RU2116137C1 - Electromagnetic cyclone separator - Google Patents

Abstract

FIELD: separation of material mixtures in gaseous and liquid media according to their magnetic perceptibility as well as their separation from solid inclusions. SUBSTANCE: separator has casing with charge and discharge pipe connections, traveling magnetic field system placed outside, internal corrugated surface, helical flow guide, and shut-off sleeve. Stream is introduced in separator under pressure and at high speed; helical path of flow increases its residence time in magnetic field; stream is additionally swirled due to friction against corrugated surface, separation products enter magnetic field, and stream is separated together with separation products; the latter are brought out of flow into valleys between corrugations and conveyed by traveling magnetic field to storage unit; clean stream is conveyed by shut-off sleeve to discharge pipe connection. EFFECT: improved efficiency of mixture separation and improved capacity of separator. 1 dwg

Description

 The invention relates to the field of separation of mixtures of materials according to their magnetic susceptibility, as well as to the field of purification of liquid and gas media from solid inclusions.

 A known magnetic separator comprising a cylindrical-conical housing, a traveling-field magnetic system located in the casing and installed in the cylindrical part of the casing, devices for supplying and unloading separation products, in which the casing is made in the form of a truncated cone, ring-shaped between the casing and the casing conical guides [1].

 The disadvantage of this device is the low specific productivity, since the separation products enter the working area only under the influence of gravity.

 The closest in technical essence to the present invention is a cyclone electromagnetic separator, including a cylindrical-conical housing, an electromagnetic system located on the outside of the housing, a loading and unloading pipe, a magnetic circuit made in the form of a shell and mounted coaxially to the housing on the external side, and the magnetic circuit can be made cylindrical or conical [2]. The use of the magnetic circuit allows a slight increase in the extraction of the magnetic component, but in general its efficiency is small.

 The technical task of the invention is to increase the efficiency of separation of mixtures and the performance of the separator.

 The technical result is achieved by the fact that in the separator, which includes a cylindrical-conical body, an electromagnetic system with a magnetic circuit located on the outside, a loading and unloading nozzle, a running magnetic field electromagnetic system with magnetic conductors is placed on the housing, the inner surface is corrugated, on the discharge nozzle inside the housing a spiral guide for the movement of the mixture is placed, and a locking cup is installed in the lower part of the housing.

 The proposed device is shown in the drawing and consists of a cylindrical-conical body 1, the inner surface of which is made of corrugated 2, a traveling magnetic field electromagnetic system 3 with magnetic circuits, a spiral guide 4, a locking cup 5, a loading nozzle 6 and a discharge 7.

 The separator works as follows. The dust-gas mixture enters through the pipe 6 into the housing and, limited by the spiral guide 4, moves downward in a spiral. Dust particles with increased magnetic susceptibility at the periphery of the stream fall into the magnetic field, are attracted to the inner surface of the body, fall into the hollows between the corrugations and, thus, are removed from the zone of action of the dust and gas stream. The contact of the dust and gas flow with the corrugated surface leads to increased turbulization and the entry of dust particles into the magnetic field. Dust particles in the hollows between the corrugations are moved by the action of a traveling magnetic field down to the conical part of the body, where they accumulate. The cleaned dust and gas stream enters the locking cup and is sent to the discharge pipe.

 Similarly, the cleaning of liquid media.

 Thus, the separation efficiency in the proposed device is ensured by the movement of the flow in a spiral, its additional turbulization in contact with the corrugated surface, removal of the release product into the depressions between the corrugations and its removal from the flow area. Improving the performance of the separator is provided by introducing a stream under pressure at an increased speed.

Claims (1)

 A cyclone electromagnetic separator, including a cylindrical housing, an external electromagnetic system with a magnetic circuit, loading and unloading nozzles, characterized in that the running magnetic system of the running magnetic field with magnetic circuits is placed on the housing, the inner surface of the housing is corrugated, and a spiral conductor is located on the discharge nozzle directing the movement of the medium, and a locking cup is installed in the lower part of the housing.