SU904783A1 - Electromagnetic separator - Google Patents

Description

The invention relates to metallurgy, in particular to the processing of scrap and metal waste.

A known electromagnetic separator comprising a non-magnetic drum, an open combined radial-type electromagnetic system located inside the drum and consisting of permanent magnets and alternating current electromagnets, the electromagnets being equipped with multivibrators and alternating with permanent magnets 1.

The disadvantages of this device is the extraction of only non-magnetic conductive fraction from the feedstock and its unsuitability to divide it into three fractions - magnetic, non-magnetic conductive and non-conductive.

H1 {1) closer to the technical essence of the present invention is an electromagnetic separator including a rotating drum, a combined magnetic system contained in it consisting of systals, creating a traveling magnetic field and a system that creates a constant magnetic field, a feeder and receivers of separation products 2 .

The disadvantage of this separator is the inability to separate the material (scrap and metal waste) into three fractions - magnetic, non-magnetic conductive and non-conductive, that is, the efficiency of the separation process is low.

The purpose of the invention is to increase the efficiency of the separation process.

10 material on magnetic properties and electrical conductivity by creating a pulsating magnetic field in the working area.

15

The goal is achieved by the fact that the separator is equipped with an electromagnet mounted above the drum in the feed area of the source material and an additional magnetic system,

20 made of alternating magnets and electromagnets, with the feeder mounted above the top of the drum; The outer surface of the drum is made with steps facing the direction of rotation of the drum, and the magnetic system creating a traveling magnetic field is placed offset from the plane of feed of the source material in the direction of rotation of the drum.

, Ka fig. 1 - electromagnetic separator, end view of the drum; in fig. 2 - view of the side of the Barbican.

The electromagnetic separator includes a drum 1, with a combined magnetic system located inside it, consisting of an electromagnetic system: a system 2 that creates a traveling field, an additional magnetic system formed of permanent magnets 3 alternating with electromagnets 4 that create a pulsating a magnetic field. A feeder 5, made, for example, in the form of a vibroconveyor, is installed above the upper point of the drum 1, and an electromagnet 6 is installed in the feed area of the source material. The electromagnetic separator also includes receivers 7–9 of the separation products of the magnetic, non-magnetic, electrically conductive and non-electrically conductive fractions, respectively, and a non-magnetic system 10, which creates a constant magnetic field, the drum surface has steps 11,

Electromagnetic separator works as follows.

Scrap and metal waste is supplied by the feeder 5 to the feed area of the source material. The trajectory of the particles of the magnetic fraction during free fall is deflected in the direction of rotation of the drum 1 under the action of the magnetic field of the electromagnet 6, and the magnitude of the magnetic field is regulated, for example, by changing the current in the winding so that the particles of the magnetic fraction fall into the zone of action of the magnetic field formed by superposition fields of permanent magnets 3 and electromagnets 4. Attached to the surface of the drum 1 under the action of forces - a permanent magnetic field and intensely vibrating under the action of forces pulsing second magnetic field purifying Referring gakim manner from non-conductive particle fractions, the particle of the magnetic fraction are moved together with the drum to its bottom point, where, coming out of the zone of action of permanent magnets otryvayuts from the drum surface, and fall to the receiver 7 of the magnetic fraction.

The particles of the non-magnetic electrically conductive fraction during free fall are carried along by the traveling field created by the electromagnetic system 2, in the direction opposite to the rotation of the drum, thus separating from the total mass of scrap and metal waste. The interaction of the particles of the fraction with the normal component of the traveling floor leads to the fact that the particle, not touching the surface of the drum, flows around it

and get into the receiver 8 non-magnetic electrically conductive fraction. Since the trajectory of the particles falling from the vertical may deviate, in order to prevent the non-conductive particles from falling into the zone, the traveling field does not work, the electromagnetic system 2 is made offset from the feed plane of the source material in the direction of rotation of the drum. The non-electrically wired fraction, unaffected by the magnetic fields, falls to the top of the drum and, being carried away by it, which the ledges 11 on the surface of the drum contribute to, moves to the receiver 9 the non-conductive fraction.

Claims (3)

The proposed separator is expedient to use in the field of metallurgy, in particular, in scrap processing plants. Especially effective is the use of a separator on the crushing lines of lightweight scrap metal, where it allows us to refrain from the manual labor used to select a non-magnetic conductive fraction from crushed scrap and metal waste. . Invention Formula : 1. Electromagnetic separator, including a rotating drum, a combined magnetic system placed in it, consisting of a system that creates a traveling magnetic field, and a system that creates a constant magnetic field, the feeder is receivers of separation products, characterized in that the process of material separation by magnetic properties and electrical conductivity by creating a pulsating magnetic field in the working area; the cetjapator is equipped with an electromagnet mounted above the drum in the feed zone About the material, and - an additional magnetic system made of alternating magnets and electromagnets, while the feeder is installed above the upper point of the drum. 2. A separator pop, 1, characterized in that the external surface of the drum is made with steps facing the direction of the drum. 3. The separator according to claim 1, wherein the system, which creates a running magnetic field, is positioned with a squint from the plane of supply of the original M & R & D in the direction of rotation Sources of information taken into account in the examination 1, USSR Author's Certificate No. 668706, cl. At 03 On 1/10, 1978. 2. USSR author's certificate number 406573, cl. In 03 C 1/02, 1967 (prototype). 4SL % L 7 / T / t17 y