RU200643U1 - DRY ELECTROMAGNETIC SEPARATOR - Google Patents

Abstract

The utility model relates to a device for purification of raw materials from magnetic impurities. The technical result of the proposed solution is to increase efficiency. The technical result is achieved by the fact that a dry electromagnetic separator, including an open core-type magnetic circuit, including a long vertical rod, connected by magnetic flux to its lower part, a lower horizontal rod and a short lower vertical rod, an excitation coil, a magnetic roller placed in a magnetic circuit break, a device raw material supply, a device for removing fractions of raw materials, characterized in that it contains the upper horizontal and upper short vertical rods connected by magnetic flux to the upper part of the long vertical rod, the electromagnetic coil is located (wound) around the upper and lower short vertical rods. vibrating chute, conveyor, etc. can be used. The solenoid coil can be made of square copper wire. Technical result - increased efficiency is achieved due to the fact that saturation of the magnetic circuit has less effect on the strength of the magnetic field in the gap - the working area when the exciting electromagnetic coils are located next to the gap. The utility model can be successfully applied for the manufacture of electromagnetic separators with increased efficiency.

Description

The utility model relates to a device for purification of raw materials from magnetic impurities.

Known "ELECTROMAGNETIC SEPARATOR" RU 2203144 [1], containing a magnetic system in the form of two electromagnets located with a gap relative to each other on both sides of the separation zone with the ability to adjust the gap between them, the feeder and receivers of separation products, is equipped with drums rotating in a horizontal plane around the electromagnets, and the feeder is made in the form of a moving belt conveyor, while the electromagnets and the conveyor are installed with the ability to move in horizontal and vertical directions to select the working separation zone with the maximum field gradient.

The disadvantage of the known design is low efficiency due to the large value of the double gap between the poles of the electromagnets.

The closest to the claimed technical solution is "Induction roller-ring magnetic separator" SU 79531 [2], 1.

Dry electromagnetic separator, including an open core-type magnetic circuit, including a long vertical rod, magnetic flux-connected to its lower part, a lower horizontal rod and a short lower vertical rod, an excitation coil, a magnetic roller placed in a magnetic circuit break, a feed device, a fraction removal device ...

The known device has a stronger magnetic field compared to [1] due to a decrease in the total value of the magnetic gap in the magnetic system.

The disadvantage of the known device is the low ratio of the power of the electric current applied to the coil to the magnitude of the magnetic field in the working area, due to the saturation of the magnetic circuit at strong magnetic fields.

The technical result of the proposed solution is to improve efficiency.

The technical result is achieved by the fact that a dry electromagnetic separator, including an open rod-type magnetic circuit, including a long vertical rod, connected by magnetic flux to its lower part, a lower horizontal rod and a short lower vertical rod, an excitation coil, a magnetic roller placed in a magnetic circuit break, a device raw material supply, a device for removing fractions of raw materials, characterized by the fact that it contains the upper horizontal and upper short vertical rods connected by magnetic flux to the upper part of the long vertical rod, the electromagnetic coil is located (wound) around the upper and lower short vertical rods.

The figure shows a section of a dry electromagnetic separator, where

1 - long vertical rod;

2 - lower horizontal bar;

3 - short lower vertical rod;

4 - magnetic roller;

5 - device for feeding raw materials with raw materials;

6 - upper horizontal bar;

7 - short upper vertical rod;

8 - electromagnetic coil.

Implementation of the utility model:

The magnetic circuit of the separator consists of a long vertical rod 1, connected in the lower part by magnetic flux to the lower horizontal rod 2 and a short lower vertical rod 3. The upper part of the long vertical rod is connected by magnetic flux to the upper horizontal rod 6 and a short vertical rod 7, which through a small gap magnetizes the magnetic roller 4. Below the roller there is a feed device for raw materials 5 with raw materials. A vibrating tray, conveyor, etc. can be used as a raw material feeding device. Devices for removing fractions, magnetic and non-magnetic, are any known and not shown.

The solenoid coil can be made of square copper wire, which will further increase efficiency by increasing the compactness of the magnetic coil and reducing magnetic leakage.

EFFECT: increased efficiency of work is achieved due to the fact that saturation of the magnetic circuit has less effect on the strength of the magnetic field in the gap - the working area when the exciting electromagnetic coils are located next to the gap.

Industrial applications. The utility model can be successfully used for the manufacture of electromagnetic separators with increased efficiency.

Claims (2)

1. Dry electromagnetic separator, including an open core-type magnetic circuit, including a longer vertical rod, magnetic flux-connected to its lower part, a lower horizontal rod and a shorter lower vertical rod, an excitation coil, a magnetic roller placed in a magnetic circuit break, a feed device , a device for removing fractions of raw materials, characterized in that it contains the upper horizontal and upper shorter vertical rods connected by magnetic flux to the upper part of the longer vertical rod, the electromagnetic coil is located around the upper and lower shorter vertical rods. 2. A separator according to claim 1, characterized in that the electromagnetic coil is made of a copper wire of square cross-section.

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