SU417229A1 - - Google Patents

Description

one

This invention relates to metallurgy, in particular to the continuous casting of metals.

A device for pumping a mold is known, in which magnetostrictive rods placed in a solenoid are installed under the paws of the mold.

However, the amplitude of the gauge of the mold with a rod length of 500 mm is only 20-30 microns.

The purpose of the invention is to increase the swing amplitude of the mold, while maintaining the linear dimensions of the magnetostrictor unchanged.

For this, the magnetostriction rod is telescopic, with each part of the rod having a different magnetostriction coefficient, and the parts are rigidly connected to each other on the ends so that each odd is attached to the end of the even, and from the opposite end to the next odd.

The drawing shows the proposed device for rocking the mold.

The device is a set of rods 1 of material, for example, with a positive magnetostriction coefficient, which are rigidly connected by ends with rods 2 of a material with a negative magnetostriction coefficient. The entire telescopic structure is placed in solenoid 3. One kn2

The rod of the magnetostrictor is fixed on a rigid support 4, the paw 5 of the mold rests on the other end. The device works as follows.

An alternating electric current is supplied to the solenoid 3, for example, with an industrial frequency, which creates an electromagitic field. Under the action of this field, the rods I, made of a material with a positive magnetostriction coefficient, are elongated, and the rods 2 of a material with a negative magnetostriction coefficient are shortened. The effect of magnetostriction is even, and therefore the sign of magnetic zero intensity is not

matters. Luba half wave causes the same reaction. When the electromagnetic field decreases to zero, the rods return to their original size. Therefore, the frequency of changes in the size of

the rod is twice the frequency of the solenoid feed. In this way, the size of all the rods is folded up, and the distance between the support 4 and the mold hand 5 increases by the sum of all

extensions.

For rods with a negative magnetostriction, the linear elongation is negative, but these elements are rigidly connected with the opposite end of the support, and therefore their negative elongation is summarized in the design as positive. Such a design makes it possible to increase the swing amplitude of the mold in proportion to the number of rods used. As a material for rods with a positive magnetostriction coefficient, for example, transformer steel can be used, as a material for rods with a negative magnetostriction coefficient, for example, nickel.

For casting low carbon steel grades, a device consisting of three elements, for stainless steel grades of five elements or more, can provide the necessary amplitude. To reduce energy consumption, a portion of the rods may be placed outside the solenoid; in this case sotoid nostti

FULLY grabbed by ferromagnetic material included in the working element of the device.

Subject invention

A device for oscillating the mold, containing a magnetostriction rod numbered in a solenoid, characterized in that, in order to increase the amplitude of the oscillator oscillation, the magnetostriction rod is made telescopic, each part of the rod having a different magnetostriction coefficient, and the parts are rigidly connected to each other at the ends that each odd is attached to the end of an even, and from the opposite end to the next odd.