SU500044A1 - Magnetic Abrasive Device - Google Patents

Description

The invention relates to the field of machine tools, buildings, and in particular to machines for ch1; processing of workpieces by ferromagnetic powder in a magnetic field. I A device is known for magnetically abrasive machining of parts located between the rotating and stationary magnet by the wires of the magnetic system, the pole j tips of which negatively reflect; the shape of the processed part, i The purpose of the invention is to provide an oscillating movement of the particles of magnetic abrasive; on the surface to be treated during the machining of the external and internal surfaces of hemispherical parts, due to which the quality of processing is reduced, and the dimensions of the installation are reduced, i Goal It is provided by the fact that {the working surface of one of the pole tips of the magnetic cores is made in the form of an even number of spherical segments of alternating polarity, and the other in the form of an even number of sectors across-. polarity arises. FIG. Figures 1 and 2 schematically show the structure of the device in two working but i nals; I The device consists of a rotating one; magnetic circuit 1 with electromagnetic coils 2 fixed on it, spherical segments 3 and slip rings 4; a fixed magnetic circuit 5c with electromagnetic coils 6 arranged on it, and sectors 7, for example, quarter-spheres separated by a non-magnetic i gasket 8. Part 9 is fixed on one nrm of magnetic circuits, for example, rotating. The operation of the device is as follows. The constant current supplied to the electromagnetic coils 2 through the slip rings 4 magnetizes the spherical segments 3 with a certain polarity (fit, 1), j. The constant current supplied to the electro magnetic coils 6 creates a working flux F that permeates the internal SRI magnetic circuit 5, quarter 1-sphere 7, working gap Oh, part 9, spherical

Segments 3 and Bp (n; auxiliary magnetowire 1. A magnetite abrasive is fed into the working gap, which is positioned normally to the workpiece surface along the magnetic flux lines. In the course of the rotation of the magnetic circuit 1, the part 9 is machined with an abrasive magnetic abrasive The surface to be treated. In order to clarify the process of oscillating "in"; optics of a magnetic abrasive, there should be 10 two positions of the rotating magnetic conductor 1 relative to the stationary magnetic conductor 5. In the first position (Fig. 1) (f under the opposite and 16 attenuation under the same spherical segments 3 of the rotating magnetic pipe 1, the particles of the abrasive are ohms & s in the magnetic flux gain. In the second position, when you rotate 20, the rotating magnetic circuit 1 is 180 ° (fig , 2) t zones, in which the adjustment and attenuation of the magnetic flux occurs, are mixed, as a result of which the particles of the magnet abrasive are displaced along the machined surface.

magnetic flux. In the process of rotation of the magnetic circuit 1, a continuous oscillation of a part of the magnetic over the treated surface occurs.

This device can also be used for machining flat) 1 surfaces of parts, in which case it is only necessary to change the configuration of the pole tips of the electromagnets.

Claims (1)

Invention Formula A device for magnetic-abrasive machining of parts, for example hemispherical, located between rotating and stationary magnetic circuits of the magnetic system, the pole tips of which negatively reflect the shape of the part, characterized in that, in order to improve the quality of processing and simplify the design, the working surface of one of the pole of magnetic cores performed in the form of an even number of spherical segments of alternating polarity, j and the other in the form of an even number of sectors  alternating polarity. -f0 Thebes. one 0-Ь 0 (Pt / e.Z