RU78694U1 - VIBROMAGNETIC SEPARATOR - Google Patents

Abstract

A vibratory separator comprising a loading device, receiving hoppers for separated materials, a conveyor belt, characterized in that the conveyor belt is mounted obliquely on the rotating drums, in addition, the separator has two magnetic systems, one of which is made in the form of a magnetic rotor located inside the driven drum and the second magnetic system is located under the conveyor belt and is made in the form of a plate of permanent magnets connected to a vibrator, and with the possibility of moving it along the rticals.

Description

The vibromagnet separator is designed to extract free metal particles from an inert medium with a specific gravity higher than that of iron and can be used in the mining and mining industry, including for secondary processing of mining and processing waste.

The prior art vibromagnet separator (AS USSR No. 1207497, publ. 01/30/1986), which includes an electromagnetic system, a vibrator, a device for loading the source material, receiving bins for separated materials. The disadvantage of this separator is that it is designed to separate non-magnetic electrically conductive particles from mixed scrap metal and cannot be used in the mining and mineral processing industry, including for the secondary processing of mining and processing waste.

The closest in its constructional device to the claimed technical solution is a vibromagnetic separator for mineral processing (AS USSR No. 545383, publ. 02/05/1977), which contains a loading device, vibrator, vibrators, conveyor belt for magnetic particles, electromagnet system, receiving hoppers for separated materials. The main objective of this device is to increase the separation efficiency by imparting vibration to the material to be separated.

The disadvantages of this design are:

- the ability to extract from an inert medium only magnetic particles;

- the use of electromagnets increases energy consumption;

- the impossibility of extracting from an inert medium metal particles with a specific gravity higher than that of iron in a free state.

The objective of the proposed utility model is to create a device for extracting from an inert medium particles of metals with a specific gravity higher than that of iron in a free state.

The problem is solved by means of a vibratory magnetic separator containing a loading device, receiving bins for separated materials, a conveyor belt, and in contrast to the prototype, the conveyor belt is mounted obliquely on rotating drums, in addition, the separator has two magnetic systems, one of which is made in the form of a magnetic rotor located inside the driven drum, and the second magnetic system is located under the conveyor belt and is made in the form of a plate of permanent magnets connected to a vibrator and its movable vertically.

The novelty of the proposed vibratory separator is confirmed by the following features:

- the presence of a second magnetic system in the form of a plate of permanent magnets connected to a vibrator and the ability to move vertically;

- the location of the second magnetic system under the conveyor belt;

- the implementation of the vibration of magnetite particles due to vibration of the magnetic plate located under the conveyor belt with the ability to move vertically.

This technical solution of the vibratory magnetic separator allows you to select particles of heavy metals with a specific gravity higher than that of iron, for example, gold and platinum, which are in a free state.

The technical solution is illustrated by the images in the figures.

Figure 1 - schematic representation of the installation in operating mode No. 1.

Figure 2 - schematic representation of the installation in operating mode No. 2.

The vibratory magnetic separator contains a tray 1 for feeding the pulp of the source material, a feeding hopper 2 for feeding magnetite, an inclined conveyor with an endless conveyor belt 3 mounted on

rotating drums 4 and 5, a magnetic system 6 in the form of a magnetic rotor located inside the driven drum 5, a magnetic system 7 in the form of a plate of permanent magnets. The magnetic system 7 is located under the conveyor belt 3 with the possibility of moving vertically and is connected to the vibrator 8. The magnetic rotor 6 is equipped with its own drive (not shown), by means of which the magnetic rotor 6 is rotated in two opposite directions. A receiving tray 9 for a non-magnetic fraction and a receiving tray 10 for a magnetic fraction.

The vibro-magnetic separator operates in preparatory and two operating modes.

"PREPARATORY" mode. Conveyor belt 3 does not move. The magnetic plate 7 is brought to a minimum distance to the conveyor belt 3. From the feed hopper 2, a batch of magnetite 11 is poured onto the conveyor belt 3, which, under the influence of the permanent magnets of the magnetic plate 7, is evenly distributed in rows across the conveyor belt.

"OPERATING MODE No. 1". The tray 1 serves the source material in the form of pulp 12, which moves along the conveyor belt 3 due to the angle of inclination of the entire system. The magnetic plate 7 vibrates due to the attached high-frequency vibrator 8. Under the influence of vibration of the permanent magnets of the magnetic plate 7, magnetite particles 11 vibrate on the conveyor belt 3, while they capture and hold particles of free metals with a specific gravity greater than that of magnetite 11. Then, the pulp 12 along the conveyor belt 3 enters the working area of the magnetic rotor 6 located inside the driven drum 5. Depending on the minerals contained in the pulp, the magnetic rotor 8 can rotate Sya in the direction of movement of the conveyor belt, against its movement or not to rotate at all. In the latter case, the pulp by inertia falls into the receiving tray 9.

"OPERATING MODE No. 2". Upon the fact that magnetite is filled with particles of heavier metals, the pulp is blocked by valve 13, the magnetic plate 7 is lowered vertically to the maximum possible distance from the conveyor belt 3, and the conveyor belt 3 is moved in the direction of the driven drum 5, in which the magnetic rotor 6 rotates against movement conveyor belt 3. Magnetite particles 11 and heavier particles fall into the working area of the magnetic drum, while the magnetic fraction and the electrically conductive fraction fall into the receiving tray 10 for the magnetic fraction , and non-magnetic and non-conductive fraction falls into the receiving tray 9.

Thus, when using the proposed vibratory magnetic separator, the removal of material in mode No. 2 and in preparatory mode is carried out within a few seconds, due to which the cleaning is carried out practically without stopping, compared with other vibratory separators operating cyclically. The enrichment of the material occurs directly on the conveyor belt and in the process of removal of the material, it is refined under the influence of an electromagnetic field.

Claims (1)

A vibratory separator comprising a loading device, receiving hoppers for separated materials, a conveyor belt, characterized in that the conveyor belt is mounted obliquely on the rotating drums, in addition, the separator has two magnetic systems, one of which is made in the form of a magnetic rotor located inside the driven drum and the second magnetic system is located under the conveyor belt and is made in the form of a plate of permanent magnets connected to a vibrator, and with the possibility of moving it along the rticals.