SU285792A1 - DEVICE FOR MAGNETIC ORIENTATION OF ELECTRICAL CONDUCTING NON-MAGNETIC TELEVELOP-UNIT "ATEKiHS-Tauii'ir ^ H ^ fIBIBRARY - Google Patents

Description

Devices are known for the magnetic orientation of electrically conductive non-magnetic bodies under the influence of electrodynamic forces generated in the course of the interaction of a current induced in the body with an external pulsating magnetic field.

The proposed device is characterized in that it is made in the form of C-shaped electromagnets, fixed on the base, with the possibility of changing the relative position, each of which is powered by a current controlled in frequency and force.

Such a device forms a volumetric magnetic field with the required nature of heterogeneity due to the mutual placement of electromagnets relative to the direction of supply of the oriented bodies and thereby allows the device to expand its technological capabilities.

FIG. 1 shows a general view of a device consisting of two C-shaped electromagnets; in fig. 2 is one of the possible mounting options for an electromagnetic system providing spatial adjustment of electromagnets relative to each other.

The device consists of C-shaped electromagnets 1 and 2, facing each other by interpolar spaces, forming a pulsating magnetic field in the orientation zone of the volume.

Orientable body 3 is presented in the form of an asymmetric rod. One end of this rod is smooth, the other is cut. Such a construction affects the magnitude of the equivalent electrical conductivity of the ends of the body. Due to the fact that each individual magnet can form in the orientation zone local areas of the field with a frequency different from the rest of the space volume field,

active influence on one or another less pronounced sign of the oriented body is achieved.

With the help of two electromagnets 1 w. 2 is conveniently provided with the necessary non-uniformity of the magnetic field in the orientation zone. This is achieved by the fact that the lower electrodes of the same pole terminals of the electromagnets are separated from each other by a distance slightly larger than the diameter of the oriented body

and the upper ones are divorced relative to each other by the amount at which a rational field gradient is achieved, providing the most distinct orientation. As a result of the formation of such a fan-shaped heterogeneous

The magnetic field at the ends of the orientable body is applied unequal in size, the total components of the electrodynamic forces of the RE and RA, which tend to push the body out of the orientation zone. A body under the action of mutual reversal and removal of electromagnets in the same plane can easily organize a non-uniform magnetic field in one plane of the orientation zone. If it is necessary to form an orientation zone with a non-uniform magnetic field in different planes of space, i.e. when a spatial non-uniform field is provided, it is very convenient to arrange the proposed device from C-shaped electromagnets of more than two. The number and mutual placement of individual C-shaped electromagnets depends on the configuration of the oriented body and the requirements for its oriented position.

Subject invention

Device for magnetic orientation of electrically conductive non-magnetic bodies in a pulsating magnetic field formed by electromagnets arranged opposite to each other by their interpolar spaces, characterized in that, in order to expand technological capabilities, it is made in the form of C-shaped electromagnets fixed on the base. , each of which is powered by a frequency and power adjustable current.