SU831173A2 - Apparatus for washing minerals - Google Patents

Description

The invention relates to the enrichment of minerals and the food industry, in particular, to device designs for carrying out a process of washing materials from various impurities, for example non-metallic building materials from clay impurities, and can be used in chemical, metallurgical and other industries where intensification is necessary processes, for example, mass transfer, mixing, dispersion, emulsification, etc.

A known acoustic device for exciting low-frequency oscillations in a flotation pulp, including a working chamber made of a system of housings of antiphase hydropneumatic emitters of a cylindrical type with an internal arrangement of membranes, loading and unloading device [1].

The disadvantage of this device is that it does not allow the washing of minerals with a particle size greater than flotation.

According to the main author. St. No. 741939, a device for washing minerals * · is known, including a working chamber made in the form of a system of hydropneumatic cylindrical emitters with an internal arrangement of membranes lying on perforated glasses and containers that are hydraulically connected to it, 'individual spool blocks for each emitter, the inputs and outputs of which are separately connected by pipelines to sources of compressed air and vacuum, and the membranes in the upper part are rigidly attached to perforated glasses £ 2].

However, the known device has insufficient quality of washing the material and the inability to drain dirty liquid along the length of the working chamber.

The purpose of the invention is to increase the washing efficiency of the material due to a more uniform supply to the washing zone.

This goal is achieved by the fact that in the upper part of the body of the hydropneumatic acoustic emitter there is a cutout in which a loading unit is mounted, which is attached on the periphery to the membrane and perforated glass. ''

In FIG. 1 schematically shows the proposed device, a section along the axis of the working chamber; in FIG. 2 - section> AA in FIG. 1; on fvd. 3 - section BB in FIG. 1; in FIG. 4 is a section BB of FIG. 1.

The device includes a loading hopper I, capacity 2, a cutout 3 in the housing, an injection spool block 4, a housing 5 of the emitter, a cavity 6 formed between the housing of the emitter and the perforated cup 7, a membrane B, slots 9, an annular partition 10, drain pipelines 11, protective mesh 1Я2 ,, vacuum spool block 13, perforated piping ρ * water 14,

The device operates as follows.

The source material through the feed hopper 1, capacity 2, cutout 3 enters the working chamber of a device made from a system of hydropneumatic emitters. Flushing fluid is supplied to the working fluid. > camera along the way. material movement. Compressed air through the pressure spool block 4, the emitter body 5, the cavity 6, opening the perforated nozzle 7 exerts pressure on the elastic membrane 8, and through it on the flushing material with liquid, some of which is forced into the container 2, and some into the emitter without a cutout . At the same time, the liquid with the material from the emitter without a cut-out moves perpendicular to the flow of liquid material in the emitter with a notch 3. Strong turbulent mixing of the liquid and material occurs due to intense vortex formation, hydrodynamic flows in the mechanical collision of the particles of the washed material with each other and about the surface 5 membranes. Dirty liquid through the grooves 9 of the annular partition 10 is discharged into the drain pipelines 11. During the * * runaway of the clogging of the grooves 9 with the washed material, they are closed with protective 10 nets 12. When the spool unit 4 is turned off, the exhaust air is discharged through the vacuum spool unit 13 into the vacuum line. Then the cycle repeats again.

To increase the degree of chaoticity: the movement of the material and the mechanical interaction of the particles of the washed material with each other along the length of the working chamber, guides are installed made in the form of perforated pipelines 14 through which dirty liquid is removed. This improves the washing quality of the material and simplifies the constructive manufacture of membranes that can be made directly from sheet rubber.

Claims (2)

. (54) DEVICE FOR WASHING OF MINERAL RESOURCES 3 more uniform feed it into the washes. The goal is achieved by the fact that there is a cutout in the upper part of the hull of the hydropies: the tactical acoustic radiator, in which the loading unit is attached along the periphery to the membrane and perforated station. FIG. I schematically depicts the proposed device, a section along the axis of the working chamber; in fig. 2 shows section A-A in FIG. I; on fi15. 3 shows a section in FIG. I; in fig. 4-- section BB in FIG. 1. The device shoots the hopper I, capacity 2, cutout 3 in the housing, injection spool block 4, 7urnus 5 emitter, cavity 6 formed between the emitter housing and the perforated cup 7, membrane V, Iaz 9, annular septum U, slurry pipelines I IS safety nets, vacuum spool block 13, perforated piping 14. The device works as follows: The source material is fed through the hopper 1, tank 2, vépéz 3, into the working chamber of the device made of a hydropneumatic system etter. The flushing fluid is supplied to the working fluid. camera along the way. material movements. Compressed air through the injection spool block 4, the housing 5 of the radiator, cavity 6, the opening of the mouthpiece of the perforated cup 7 exerts pressure on the elastic membrane B and through it and the flushing material with liquid, part of which is displaced into the container 2, and part to the radiator without cutout. At the same time, the liquid with the material Of the radiator without a blow, it moves perpendicularly to the flow of liquid and magnetic material in the radiator with a cut 3. There is a strong turbulent mixing of the liquid and the material due to intense chromogenesis, hydrodynamic flow and mechanical collision of the particles of the material being washed. with a friend and on the surface of the membrane. Fluid through the grooves O of the annular partition Yu is discharged into drain pipelines I. In from the run of clogging of the grooves 9 with the material being washed, they are closed by protective current 12. When the spool 4 is turned off, the exhaust air is discharged through the vacuum spool 13. Then the cycle is repeated. To increase the wall coverage; the movement of the material and the mechanical interaction of the particles of the washed material with each other along the length of the working chamber are installed guides, made in the form of perforated pipes 14, through which the heat transfer is removed. This improves the quality of the washing of the material and simplifies the constructive manufacture of the membranes, which can be removed directly from the oil cutting. The invention has a device for flushing minerals, according to bus, No. 741939, characterized in that, in order to increase the efficiency of washing the material due to a more uniform supply of it to the washing zone, in the upper part of the body of the pneumatic pneumatic TjraecKoro radiator, the cutout in which it is installed is a loading unit attached peripherally to the membrane and perforated glass. information taken into account in the examination of I. USSR author's certificate No. 484012, cl. In the OPR 1/14, 1972. 2. Avtoskoye certificate of the USSR № 741939, cl. B 03 B 5/02, 28.01.77 (prototype). one "V :but ea "s