SU1662816A2 - Device for magnetic abrasive machining - Google Patents

Abstract

The invention relates to mechanical engineering and can be used for finishing flat, cylindrical and curved surfaces. The purpose of the invention is to increase the processing efficiency by increasing the tangential cutting force and better retention of the ferromagnetic abrasive powder on the surface of the rotating tool. The device contains a permanent ring magnet 1 with axial magnetization, mounted on the shaft 2 of a nonmagnetic material. The end surfaces of magnet 1 are covered by a magnetic core with magnetic field concentrators in the form of protrusions on the outer surface. The outer surface of the ring magnet 1 is covered with an elastic porous non-magnetic ring 4, copying the shape of the processed surface. 2 Il.

Description

The invention relates to mechanical engineering, can be used for finishing flat, cylindrical and curved surfaces and is an improvement of the device according to the authors; No. 1523314.

The purpose of the invention is to increase the processing efficiency by increasing the tangential cutting force and better retention of the ferromagnetic abrasive powder on the surface of the rotating tool.

Figure 1 shows the proposed device, the cut; figure 2 - section A-A in Fig, 1.

The device contains a source of a magnetic field in the form of an annular magnet 1 with axial magnetization attached to a nonmagnetic shaft 2, disk magnetowires 3 adjacent to the end surfaces of magnet 1 and having on the outer cylindrical surface concentrators of a magnetic field in the form of projections, and an elastic porous element - ring 4, made, for example, of chloroprene porous rubber, covering the outer cylindrical surface of magnet 1 and carrying ferromagnetic abrasive powder 5.

The device works as follows.

The ferromagnetic abrasive powder 5 is applied to the outer surface of the ring 4 and secured with a magnetic field. The device is rotated and is brought to the surface 6 to be treated. The powder particles are fixed in the pores of the elastic element and move along with it as the device rotates.

The elastic element provides for the formation of a magnetic abrasive tool, as well as being a source of normal and tangential cutting forces.

Powder retention in the pores of the elastic

element is provided by the magnetic field gradient (grad H), directed along the radius to the surface of the ring 4 (in the region of the concentration of lines of force). The gradient provides a magnetostatic force pressing the powder particles to the elastic element. Since this force acts not only directly on the surface of the elastic element, the abrasive grains, torn out from the pores by cutting forces or the centrifugal force Pc, are not carried away, but return to the surface of the ring 4. At the same time, the role of the pores reduces not only to the retention of particles, to giving them

The tangential cutting force FT is a purely mechanical side surface of the pore, since the tangential gradient of the magnetic field is relatively small even in the presence of concentrates. Since the magnetostatic and cutting forces during magnetic-abrasive machining are not large, the ferroparticles are fixed only in the surface open pores without reducing the elasticity of the ring 4, which provides the normal cutting force (PM).

Claims (1)

Invention Formula Device for magnetic abrasive machining according to author No. 1523314, characterized in that, in order to increase the processing efficiency, the elastic ring is made porous. ± AbI gradH yy & zl5 & s / and G in t in a ZTa And | / / r.2