SU1750746A1 - Pneumatic gravitational separator - Google Patents

Abstract

Use: separation of material by size in the mining and construction materials industry. Essence: in the lower part of the housing 1 there is a distribution grid 6 and a partition 7. They are installed with a bias towards the loading of the source material. The upper edge of the grill 6 is adjacent to the lower edge of the nozzle 3 for unloading coarse material. Case 1 in horizontal section is made in the form of a trapezoid. A larger trapezium base is placed on the loading side of the source material. The installation of the partition 7 ensures the difference in the processing modes of the material in the separator to partition 7 and after it 3 sludge.

Description

The invention relates to the mining industry and can be used in the processing of building materials.

A device for pneumatic classification of bulk materials is known, comprising a vertical housing, a feedstock feeder, a separation chamber, an inclined distribution grid, nozzles for discharging small and large products and a suction fan.

A disadvantage of this device is the low quality of separation of the bulk material due to uneven movement of the material along the distribution grid, insufficient residence time of the bulk material in the separation zone in the separator and the non-uniformity of the air velocity in the separator separator chamber.

Also known pneumogravity separator, including a vertical

a housing, nozzles for loading the source material and unloading small and large products, a distribution grid and an inclined partition.

The disadvantage of this separator is contamination of the coarse product with fine fractions as a result of the fact that the coarse product is unloaded from the upper layers of the boiling material, where there is an increased content of fines.

The purpose of the invention is to improve the quality of separation of the bulk material by increasing the separation time.

Fig 1 shows the separator, front section; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a view B in FIG. one.

The separator contains a vertical housing 1, on the side wall of which is located the pipe 2 of the source material loading, on the opposite side wall - the pipe 3 of the discharge of large millet

WITH

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Duct, in the upper part - the nozzle 4 unloading small product. The housing 1 is made in a horizontal section in the form of a trapezoid, while the larger base of the trapezoid is placed on the side of the nozzle 2 loading the source material. In the lower part of separation chamber 5 there is a distribution grid 6 installed with a slope in the direction of loading the source material, with the upper edge of the distribution grid b adjacent to the lower edge of the nozzle 3 unloading a large product. A partition 7 is positioned above the distribution grid 6 with a gap, installed with a bias towards the source material loading side and thus dividing the separation chamber 5 into two parts, the cross section of one of which 8, adjacent to the source material loading bin 2, decreases to the distribution grid 6 and the other 9, adjacent to the discharge pipe 3 of the coarse product, increases in the distribution grid 6.

The separator works as follows.

The bulk material enters the casing 1 through the nipple 2 of source material loading, enters the distribution grid b, is weighed by air flow and separated. As the material enters the separator, a fluidized bed of material is formed on the distribution grid 6. When a layer of material reaches the pipe 3, a large product is unloaded. The installation of the distribution grid 6 provides for an increase in the time of material separation, and the interface of the distribution grid 6 directly with the nozzle 3 for unloading a large product is to carry out a rational unloading of a large product from the lower layers of boiling material.

To prevent the newly loaded material from being discharged along the surface of the fluidized bed into the discharge pipe 3 of a large product, a partition 7 separating the surface of the fluidized bed serves. Thus, the transfer of material beyond the partition 7 can take place in the lower layers of boiling material. The implementation of the housing 1 in horizontal section in the form of a trapezoid provides a stable flow of material from the loading area

source material, i.e., from the side of the larger base of the trapezium, where the fluidized bed has a large mass, to the area of discharge of a large product, i.e.

a smaller trapezoid base where the fluidized bed mass is less.

Installing an inclined partition 7 provides a difference in the processing modes of bulk material in the separator to partition 7, i.e. in the loading zone of the source material, and after it, i.e. in the discharge zone of a large product.

Due to the reduction of the horizontal section of the separator in part 8 down to

the distribution grid 6, the air in this area above the grid b enters the separator at an increased rate. This ensures intensive processing of the lower layers of the bulk material and eliminates the accumulation

a large product at the interface of the distribution grid 6 with the housing 1. Due to the increase in the horizontal section of the separator in part 9 down to the distribution grid b, the air above the grid 6

passes into the separator with a relatively lower speed, which provides a quiet mode of processing the material in the area in front of the nozzle 3 unloading a large product.

Claims (1)

A Pneumatic Gravity Separator comprising a vertical body with a source loading pipe on one side wall, a pipe for unloading a large product on the opposite side wall and a pipe in the upper part of the body. small product unloading, distribution grid and partition located with a gap above the grid, characterized in that, in order to improve the quality of material separation by increasing the separation time, the casing is made in horizontal section in the form of a trapezium, with a larger base of the trapezium placed on the loading side source material distribution the grille and the partition are installed with a slope in the direction of loading the source material, and the upper edge of the distribution grid is adjacent to the lower edge of the nozzle for unloading a large product. 8 6 one 4L