SU1641474A2 - Centrifugal classifier - Google Patents

Abstract

The invention relates to the pneumatic separation and sorting of solid bulk materials and can be used in powder metallurgy, in the manufacture of abrasive tools, paints. The purpose of the invention is to improve the quality of classification by regulating the amount of sucked material. In the body 1 of the classifier, the main rotor (P) is rotatably mounted, consisting of the upper 2 and lower 3 caps. Partitions are installed between covers 2 and 3, forming a series of radial separation channels (CK) 5, open at both ends, and CK 5 has elastic shelves. Above the central part of the P is installed. The invention relates to the technique of pneumatic separation and sorting of solid bulk materials, can be used in powder metallurgy, in the manufacture of abrasive tools, paints and is an improvement of the invention according to the author. Ns 940878, The purpose of the invention is to improve the quality of classification by adjusting the amount of sucked material. a box 7 connected to the suction line 8 and carrying a series of air intakes (B) 9. Inlet openings B 9 are placed at the level of the open air SC 5 A pipe 15 with a nozzle 16 is installed to feed the source material. An additional rotor is placed in the space between Р and В 9 consisting of upper 11 and lower 12 annular flanges, between which are installed with overlapping blades 13 at an angle to the tangential, held to the inner forming flanges 11, 12. The flange 11 is mounted on the bearing 14 and is connected with a rotational drive, installed with the possibility of adjustable and rotational speeds. Through pipe 15 and nozzles 16, raw material is fed to CK5. Under the action of centrifugal forces in the SC 5, the material moves in the radial direction. Large particles overtake small ones and first come out of SC 5. Simultaneously, a suction system is activated, which creates a pulsating air flow passing through SC 5, the space between the blades 13, B 9, duct 7 and the main 8. Large particles collide with the blades 13 and discarded again in CK5. Separated particles are collected in bins 17. 2 Il, FIG. 1 shows a general view of the classifier; in fig. 2 - the same, top view (top cover removed). The centrifugal classifier comprises a housing 1. in which the main rotor is placed in the form of a disk formed by the upper 2 and lower 3 covers, the partitions 4 are installed in the gap between the covers 2 and 3, forming a series of radial, open at both ends, separation channels 5, after ü Ј 2 th

Description

The space inside the channels 5 is a separation cavity. The rotor is connected by means of a shaft with a rotating drive (not shown). Above the central part of the rotor, a duct 7 is installed, connected to the suction line 8 and carrying a series of air-guards 9 oriented in radial directions. The inlets of the air intakes 9 are located at the level of the openings of the channels 5 and are separated by gaps, the width of which is at least one channel diameter. Inside the separation channels 5 installed elastic shelves 10.

Between the air intakes 9 and the main rotor there is an intermediate rotor formed by the upper 11 and lower 12 annular flanges, between which the vanes 13 are installed. The vanes overlap each other and are angled to the tangential, reduced to the inner flanges, with the tops of the corners facing in rotor. The upper flange 11 is mounted on the bearing 14 and, by means of a belt drive, is coupled to a rotational drive allowing rotational speed (not shown) to vary.

A tube 15 for feeding material passes through the duct 7, ending with a curved radially directed nozzle 16. A hopper 17 is formed around the circumference of the housing around the main rotor, forming the material receiver.

Centrifugal classifier works as follows.

When the drives are turned on, the classifier rotors begin to rotate and material separates alternately into the separation channels 5 and flows along with the air flow through the nozzle 16. The particles introduced into the channel 5 move in the radial direction under the action of centrifugal force, and large particles overtake smaller and first t from the separation channel.

Simultaneously with the start of rotation of the rotors, a suction system is turned on, which creates a pulsating air flow through the separation channels 5, the space between the blades 13, the air intakes 9, the duct 7 and the main 8. Sucked by the flow from the channels 5 blades 13. Since the blades are installed with overlap, large particles and their aggregates inevitably collide with them and are thrown again

into the separation channels. Material that accidentally enters from the nozzle 16 into the gap between the channels 5 and the vanes 13 is also drawn by a pulsating flow into the interscapular space and is directed by the blades into the separation channels. Separated particles are collected in receiving hoppers 17.

By changing the number of revolutions of the intermediate rotor, they reach such a speed of rotation, at which all the suction material, striking the blades, is again thrown into the separation channels at separation. At a lower speed

rotational dust fractions will be sucked off with the air into the box 7 and can be used as a stand-alone product. At the same time, the frequency of material separation by the main rotor improves

due to preliminary selection of the smallest particles. Thus, the intermediate rotor is a separation quality regulator.

Installing the blades at an angle to the tangents is necessary, on the one hand, to provide the required suction conditions for the gap between the blades, and on the other hand, to place the maximum number of blades to achieve the greatest effect of dropping particles into the separation channels. This also contributes to the coincidence of the direction of rotation of the main and intermediate rotors, so the vertices of the angles at which

blades facing in the direction of rotation of the main rotor.

The use of the proposed centrifugal classifier can significantly increase the extraction of particles in

target products.

Claims (1)

Claims of Invention: Centrifugal Classifier according to author. No. 940878, characterized in that, in order to improve the quality of the classification by adjusting the amount of suction material, it is equipped with an additional rotor installed between the radial air intakes and the main rotor and made in the form of upper and lower annular flanges, between which with the overlap and at an angle to the tangent, reduced to the inner forming flanges, are set the blades, the corners of which are facing in the direction of rotation of the main rotor, and the additional rotor is installed with the ability to regulate the speed of its rotation. 7 15 № 13 12 16 23 1 17 Yu 1 ; j