SU1299782A1 - Material cutting device - Google Patents

Abstract

The invention relates to mechanical engineering and can be used for cutting complex contour products with a rotating tool. The purpose of the invention is to increase the cutting speed due to the excitation of purely torsional vibrations in the tool. The goal is achieved by supplying the friction device with annular multipolar permanent magnets 2, 6 and 7. The magnet 2 is rigidly fixed to the wire tool 1, and the magnets 6 and 7 are installed coaxially and symmetrically relative to the magnet 2 with the possibility of synchronous movement along the tool 1 and oriented opposite poles meet one another. When the wire tool 1 is rotated, a multi-pole magnet 2 rigidly mounted on the tool rotates in an alternating magnetic field created by ring multi-pole magnets 6 and 7. This causes the magnet 2 to be stable in relation to the magnets 6 and 7 and unstable. 1 il. ND CO WITH 00 ke

Description

The invention relates to mechanical engineering and can be used for cutting complex contour products with a rotating tool.

The aim of the invention is to increase the cutting speed.

The drawing shows a diagram of a device for cutting material.

The device for cutting material contains a wire tool 1 with an annular multi-pole permanent magnet 2 fixed on it, fixed in coaxial supports 3. The supports are fixed on the bracket 4, on which the mechanism 5 of symmetrical movement of the circular multipole permanent magnets 6 and 7 relative to the magnet is also fixed 2 along the wire tool 1. And the magnets 6 and 7 are oriented opposite poles towards each other.

The device works as follows.

When the wire tool 1 is rotated, a multipolar magnet 2 rigidly attached to the tool rotates in an alternating magnetic field created by annular multipolar magnets 6 and 7, which leads to the periodic appearance of the magnet 2 with respect to the magnets 6 and 7, which then occurs when the poles of magnet 2 are located opposite to the opposite sign of the poles of magnets 6 and 7, and unstable - when the poles of magnet 2 are located opposite of the same sign poles of magnets 6 and 7. Moreover, when approached as a result of turning magnet 1 opposite poles of magnet 1 and poles of stationary magnets 6 and 7, magnet 2 is in a stable position, magnet 2 attracts with acceleration, i.e. overtaking a rotating tool and twisting the wire, and to bring it out of a stable position, it is necessary to apply an appropriate moment, i.e. again twist the wire, but in the other direction.

When approaching due to further development of like poles of magnet 2

and magnets 6 and 7 (unstable position) magnetic repulsive forces arise, first causing a braking effect on magnet 2 and thereby twisting the wire against the direction of rotation, and then, overcoming this zone, the same repulsive forces push the magnet in the direction of rotation, t. e. twisting the wire in a different direction. Since the magnet 2 is symmetrically positioned with respect to the magnets 6 and 7, the forces of their magnetic interaction arising along the axis of the rotating tool are mutually balanced, and as a result, purely torsional vibrations arise in the rotating tool.

The amplitude of the torsional vibrations is regulated by the intensity of the magnetic field created by the magnets 6 and 7, which increases with decreasing gap between

and decreases with increasing clearance. The regulation of the gap between the magnets 6 and 7, taking into account the necessary preservation of their symmetry with respect to the magnet 2, is carried out by mechanism 5, which represents

a rigidly mounted boom on which two sleeves are attached, fixed to the boom with screws. Fixed magnets 6 and 7 are rigidly attached to the rods.

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Claims (1)

Invention Formula A device for cutting material containing an instrument in the form of a wire string, fixed at its ends in two supports, mounted with the possibility of synchronous rotation, characterized in that, in order to increase the cutting speed, it is equipped with three annular multipolar permanent magnets, one of which rigidly fixed along the axis of symmetry on a wire instrument, and two the others are coaxially and symmetrically arranged with respect to the first one with the possibility of mixing, along the wire tool and oriented opposite poles towards each other.