 9 of the louvered separator 5. The volume of air that approaches c of each subsequent section from top to bottom is reduced by its volume that has passed between the blinds of the previous section. As the dust-air mixture spirals around the louver separator 5 from top to bottom, the amount of air decreases due to the removal of clean air through the gaps between the plates of each louver section. 29 Experimental tests of the proposed dust collector with sections 7, 8, 9U of the blind were carried out. of the separator, blinds 10, which are at different angles relative to the blinds 10 of section 6. The test results are shown in the table. 1. 59

MoMo p/p | The angle of displacement of the blinds vva 2 9 95.3 96.6 mov v 16111193311vv4 61 o

It can be seen from table 1 that the maximum efficiency of dust capture is achieved at the angle of displacement of the plate 10 in 7/5 Each subsequent section after the sixth (in 7, 8 and 9), which is equal to 10-12 degrees.

There was no displacement of more than 20 degrees, because the blinds of 10 sections are located across the width of the sector, the length of which is equal to the arc of the angle of 20-24 degrees (figure 2).

The width of blinds 10 sections 7-9 decreases accordingly with the width of the upper section, which is determined by the length of the arc 10-12 degrees, and from which follows the width of blinds 10 sections 7, 8 and 9, as well as their number.

At the experimental stand of the Lviv Polytechnic University, tests were carried out, which determined the width of the shutters of the separator sections, when the shutters of the second and fourth sections were shifted by an angle of 10-12 degrees. The results of the tests are shown in Table 2. (experimental dust - quartz sand with a median diameter of 32 and 5 Ohm).

The ratio of the width of the blinds of the cross section to the width of the next door of the zyutyut pz i561 F zo yu sch

F z yu 11111111 lav vv vtm111vve0 " in, nn Es SN EN NE U NO 0001 voya voi vo vvv00vtya Z s z"

The test results of the proposed dust collector show that, when making blinds in all four sections of the same width (1μm), we achieved a dust collection efficiency of 96.595 (650-32μm) and 98.49 o (650-5μm), and when reducing the width of the blinds in sections from 6 up to 9 by 1/4 of its width managed to achieve efficiency

Gee! dust capture - 97.495 (by -32Mm) and 98.995 (5m -5Ohm), which proves the advantages of this design.

Sources of information: 1. AS of the USSR 793608, MKI VO1D45/12 V804С9/00, 1981. (prototype) s 50 (Che)

Claims (1)

The formula of the invention The dust collector with shifted sections of the separator contains a cylindrical-conical body with a tangential 22 with an inlet nozzle, an axial exhaust nozzle, a shutter separator, which consists of four cylindrical sections, a dust outlet nozzle, which is distinguished by the fact that the first and third sections of the separator are located in the same radial plane, and the second and fourth sections are shifted relative to them by an angle of 10 -12 degrees, and the width of the blinds within each section is the same, and in each subsequent section it decreases by 1/4 of its width. 60 b5