SU650661A1 - Cyclone for cleaning air from dust liable to adhesion - Google Patents

Description

The invention relates to a device for cleaning air from dust and can be used in various industrial fields, for example, in oil and fat plants.

A cyclone for air purification is known, consisting of a casing, a tangential gas supply pipe, an exhaust pipe, a dust bunker, a dust discharge channel, in which pivoting louvers 1 are placed to regulate the gas-dust flow rate (flow resistance).

The cyclone works as follows.

Through the tangential gas supply pipe, the dust-gas flow twists into the cyclone body, the lighter particles move down the cyclone body, the heavier particles through the pivot louvers enter the bypass channel, and then attached to the main dust stream in the lower part of the body cyclone. The gas flow rate is controlled by varying the cross section of the bypass to: a.

The disadvantage of this cyclone is the one-sided turbulence of the gas-dust flow after the regulating device, which leads to equalization of the separation of dust particles in the cross section, like dust on the cyclone elements in the thinning zone. All this reduces the efficiency of dust removal of air entering the cyclone.

It is also known a device for cleaning air from dust, comprising a housing with an inlet pipe, an exhaust pipe and a sand nozzle, guide vanes mounted on axles 2.

The device works as follows.

The dust-gas flow enters the casing, twists, heavier particles are npressed to the outer wall and discharged through the sand nozzles, and the very full gas leaves into the exhaust pipe. The speed of the dust-gas flow (hydraulic resistance) is regulated by the pressure of: io-packs installed by the input} un: pipe and exhaust pipe.

This device is closest to the invention in its technical essence and is achievable to the end result.

The disadvantage of this device is the low efficiency of air purification. The aim of the invention is to increase the efficiency of air purification and the periodic removal of dust, stick to it on the inner surface of the cyclone. The goal is achieved by the fact that the guide vanes are placed obliquely between the body and the exhaust pipe so that they can be rotated around the axes at an angle. FIG. 1 shows a cyclone, a general view; pas figs. 2 - the same, top view; in fig. 3 - cyclone axonometric projection with partial wall cut-out, general view. The cyclone is a case 1, made in the form of a spiraling screw, in which guide vanes 2 and 3 are installed on one geometrical axis. Dusty air is supplied through a tangentially located inlet 4, and exhaust pipe 5 serves to drain cleaned air. the housing 1 is a reverse cone 6, which is connected to the dust receptacle bunker 7, ending with a sluice gate 8. A blade 2 is installed at the outlet of the gas-dust flow from the housing 1 to the reverse cone 6 at the level of the bottom oskosti Cornus, alopatka 3 - symmetrically to it in box 9. d; 1 exit gas and dust flow in the reverse cone 6. The axes 10 of blades 2 and 3 terminate dipper handle 11 by which the blade is set at a predetermined uglo.m. A blade angle sufficient for adjustment is between 45 ° C and 135 °. The cyclone works as follows. The dusty air, the passage through the inlet 4 to the housing 1, receives a rotational motion, as a result of which an intensive separation of particles and flames begins. The resulting curved flow, the passage area of the blade 3, is divided into two parts. One of the 1П1Х comes through the window 9 into the reverse cone .6, the other continues to move into the housing 1 and enters the reverse cone 6 through the window formed by the walls of the housing 1 and the guide blade 2. Depending on the properties of the dust entering the cyclone, and also on the degree of dustiness of the flow, the guide vanes 2 and 3 rotate around the axis with the help of handle II. The profiled blades 2 and 3 change the angle at which the gas-dust flow enters the reverse cone 6 and determines the ratio between the axial and tangential components of the gas-dust flow velocity. Partially separated flow enters the reverse cone 6, where it continues to vortex. Here, under the influence of centrifugal forces, further separation of the dust occurs, which is then transported to the bunker and removed from it via a sluice gate 8. Cleaned air is exhausted through the exhaust pipe 5. Thus, by placing the guide blades obliquely between the body and the exhaust pipe, turning around the axes at an angle of 45-135 °, it is possible to: 1.Adjust the rate of gas-dust flow entering the body of the cyclone B depending on the properties of the dust entering the cyclone. This is achieved by the fact that the guide vane 2 is installed at the inlet of the gas and dust flow from the casing to the return cone 6 and can rotate around its axis, closing or opening the section / exit window and thereby changing the speed of the entrance so that prevents sticking on. There, particles of sticking dust, since the flow rates that wash it, are always optimal, and also prevent the swirling of the lonasti after and increase the particle separation zone, because the lazy is like a continuation of the bottom of the body. 2. To regulate the angle of inlet of the gas and dust flow entering the cyclone body. This possibility, represented by a blade 2. seems to flow from the previous point, since when the blade is turned around its axis, not only the exit window section changes, but also the angle of inlet of the gas-dust flow into the cyclone body, which, as is known, leads to an increase in efficiency air purification from dust. 3. Periodically to clean the inner surface of the cyclone in the case of sticking on it py.P. As studies have shown, this is achieved by directing the blade 2 during the period of removal of adhered dust is set down vertically and deviates from this position to one side or the other at an angle of + 45 °. This installation of the blade 2 and its rotation and rotation to the fact that the gas-dust flow free from the housing sharply slows down and disrupts dust from the inner surface of the cyclone by the first. After removing the adhering dust, the guide vane 2 is set to its original or other optimal position, if the removal was carried out during the transition from one mode of operation of the cyclone to another. 4. To ensure a more axially symmetric flow in the cyclone body through the device of the window 9, while the gas flow will flow in the cyclone body not only through the window formed by the walls of the body 1 and the blade 3, but also through the window 9, which will lead to increase the efficiency of the cyclone. 5. To adjust the cyclones during their group installation in order to eliminate flows of the gas-dust flow from the cyclone to the cyclone through the bunker and thereby increase the efficiency of the cyclones. This is achieved by the fact that the blade 3 is installed in each cyclone at a different angle to its axis and remains in this position during the period of further operation.

Thus, to increase the efficiency of the cyclone and remove the dust, a sufficient angle of rotation is an angle of 45-135 °.

Claims (2)

1. USSR author's certificate number 244873, cl. B 01 D 45 / 12.25.05.69. 2. German Patent No. 681033, cl. 50 e 3/10, 08.24.39. eight