SU574313A1 - Apparatus for cleaning abrasion tool from ferromagnetic shavings - Google Patents

Description

one

The invention relates to the field of mechanical engineering and can be used in the machine tool industry for equipping grinding machines for processing ferromagnetic materials with inexpensive devices, allowing us to significantly increase processing efficiency by increasing the productivity and durability of abrasive tools.

A device is known that solves a similar problem by stirring statically fixed permanent magnets near the working surface of an abrasive tool, the working surface of which is separated from the working surface of the tool by an air gap to create an air jet in it, whose force exceeds the attractive force of the magnets. In such a device, chips do not accumulate on the surfaces of the magnet, but are emitted into the atmosphere.

However, mechanical implants and adhesives on the working surface of the circle are always formed during the grinding process, since weak magnetic fields and inertial forces caused by spinning, can not dry out, or clean the working surface of the tool, i.e. These devices are small.

The purpose of the invention is to ensure effective cleaning of the working surface of the instrument from the strings: EC, mechanically embedded in the pores of the instrument or adhered to the edges.

This is achieved through the use of the maximum possible force developed by DC magnets placed in enclosures equipped with means for constant support for the minimum possible

the gap between the surfaces of the abrasive tool and the electromagnets, the working surfaces of which are made with oblique grooves, and mounted on rails corresponding to the configuration of the trajectory

movement of abrasive grains; nta in the place of cleaning.

The device is shown in the figure, on the example of the grinding wheel.

The device contains a casing 1 of the grinding wheel 2 with two arcuate guides 3 fixed on it, along which electromagnets 4 can move. Fixed with screws 5 when the guides of the cracker 6 shrink, 1 has a groove for placing electromagnets along the periphery of the wheel with a minimum clearance to its surface . Electromagnets 4 are cylindrical body 7 with a core made in one of the best varieties

magnet of iron iron to ensure max.

maximum rnite induction in the working end of the magnet core. The coil 8 is placed inside the housing and is isolated from the external environment with a non-magnetic gasket 9. The magnet has the ability to move around the cylinder 10 using micrometer type 11, connected to the actuator (on the imp — not shown) and the nut 12 fixed on the end of the cylinder.

A protective screen 13, made of plastic material, serves to isolate the internal volume of the case from the external environment. The core end has a complex surface made in the form of spiral grooves with edges 14 directed at an angle to the side surface of the grinding wheel with overlapping of the entire working periphery of the wheel.

The device works as follows.

When the grinding wheel is brought into contact with the workpiece 15, electromagnets 4 are turned on. A nipple on a circle 2 ferromagnetic chips enters the zone of influence of powerful electromagnets (two or more) and, under the influence of electromagnetic fields, is torn off from the surface of the circle, shrinks to one of the magnets The side of the core is grinded with aia grinding wheel, gradually filling the free volume bounded by its faces.

After processing the parts, the loggits are cut off and the adhered chips are blown into the atmosphere by an air flow created by a circle, the force of which is somewhat higher than the force of the pretense caused by residual mapetism.

The gap between the magnets and the circle is selected using a drive system (not shown in the drawing) acting on the screws 11. The cycle is repeated.

A device for cleaning abrasive lengy is similar to that described, with the only difference that the shape of the rule can be straightforward.

Claims (2)

1. A device for cleaning an abrasive tool from ferromagnetic shavings by means of magnets installed in housings near the abrasive tool, characterized in that, in order to increase the efficiency of the cleaning process, it is equipped with guides corresponding to the configuration of the path of movement of the abrasive grains of the tool at the cleaning site, which, with the possibility of changing their relative position, are installed the shells of the electromagnehtotB, and the said shells are provided with means for permanently maintaining the minimum of a possible gap between the surfaces of the abrasive tool and electromagnets. 2. A device according to 41. 1, characterized in that the working surfaces of the electromagnets are made with oblique corrugations. Sources of information taken into account at the examination I. US Patent 3596413, cl. 51-262A, 03.08.71. 12 13