SU1811892A1 - Method of aerodynamic enrichment of loose materials - Google Patents

Description

The invention relates to the field of beneficiation of bulk materials in mining, chemical, metallurgical, construction and other sectors of the national economy.

The purpose of the invention is to improve the quality of enrichment.

The novelty of the claimed method lies in the above set of features, the implementation of which provides an increase in the quality of enrichment.

A significant difference between the claimed technical solution from the known is that shock-vibration, ultrasonic, thermal, magnetic effects are combined with laser action in vacuum.

An example of the implementation of the declared. ... way /. / -. './/>,

The enriched bulk material, for example, metal powder, through the feeding vibrating hopper enters the accelerating aerodynamic tube, where its particles are picked up by the heated high-speed air flow, preferably at a speed of 60-100 m / s and sent to the separation chamber, where they repeatedly collide, while Throughout the technological cycle, material particles are exposed to ultrasonic, thermal, magnetic, laser effects in a vacuum, as a result of which the particles are heated, aerosols coagulate, charged micro-dust particles are separated, moisture and dust are absorbed, which makes it possible to obtain a particularly pure and chemically active metal powder. Described s example, the method of implementation of the claimed technical * solution is illustrated by the installation of aerodynamic enrichment of bulk material, operating according to the proposed method.

The invention is illustrated by a drawing, which shows a diagram of a general view of the installation. \ / 7 '.; '.....

The installation consists of a pneumosupercharger 1, a 1 with a loading vibrating hopper 2, a pulsator 3 and a jet pump 4 connected to an accelerating tube 5 equipped with a laser 6, for example, a gas, magnetostrictive transducer 7, a solenoid 8 and reflectors with a staggered arrangement, and which introduced into a spherical separating vibro-chamber 10, connected through a dust collector 11 with an aspiration-vacuum system and equipped with an unloading pipe. 1

The work of the installation of aerodynamic concentration of bulk materials is carried out as follows.

Bulk material is fed into the feeding vibrating hopper 2, from there, under its own weight through the pulsator 3 and under the action of vacuum from the jet pump 4, it enters the booster tube 5, in which the material grains move in a turbulent high-speed heated air flow 2 from the pneumatic blower 1 , and then fly into the spherical separating vibrochamber 10, while throughout the entire movement of the grains are subjected to shock-vibration, thermal, ultrasonic with a frequency of 5-60 kHz, magnetic (Loren7 forces, Tsa) laser effects in a rarefied air environment, while through Dust collectors 11, aerosols are removed into the aspiration-vacuum system, and the cleaned grains through the unloading branch pipe 12 are supplied to the consumer. The technological cycle is repeated if necessary.

In comparison with the known methods (shock, vibration, shock-vibration, etc.) and installations, for example, the domestic screen SMD-121, and foreign, for example, the company "Werner" (Germany), Lone Stor "(USA), the proposed method allows to significantly improve the quality of enrichment.

The technical and economic efficiency of the claimed method in comparison with the proto 'type (basic object) and analogues is as follows:

<· The quality of enrichment (drying and cleaning) is achieved by creating directional acoustic and laser radiation, which cause cavitation, acoustic flow, heating (Joule and Willarr effects), magnetic action (Lorentz forces) in a rarefied vacuum space, cleaning grains of bulk material5 la from dust particles, moisture and charged aerosols, which in the end result allows obtaining dry, highly pure bulk materials.

Claims (1)

FORMULA and acquisition ⁰ <// 7 ^; <7 ';; 7, _f A method of aerodynamic enrichment of bulk materials, including feeding the initial material into the booster tube, exposing it to a heated air flow, alternating action on the material along the booster tube length with ultrasonic radiation and magnetic fields, feeding the material into the separation zone, separating it with simultaneous shock and vibration action, and removal of the separated fractions, characterized in that, in order to improve the quality of beneficiation, the source material is supplied in pulses. and the initial materials of the accelerating tube 5 are additionally exposed to laser beams, the direction of which intersects with the direction of ultrasonic radiation, while the separation of the material is carried out in a vacuum.