SU848053A1 - Method of classifying suspensions - Google Patents

Description

The invention relates to the separation of suspensions and can be used in the mining industry, as well as in other branches of the national economy, to controlly carry out the processes of classification, dewatering and filtering in reticulated cities with increasing speeds. A known method for classifying suspensions is that the source material is fed to an arc sieve classifier on which the particles suspended in the liquid are classified. The disadvantage of this method is the intensive wear of the surface of the sieve due to the abrasive effect of the particles at a high flow rate of the slurry and the associated short service life of the arc sieves. There is also a known method for classifying suspensions, which implies that the suspension is passed through a mesh partition, which is driven by a magnetostrictive transducer into an oscillatory motion of an ultrasonic frequency G24. However, in this method of classification of suspensions, the use of large screening surfaces and, consequently, obtaining a large process performance is difficult due to the rapid attenuation of ultrasonic waves in the material of the partition. The closest in technical essence and the achieved result is the method of classification of suspensions, which consists in supplying a flow of suspension to a mesh partition with simultaneous imposition of acoustic oscillations on it, and the suspension being processed under pressure is fed to a mesh partition, on which the separation of particles by size takes place. ) and the separation of water, whereby a sealing layer of particles (sediment) of a pern.domain formed on the surface of the septum is loudly loosened by countercurrent liquid, arising from fluctuations suspension H} ..

However, the known classification method has a number of significant drawbacks. Since the liquid moves through the partition in opposite directions at different speeds (in the first half-period of oscillation, the speed is determined by the sum of the acoustic and hydrostatic pressures and is greater than in the second half-period, the sedimentation loosening period, when the velocity of the fluid is determined by the difference of acoustic and hydrostatic pressures) then the sediment particles most of the oscillation period are in the sealing state. This leads to a decrease in the manufacturer - 20

classification process.

In addition, the presence of sediment on the surface of the mesh partitions leads to a decrease in the efficiency of the size of the opening of the partition and, consequently, to a decrease in the efficiency of classification.

The purpose of the invention is to intensify the classification process by controlling the speed and shape of the slurry flow.

This goal is achieved by synchronizing with acoustic oscillations changing the cross section of the mesh openings, while increasing the cross section of the holes when the oscillations coincide with the direction of flow and decrease when the direction is reverse.

Fig.} Shows the installation for the implementation of the proposed method; FIG. 2 shows the piston in the working position.

The installation consists of a body I, which is divided by a mesh partition 2 into section 3 of the original product and section 4 of the clarified suspension. The partition wall 2 consists of two perforated plates 5 and 6, the same size of the holes and arranged so that their holes coincide. At the end of the housing 1 a piston 7 is mounted, which is driven by the actuator 8 into an oscillating motion. The perforated plate 6 is moved relative to the perforated plate 5 by means of an actuator 8 through the yoke 9.

The essence of the proposed method is to change the size of the openings of the mesh partition 2, depending on the direction of movement of the fluid during vibrations. So, when the piston 7 o.t of the mesh partition 2 moves (classification stage), the openings of the mesh partition 2 increase due to the movement of the perforated plate 6 using the rocker arm 9. When the piston 7 moves in the opposite direction (the regeneration step decreases the mesh openings 2.

The proposed method allows increasing the efficiency and effective layer of the particles on the screening surface and selectively influencing the spatially nonuniform flow on the particles and, thus, significantly intensify the process of suspension classification.

Claims (3)

1. Fomenko T.G. and others. Coal enrichment technologies. M., Nedra, 1976, pp.64-71. 2. Avdeev I.Ya. et al.Acoustic and magnetic material processing. M., Nedra, 1966, pp. 79-83. 3. Construction materials, 1976, No. 3, p.8-9 (prototype). separation bone due to lack of  m m tm-tm tm ttWiUm ) lHl () l (i / / FIG. 1 -I J-