SU649551A1 - Centreless grinding apparatus - Google Patents

Description

The core 4 in turn magnetizes the metal driving circle 3, which acquires the property of attracting ferro-magnesium parts 1, which entails an increase in the frictional force between the part 1 and the driving circle 3.

Before the electric current is supplied to the electromagnet rollers 5, the rotating drive wheel 3 cannot give rotation to the workpiece 1, since the friction force between them is insufficient.

The drive wheel 3 magnetized by an electromagnet (or permanent magnet) attracts part 1, and the increased interaction force increases the friction force between the part and the drive wheel, which causes the part to rotate on the support tool 2 until it touches the grinding wheel ( not shown).

The centerless grinding scheme shown in the drawing, using a device for rotating the part, is the most efficient for mortise grinding. In this case, the drive wheel 3, made in two parts with a gasket 6 between them, reduces the power of the magnetization sources with the same pressing force due to the fact that the magnetic lines of force, the passage of the gap 5, and then both the drive wheel 3 wheels close on part 1, or to increase the force to press the part to the driving circle and the same power of magnetizing sources. With the mortise grinding method, it is possible to turn on the electromagnets only before the start of processing and turn them off with its beginning.

The required degree of magnetization of the drive wheel 3 increases with decreasing angle of the supporting knife 2, with an increase in the weight of the workpiece 1, with a decrease in the coefficient of friction between the part 1 and the drive lap 3.

The power of the applied permanent magnets or electromagnets depends on the required degree of magnetization of the driving wheel 3, the material and dimensions of the driving wheel, the gap 5 between the driving wheel 3 and the core 4 of the electromagnet. If it is necessary to obtain high precision machining, the drive wheel 3 must be cleaned from metal particles that are carried along by a magnetized drive wheel using known devices, for example, used in magnetic separators for cleaning.

sozh

The principle of operation of the described device is easily verified directly from

using a round magnet and, for example, a steel round piece of approximately the same size as they interact with the periphery of cylindrical surfaces. Adding rotation to the magnet, detail, with it

-interactive, also comes into rotation.

The invention makes it possible to increase the stability of the rotation of the part until it touches the grinding wheel.

Claims (2)

1. A centerless grinding device containing a grinding wheel, a bearing plate, a metal drive wheel and a magnet to increase the pressing of the workpiece to the drive wheel, characterized in that, in order to simplify the cleaning of the drive wheel, it is steep from the core, the magnet is made of a horseshoe and is installed with the possibility of covering the driving circle from two sides near the contact zone with the workpiece. 2. The device according to claim 1, characterized in that the driving circle is designed as two discs with a gasket in between. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 49931, cl. B 24V 5/32, 1936. //////////////////./////// J View . / .five