SU1639720A1 - Apparatus for filtering dust from gas - Google Patents

Abstract

The invention makes it possible to achieve an increase in the productivity of the device by simplifying the construction and reducing the height of the filter. The device contains filter sleeves of rectangular cross section. A partition is installed inside each tubular element, the lower end of which is connected to the reflective screen, and a channel for the dusty gas is formed between the upper end and the end of the filter element. The device is also equipped with louvers mounted in the bunker opposite the outlet channel of the sleeve element, and the gas outlet nozzle is connected to the cyclone, the output of which is connected to the nozzle entering the dusty gas. 3 il.

Description

The invention relates to equipment for cleaning gas from dust, can be used in the tire and other industries, in particular, when cleaning gas from dust in preparatory workshops.

The purpose of the invention is to increase the productivity of the device by simplifying the design and reducing the height of the filter.

Figure 1 shows the filter, a general view; figure 2 - view aa in figure 1; on fig.Z - type BB in figure 1.

A device for cleaning gas from dust comprises a housing 1, inside of which a filter element 2 is located, into which dusty air is supplied from nozzle 3, and purified air is withdrawn from nozzle 4. At the bottom, the filter element 2 is fixed on the distribution chamber 5, and at the top by means of a spring 6 with a plate 7 mounted on the housing 1, and inside it contains a partition wall 8 that does not reach the top and divides the element into two channels whose cross-section is different in size length.

Camera 5 is connected by a pipe with a cyclone 9, and a wall (reflective screen) 10 - with a partition 8 and inside is equipped with a louver system 11.

Cyclone 9 is connected via outlet manifold 12 to fan 13, and through inlet pipe 14 to inlet pipes 3.

The device works as follows.

The dust-laden gas flows through the pipe 3 into the filter element 2 into the channel B of a larger section with the speed it has in the pipelines to the filter (16-20 m / s).

Reaching the top of the filter element 2, the gas is lowered down the channel of smaller section 1 and through the distribution chamber 5, partially through the louver 11, enters the cyclone 9. The dimensions L and I (width of channels C and D) are chosen so that in all sections due to filtration, the decreasing flow rate exceeded the speed required to dislodge dust from the walls. Due to coagulation of particles

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under conditions of high concentration, gas cleaning both in the distribution chamber 5 in the flow around the partition 8 and in the cyclone 9 proceeds rather efficiently. After cleaning, the remaining gas with a small amount of dust by the fan 13 through line 14 is fed to the suction inlet 3 of filter 1.

The louvers are designed to pre-clean dust from the non-filtered portion of the gas before it enters the cyclone by changing both the velocity and turbulence and the direction of flow. Due to the decrease in the volume of moving in the ascending and descending parts of each gas filter element, the concentration of particles suspended in it increases from several tens to several hundred grams per 1 m3. As a result, particles coagulate, which facilitates their subsequent separation from the flow into the bunker. In order to separate particles from the same part of the flow that passes into the slit channels between the louvers 11, the distance between them is equal to 10-15 mm. In such slot channels, the flow turbulization and particle velocity are reduced. This also leads to their coagulation and precipitation.

From the main part of the gas, which surrounds the louvre, the particles are released under the action of inertial forces and gravity. As a result, louvers 11 allow 50–70% of suspended particles to be separated from the flow, which reduces the load on the cyclone and increases its efficiency.

tivnost. The presence of pipeline 14 eliminates the release of gas from the cyclone 12 by the fan 13 to the atmosphere.

The partitions are necessarily adjacent to the casing wall below the nozzle 3 for the entry of dusty gas and consist of an inclined 10 and a vertical 8 section, and the louvers 11 are angled to the horizon and the distance between them should not exceed 10-15 mm to dampen the flow turbulence.

Claims (1)

DETAILED DESCRIPTION OF THE INVENTION A device for cleaning gas from dust, comprising a housing with nozzles for introducing dusty gas and sampling of purified gas, a reflection screen installed in the housing and a gas distribution grid with fabric sleeve filter elements, and a dust collecting bin, characterized in that increasing the device performance by simplifying the design and reducing the height of the filter; it is equipped with louvers and a cyclone; inside each hose element there is a partition, the lower end of which has dinene with a reflective screen, and between the upper end and the end of the filter element channels for dusty gas are formed, the cross sections of which are made differently sized, with the louver installed opposite the output channel of the sleeve element in the bunker, the gas outlet nozzle is connected to the cyclone, the output of which is connected to the dust inlet nozzle gas  SHHtfl ha -  Purified J- g J Rig.Z