RU107078U1 - SEPARATOR - Google Patents

Abstract

 1. A separator containing a hopper, electrodes, receiving capacities, characterized in that it has a horizontal (inclined) pipe, in which the kinetic energy of the enriched material increases. ! 2. The separator according to claim 1, characterized in that it contains a vertical (inclined) pipeline, in which the enriched material is subjected to impact. ! 3. The separator according to claim 1, characterized in that it contains a mixing chamber.

Description

Devices for the separation of various materials (separators) are widely used in many industries and agriculture [1-3].

Electrical separation occupies an important place among the main methods of enrichment and is used both for enrichment and for classification, purification of a number of minerals and materials.

There are a number of electric separators (IHD, EX, SES, GIGHS, etc.) used for the separation of materials [1].

For the prototype of the proposed utility model, a separator of the SER-1 brand was adopted, the main disadvantage of which is the insufficient purity of the resulting product.

The purpose of the utility model is to develop a separator that allows to obtain a high degree of purification of the enriched material.

This goal is achieved through the use of the piezoelectric effect, which consists in the fact that when a load (pressure) is applied to the crystal, a potential difference is created on their faces. This property is possessed, for example, by quartz crystals. Static-charged particles of quartz in an electromagnetic field move to the electrodes. Thus, the separation of the starting material.

Figure 1 shows the design of the proposed separator, which consists of a pipe 7, through which compressed air is supplied, a hopper 2, a shutter 3, a horizontal (inclined) pipe 4, in which, under the action of compressed air energy, the particles of the enriched material are accelerated to a speed V, vertical pipeline 5, in which the enriched material moves down the mixing chamber 6, pipeline 7, electrodes 8, 9, containers for separated materials 10-12.

The separator works as follows: the enriched material from the hopper 2 is carried away by a stream of compressed air entering through the pipe 1 to the pipe 4.

In the pipeline 4, the material to be enriched is informed of the velocity V, which is extinguished upon impact on the wall of the vertical pipe 5.

In the process of impact, for example of a quartz particle, a potential difference (direct piezoelectric effect) is created on its faces.

Mixing of the enriched material is carried out by supplying compressed air to the chamber 6 through the pipeline 7.

Then, charged particles, for example, quartz, are moved into the space between the electrodes 8-9, in which, due to the potential difference at the crystal faces and the action of magnetic fluxes on them, they are separated and transferred to the containers 10, 11.

Particles of material that do not have a potential difference, under the action of gravitational forces, enter the tank 12.

By moving the shutter 3, the amount of input of the enriched material into the separator is controlled.

The proposed separator is structurally simple and will find application in the enrichment of non-metallic materials, for example, quartz.

Claims (3)

1. A separator containing a hopper, electrodes, receiving capacities, characterized in that it has a horizontal (inclined) pipe, in which the kinetic energy of the enriched material increases. 2. The separator according to claim 1, characterized in that it contains a vertical (inclined) pipeline, in which the enriched material is subjected to impact. 3. The separator according to claim 1, characterized in that it contains a mixing chamber.