CS218035B1 - Magnetic separator - Google Patents

Description

The invention relates to a magnetic separator consisting of a short excitation coil.

Magnetic separators are mainly used to increase the concentration and to remove unwanted magnetic impurities from various kinds of raw materials, which are usually introduced into the separators in the form of a suspension of solid particles in a liquid. The paramagnetic particles are then subjected to a magnetic force proportional to the magnitude (B.V1JB, where B is the magnetic induction vector) in the working volume of the separators. If the magnetic field is created using a classical resistive usually copper winding supplemented with an iron magnetic circuit, the induction of the B electromagnet in the working volume of the separators is approximately homogeneous if the field inhomogeneities on the surface of the matrix are neglected. only by winding in the form of a short coil whose height is smaller than the diameter, a case which may sometimes be advantageous especially when using a superconducting field winding, the magnetic field in the coil cavity without the matrix can be relatively Homogeneous and at different points in the working volume of the separators, the amount of induction differs by 50% or more depending on the coil design.

Optimization of the separator separation cycle is closely related to the selection of individual separator parameters, among which magnetic induction plays an important role. If the induction in the working volume varies considerably, the other parameters (suspension flow rate, matrix loading, etc.) must be selected with respect to the lowest induction of the magnetic field in the working volume, while the matrix in the remaining areas with higher induction is not optimally utilized.

These disadvantages are substantially eliminated by the magnetic separator according to the invention. The principle of the invention is that at least one separating partition is inserted into the working space of the separators, dividing the matrix in the direction of suspension flow into at least two working sections.

The problem of optimal matrix utilization throughout the working volume of a spatially variable magnetic field induction separator solves the invention by dividing the working volume into 2 or more sections arranged so that the induction within each of the sections can be considered roughly homogeneous. The different sections of the separated suspension, equipped with their own measuring and control elements, allow to optimize the separation cycle according to the individual conditions in each section.

The attached drawing shows an exemplary embodiment of separators consisting of a short winding coil.

In the working space of the separators, a ferromagnetic matrix M is placed, which is divided by partitions P into two sections I and II. The baffles P are substantially inserted downstream of the suspension S. By inserting the baffles P into the separator workspace and dividing the ferromagnetic matrix M into several sections I, II, the magnetic induction B, excited by the external winding V of the magnet, shows in each of the sections higher degree of homogeneity than in the entire separator workspace.

Claims (1)

A magnetic separator consisting of a short excitation coil, characterized in that it is inserted into its working space at least BACKGROUND OF THE INVENTION one partition (P) dividing the matrix (Mj in the direction of slurry flow (SJ) into at least two working sections (I, II j).