SU1119731A1 - Method of classification of pellets from ferromagnetic material - Google Patents

Abstract

1. METHOD OF CLASSIFICATION OF A GROUNDED OF A FERROMAGNETIC MATERIAL, including the supply of material to the working surface, impact on particles by a magnetic field and spreading of material, characterized in that, in order to increase the efficiency of the classification process the floor is reduced normal to the working surface and in the direction of movement of the material. 2. A method according to claim 1, characterized in that the component of the gradient of intensity in the direction of movement of the material is 200-1000 kA / m2.

Description

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The invention relates to the field of mineral processing and can be used to prepare raw materials for metallurgical processing.

A known method for the classification of pellets, including the supply of material to the working surface, the message particles of the same translational velocity and scattering of the material 1.

The disadvantage of this method is that the difference in the paths of movement is provided only by different particle sizes, which leads to the mixing of the fractions to be separated.

The closest in technical essence and the achieved result to the invention is a method of classifying pellets of ferromagnetic material, including the supply of material to the working surface, the impact on particles by a rotating magnetic field and the scattering of material 2.

The disadvantage of this method is that the pellets break off practically in a small area, the specific holding forces of the pellets are the same and the difference in the trajectories of movement is provided only by different initial velocities at the moment of separation, which leads to mixing of the separated fractions.

The purpose of the invention is to increase the efficiency of the classification process by increasing the difference in the paths of movement of pellets of various sizes.

This goal is achieved by the fact that, according to the method of classifying pellets from ferromagnetic material, including the supply of material to the working surface, the effect on particles by a magnetic field and the scattering of material, the magnetic field intensity decreases normal to the working surface and in the direction of material movement.

The gradient component in the direction of movement of the material is 200-1000 kA / m2.

The method is carried out as follows.

The pellets are fed to the working conveying surface at the beginning of the magnetic field. At the loading site, it is necessary to ensure the retention of pellets of different size and working surface. To do this, they act by a magnetic field, whose attractive forces, together with other forces (holding forces), reliably hold pellets of different sizes.

The pellets are fed with a layer whose height does not exceed the size of the largest pellets at a material feed rate less than the speed of the working surface, and are affected by a magnetic field with a decreasing normal force of 2-10 times the distance of the diameter of the separated pellets. Normal composition. The magnetic force is maximal at the working surface and decreases as it moves away from it.

The component of the gradient of intensity in the direction of movement of the laminate is 200-1000 kA / m.

The impact on the pellets by a magnetic field with varying power characteristics in space ensures that the pellets are retained on the working surface at the beginning of the working area, and then the successive detachment of pellets of diminishing size in different parts of the transporting working surface in the course of movement. As a consequence, pellets of different size, having the same translational speeds at the corresponding separation points, continue to move in a zone of separation along different (non-intersecting) trajectories, forming a stream of pellets, within which there is a distribution of its components by size. From the stream of pellets organized in this way, the required fraction is separated by known methods (for example, by means of dividing walls). The impact on the pellets by a magnetic field of decreasing intensity along the normal to the working surface gives a difference in specific forces, creating conditions for keeping small pellet fractions and separation of large coarse fractions at a given point, and a field of decreasing strength along the motion of pellets coarseness on subsequent drum sections, which contributes to a more efficient separation of the pellets.

Decrease in the tension along the normal to the working surface by more than 10

times at a distance equal to the maximum size of the pellet of the separated fraction is undesirable because of the high probability of destruction of the surface layer of the pellets and possible flocking, and less than 2 times is impractical because of the small difference in holding forces between the different pellets , which leads to mixing of pellets of different size.

With a gradient of tension more

0 1000 kA / m 2, different fractions are mixed due to the separation of the pellets in a small section of the working surface, while the trajectories of the different pellets are traversed in the separation zone. With a gradient of less than 200 kL / m, the separation efficiency becomes equal to the efficiency of the known method.

Structurally, the decrease in the intensity of the magnetic field in the course of the movement of the material 11197314

la with a constant or increasing gradient, section and material additional

The intensity of the tension can be reached. This, for example, by changing the pole pitch

magnetic system, changing the gap between the proposed method allows for a magnetic system and a working transport, reduce the separation efficiency by 30 ° / and

abrading surface, etc. Descending can be used for layered

the field strength is normal to the working lay of the pellets over the layer height, which can be achieved on the surface to improve metallurgical magnets with different energies of the pellets and increase productivity

along the working surface, the selection of a baking machine.

Claims (2)

(544) 1. METHOD FOR CLASSIFICATION OF PELLETS FROM FERROMAGNETIC MATERIAL, which includes feeding the material to the working surface, exposing the particles to a magnetic field and spreading the material, characterized in that, in order to increase the efficiency of the classification process by increasing the difference in the trajectories of the pellets of different sizes, magnetic field strength is reduced normal to the working surface and in the direction of movement of the material. 2. The method according to π. 1, characterized in that the component of the tension gradient in the direction of movement of the material is 200-1000 kA / m ² .