CS232691B1 - Magnetic separator - Google Patents

Abstract

The magnetic separator according to the invention is Designed for filtration of fluids contaminated with ferromagnetic particles. particles. It consists of a rotor with permanent magnets rotatably mounted in the separator body. In the channel between the rotor and the inner surface of the separator body. In channel between rotor and inner the surface of the separator body are located ribs attached either to the inner surface the separator body, or to the rotor in places with low magnetic field strength. The use of a separator is particularly advantageous for filtering of liquids with Telaitivini with higher viscosity such as cooling and flushing liquids when finishing magnetically conductive materials.

Description

The invention relates to an embodiment of a magnetic separator having a predominantly axially acting magnetic field suitable for filtering liquids contaminated with ferromagnetic particles.

The prior art magnetic separators consist of a rotor composed of several pormanieptic magnets, among which the resulting magnetic field exerts a force attracting feriromagnetic impurities to the rotor surface. The force generated is proportional to the magnetic induction at the specified location. Adjacent to the rotor is a spring-mounted flexible roller and a fixed wiper. The filtered liquid flows through a channel between the inner walls of the separator housing and the outer surface of the cylindrical rotor. In another embodiment of the magnetic separator, the channel is formed by the inner wall of the separator and the outer surface of the rotor with straight or oblique flanges at the edge. The rotor rotates against the flow direction of the filtered liquid, the overflow and partial displacement of which is usually provided by a freely rotatable flexible roller adjacent to the rotor. The filtered impurities are wiped off the rotor surface adjacent to the fixed slip and removed from the separator space. A common disadvantage of all known separator designs is the inadequate elimination of ferromagnetic impurities at the flow rate of the filtered liquid in those areas of the channel where there is very low or zero magnetic induction.

This disadvantage is overcome to a great extent by the magnetic separator of the present invention. It consists of a rotor with permanent magnets rotatably mounted in the separator body, between which the internal surface and the rotor surface leave a channel for the flow of the filtered liquid. The invention is based on the fact that ribs are located in the channel space in places of reduced magnetic field intensity, the ribs being formed either as segments attached to the inner surface of the separator body adjacent to the rotor surface, or as flanges of magnetic material attached to the rotor surface and adjacent to the inner surface of the separator body.

By carrying out the magnetic separator according to the invention, the overall filtration efficiency is considerably increased, especially for liquids with relatively higher viscosity, for example cooling and blasting liquids during grinding and other finishing of magnetically conductive materials. The design of the separator is structurally simple and easy to manufacture.

The drawing shows, on the one hand, one of the known magnetic separator arrangements and, on the other hand, an embodiment of the separator according to the invention, Nia-FIG. 1 is a side elevational view, in FIG. 2, of the prior art separator of FIG. Fig. 3 is an elevational cross-sectional view of a s-eparator arrangement according to the invention;

The prior art separator, in Figs. 1 and 2, consists of a separator body 1, a rotor 2 formed by permanent magnets 8 separated by inserts 7. The rotor 2 is fixed to the shaft 6 which is rotated by a drive 9. The elastic roller 3 adjoins the rotor 2. Between the inner surface 11 of the separator body 1 and the surface of the rotor 2, a channel 5 is left, through which the filtered liquid flows in the direction indicated by the pedal.

The embodiment of the magnetic separator according to the invention in Fig. 3 differs from that described above in that ribs 10 formed as segments connected to the inner surface 11 of the body 1 are located in the space of the channel 5. These ribs 10 are located at places of reduced magnetic intensity In the separator 11 and FIG. 4, the rib 12 is formed as flanges connected to the surface of the rotor 2.

As in the previous case, they are located in places of reduced magnetic field strength and are adjacent to the inner view 11 of the blind body 1. These ribs 12 are made of magnetic material.

The fins 10, 12 attached either to the inner surface 11 of the body 1, or to the surface of the rotor 2 -a adjacent with relatively little play to the surface of the rotor 2 or the inner surface 11 of the body 1 do not allow the filtered liquid to pass thereby greatly enhancing filtration efficiency.

Claims (3)

Subject 1. A magnetic separator, in particular having a predominantly axially acting magnetic field, for the filtration of liquids contaminated by ferromagnietic particles comprising a permanent magnet rotor rotatably mounted in a separator body, having a channel for the passage of a filtered liquid between the inner surface and the rotor surface; by the fact that in the pr-ostoir of the channel (5) there are placed (10, 12) at places of reduced intensity, the magnetic field. VYNALEZU Magnetic separator according to claim 1, characterized in that the ribs (10) are formed as segments connected to the inner surface (11i) of the separator body (1) and abutting the surface of the rotor (2). Magnetic separator according to claim 1, characterized in that the ribs (12) are formed as flanges of magnletic material attached to the surface of the rotor (2j) adjacent to the inner surface (11) of the separator body (1).