SU1699610A1 - Device for removing ferromagnetic particles from loose materials - Google Patents

Abstract

This invention relates to the separation of materials according to magnetic properties. The goal is to increase the efficiency of the separation process and the productivity of the device by creating a uniform magnetic field in the working area and increasing the working surface. The device contains upper and lower non-magnetic rotating bzoabans (B) 2 and 3. Inside each B there is a fixed magnetic system. It is made in the form of V-shaped permanent magnets (M) 4. Each M 4 is fixed to chu 6. Surface B 2 and 3 is made in v, de rectangular protrusions and hollows. The width of the protrusion is equal to the width of the depression. The ends of each M 4 are located in the adjacent depressions of the equidistant inner surface of B 2 (or B 3). The product to be purified is fed to the upper B 2. Ferromagnetic particles are attracted to the surface of the projections and cavities B 2 and are rotated to a zone where there is no field. There they are unloaded. On the bottom B 3, the product is cleaned. Due to the equal width of the protrusions and valleys, the field is uniform, which increases the separation efficiency. The presence of protrusions and depressions increases the surface area of the working surface, i.e. prod. 2 Il. (L

Description

The invention relates to magnetic separation and can be used to extract ferromagnetic particles from granular materials, in particular for the purification of crystalline sugar leaving the drying and cooling unit.

The purpose of the invention is to increase the efficiency of the separation process and the productivity of the device by creating a uniform magnetic field in the working area and increasing the working surface.

Figure 1 shows the device, a general view; figure 2 - section aa in figure 1.

A device for cleaning bulk materials from ferromagnetic particles consists of a rectangular section of the housing 1, in which rotating non-magnetic drums — the upper 2 and lower 3 — are installed. Inside the drums 2 and 3 there are stationary magnetic systems consisting of permanent V-shaped magnets 4 fixed on the profile thickenings 5 of the fixed shaft 6 using screws 7

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Inside the housing 1, above the upper 2 and lower 3 drums, there are guides 8 flows of the bulk material and rotatable devices 9 arranged next to each other to control the flow of the bulk material being cleaned.

The rotation of the drums is carried out from the motor-reducer 10 by means of the chain Gall 11. At the bottom of the housing 1 there is a folding receiver 12 of the captured ferromagnetic particles.

The profile-step surface of the drum has annular protrusions 13 and cavities 14 for rotation in the field of constant V-shaped magnets 4.

In both drums, the forming annular surface is equidistant to the surface of the magnetic system, as a result of which the ends of the V-shaped magnets enter the adjacent annular protrusions 13 of the drum surface. The width of the cavities 14 between the protrusions 13 is equal to the width of these protrusions, as a result of which a uniform magnetic field strength is created over the entire cross section of the falling bulk material.

The device works as follows.

Bulk material, such as sugar, is fed into the device body 1 and guided 8 and rotary devices 9 onto the upper rotating drum 2. The annular surface of the rotating drum, which is in the magnetic field, crosses the layer of falling bulk material. ferromagnetic particles, which uniformly fill its protrusions 13 and valleys 14 due to the uniform magnetic field strength, are attracted to themselves.

Breaking away from the surface of the drum 2 as it passes through the non-magnetic sector, the ferromagnetic particles enter the hinged receiver 12 for the ferromagnetic particles, and the flow of the product being cleaned through the guides 8 and the rotator 9 falls on the lower rotating drum

3. Here additional cleaning of the bulk material from ferromagnetic particles takes place.

Separated magnetic particles also enter the hinged receiver 12.

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Claims (1)

Apparatus of the Invention A device for cleaning bulk materials from ferromagnetic particles, including a rotatably mounted non-magnetic drum, whose working surface is formed by rectangular annular projections around its circumference at equal pitch and placed inside it by a fixed magnetic system, a feeder and receivers of separation products, characterized in that, in order to increase the efficiency of the separation process and productivity by creating a uniform magnetic field in the working area and the enlargement of the working surface, the rectangular protrusions are made hollow, and the magnetic system is in the form of V-shaped permanent magnets, the ends of which are located inside the adjacent protrusions of the drum equidistant to their inner surface. Whitefish. 2 , Xv / # / 3