RU1803199C - Air separator - Google Patents

Abstract

Usage: in the enrichment of minerals, in particular coal and ores of fine fractions in the air, and can be used in coal, mining and other industries. SUBSTANCE: case consists of upper 1 and lower 4 fixed parts. The middle portion 2 is rotatable about a vertical axis. A fixed insert 6 is installed inside the movable part of the housing. Cylindrical nozzles 7 are put on it to adjust the air gaps. The inner surface of the movable middle part 2 of the separator body is provided with fingers 13. The upper stationary part has blades 18. The rings in each pair forming the discharge gap have different angular velocities. The feed is fed from above. Towards him, air flows. Particles of material with different densities are discharged through various discharge slots. 2 s. P. f-ly, 2 ill.

Description

FIELD OF THE INVENTION The invention relates to the enrichment of mineral resources, in particular coal and small fractions in air, and can be used in the coal, mining and other industries.

The purpose of the invention is to increase the separation efficiency.

In FIG. 1 shows a general view of an air separator; in FIG. 2 - section along -A.

The air separator includes a housing consisting of an upper fixed part 1, middle moving parts 2 and 3, and a lower fixed part - an air distributor 4 with a sieve 5, an insert b, on which cylindrical pipes 7 are worn in, the zone of the moving part 2 and pipes 8 - in the area of the movable part 3.

The movable parts of the housing 2 and 3 are installed in the supports 9 and 10 and are equipped with gears 11 and 12, and from the inside with the fingers 13. The rotation of the movable parts of the housing 2 and 3 is carried out by the drive 14. A cover 15 with a loading device is installed on the upper stationary part 1 16, centering the free end of insert 6. The cylindrical portion of the upper fixed portion 1 is provided with a tangential nozzle 17 and the conical has blades 18. The air distributor 4 communicates with a receiver 19 provided with a low pressure duct (not shown). Unloading slots (annular gaps) formed by a pair of rings have different angular rotational speeds. Receivers 20 are installed to collect the separated fractions. The fractionation takes place in zones a, b and c.

The tangential nozzle 17 and the blades 18 are designed to better remove the dusty particles of the material, create an optimal air flow and reduce the air pressure along the axis of the housing where the material is loaded.

The rotation of the moving parts 2 and 3 from the drive 14 is carried out in order to increase the discharge capacity of the material, due to the different angular velocities of the rings in each pair.

The insert b and the cylindrical nozzles 7 and 8 are designed to obtain the required air flow rates in the material separation zones b and c. Variation in speeds is necessary to separate materials of different fractional composition. The fingers 13 are designed to break down adhering particles of the material to be separated.

The separator works as follows. The material to be separated is fed through the loading device 16 and sequentially passes through the separation zones

a, b and c. Air from the receiver 19 enters the lower part of the air distributor 4, and through a screen 5 into the separation zones c, b and a towards the material to be separated. The separation of material in zones occurs under

the action of an air stream, which has a specific speed in each zone. Separated particles of material of a certain size or specific gravity overcome air resistance

jets and fall into the zone of discharge slots, through which they are discharged into the receivers 20.

The fingers 13 destroy the adhered (caked) pieces of the material to be separated.

The separation efficiency is improved by optimizing the air flow and improving the discharge of the materials to be separated.

Claims (2)

1. An air separator comprising a housing with concentric rings mounted for rotation and forming slots between them, connected with devices for unloading fractions, a loading device located in the upper part of the housing, a sieve and an air blower located in the lower part of the housing excluding in that, in order to increase the separation efficiency, it is provided with an axial insert with removable cylindrical nozzles located inside the rings. 2. The separator according to claim 1, characterized in that it is provided with fingers located on the inner surface of the rings of the housing rotatably mounted and blades located in the loading part of the housing. h. The separator according to claim 1, characterized in that the rings are rotatably mounted at different angular speeds by means of gears. Fi Mr. I