SU1523314A1 - Arrangement for magnetoabrasive machining - Google Patents

Abstract

The invention relates to mechanical engineering in the abrasive machining of parts in a magnetic field with a ferroelectric powder and makes it possible to increase the productivity of processing and simplify the design of the device. In the device, the ferroforming powder 6, formed by an annular permanent magnet 5 between two coaxial disks 2 and 3 with protrusions on the periphery, is rotated together with the device and, upon contact with part 8, performs processing. The protrusions on the disks 2 and 3 are shifted relative to each other by half a step, which provides for some oscillation of the ferrous powder, which increases the productivity of the process. 3 il.

Description

The invention relates to mechanical engineering and can be used for abrasive machining of parts in a magnetic field with a ferroabrasive powder.

The purpose of the invention is to increase the processing performance and simplify the design of the device by providing self-oscillation and elastic backing of the ferroabrasive powder.

FIG. 1 shows the device j in FIG. 2 is a section A-A in FIG. one; figure 3 - the location of the protrusions on the periphery of the magnetic cores.

The device contains coaxially arranged on the shaft 1 of the magnetic cores, made in the form of disks 2 and 3 with the protrusions 4 made on the periphery, and the disks 2 and 3 are rotated relative to each other by the step size. projections 4. Between the disks 2 and 3 there is a ring permanent magnet with axial magnetization, i.e. with poles at the ends. Between the poles of Disks 2 and 3 there is a ferroabrasive powder 6 and a means for its formation, made in the form of an elastic ring 7, enclosing a permanent magnet 5.

The device works as follows.

five

0 5

0

The axial component G, the friction (cutting) force (F) of the powder and its axial displacement from the protrusion of one polarity to the protrusion of the other polarity. When this happens, the powder self-oscillates, increasing the productivity and quality of the surface being treated due to the complication of the abrasive's trajectory along the surface being treated. The elastic ring 7 allows you to restore the shape of the mass of the ferroabrasive powder 6, deformed upon contact with the part 8. In addition, the elasticity of the ring 5 allows you to create a normal cutting force, which improves machining performance. Since the relative motion of the ferromagnetic abrasive powder and elastic ring is insignificant and the ring wears little. The presence of an elastic ring allows for a simple simplification of the means for shaping the ferroabrasive powder, and the use of permanent magic makes the power supply unit, current collector and other equipment necessary for electromagnets unnecessary. All this allows to significantly simplify the design of the device.

Claims (1)

Invention Formula Using a constant magnetic field, a mass of ferroabrasive powder 6 is formed between the protrusions 4 of discs 2 and 3. The device is rotated, which provides the main cutting motion, and the workpiece 8 is brought to the magnetically abrasive powder. The feed movement is carried out either by the device or work piece. The displacement of the protrusions of the disks leads to the fact that the ferroabrasive powder lags somewhat behind the speed of rotation of the device, moving from the protrusion of one disk to the protrusion of another disk, etc. (Fig. 3), performing self-oscillation. Due to the displacement of the discs by half a step of their protrusions, the angle appears between a discrete tangential gradient of the magnetic field and the cutting direction o (determining A device for magnetic abrasive treatment, containing coaxially located on the shaft of the magnetic cores, made in the form of disks, a source of constant magnetic field placed between the disks, and means dp form the mass of ferroabrasive powder, characterized in that, in order to improve performance and simplify design, the source of a constant magnetic field is made in the form of an annular permanent magnet with axial magnetization, and the disks have protrusions on the periphery and are offset relative to each other around the axis of the and half pitch of the projections, wherein the shaft is made of non-ferromagnetic material, and means for shaping dp weight ferro-abrasive powder is in the form of the elastic ring covering constant mage yarns. 1 tr ZHG f% fo A / 8.J