RU2522503C2 - Device for abrasive disk grinding - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: method involves rotation of a grinding disk and translational displacement of a workpiece being treated. The grinding disk is rigidly fixed between two disks from a conducting material which are connected to the negative pole of a power supply source and are set with a gap in respect to the surface of the workpiece connected to the positive pole of the power supply source. An electrolyte is supplied by a connecting pipe to the said gap between the disks and the treated workpiece for the purpose of electrochemical softening of the material on the treated workpiece section with its further removal by the grinding disk.

EFFECT: improved quality of the machined surface, reduced specific consumption of an abradant.

1 dwg

Description

The invention relates to the field of metalworking, in particular to devices for electrochemical processing by grinding wheels, and can be used in technological grinding operations.

A known method of grinding with a combined diamond tool, in which grinding is performed with a combined abrasive tool having elements with a coarse-grained abrasive layer of a material with electronic properties that match the electronic properties of the deep layers of the workpieces, and elements with a fine-grained abrasive layer of a material with electronic properties that match those of an electronic properties of the surface layers of the workpieces, and preliminary grinding is carried out by elements of a tool with large granular abrasive layer, and the final one with a fine-grained layer [RF Patent No. 2442682, B24B 1/00, publication date of application 2011.27.09].

Also known petal grinding wheel for electrochemical grinding of difficult alloys and steels, where the petals of the petal grinding wheel are made in the form of a metal mesh coated with abrasive material [RF Patent No. 2103123, V23H 5/06, publication date application 1990.05.03].

A disadvantage of the known device is the increased consumption of the grinding wheel and low grinding performance.

The technical result is an increase in productivity of processing by grinding, improving the quality of the processed surface and reducing the specific consumption of abrasive.

The technical result is achieved by the fact that the device for grinding with abrasive wheels containing a grinding wheel, according to the device, the grinding wheel is rigidly fixed between two disks of conductive material connected to the negative pole of the source of constant electric current, which are located at a distance from the surface of the workpiece connected to the positive pole of the source of direct electric current, forming a gap that can be filled with electrolyte for about uschestvleniya electrochemical process of softening the material of the workpiece.

The invention is illustrated in the drawing. Figure 1 shows a device for grinding with abrasive wheels.

The device comprises a grinding wheel 1, rigidly fixed between two disks 2 of conductive material connected to the negative pole of the DC power source 4. The grinding wheel 1 has the ability to contact the surface of the workpiece 3 connected to the positive pole of the DC current 4, and the disks 2 of conductive material are located at a distance from the surface of the workpiece, forming a gap that can be filled with electrolyte from pieces pa 5.

The device operates as follows. The grinding wheel 1 with disks 2 made of conductive material is given rotational motion at a speed V, and the workpiece 3 is translational S _pr , electrolyte is fed into the gap between the disks 2 made of conductive material and the workpiece 3 and the electric current from the source of direct current 4, after of which the workpiece to be processed becomes an anode, and disks of conductive material become cathodes. In the grinding process, section A of the workpiece being processed is softened by the action of electrochemical processes, and then removed by an abrasive wheel.

Claims (1)

A method of electrochemical processing using a grinding wheel, including the rotation of the grinding wheel and the translational movement of the workpiece, characterized in that the grinding wheel is rigidly fixed between two disks of conductive material, which are connected to the negative pole of the source of constant electric current and set with a gap relative to the surface of the workpiece connected to a positive source of constant electric current, while ohm fitting carried feeding electrolyte into said gap between the discs and the workpiece to electrochemical softening material in the area of the workpiece with subsequent removal of the grinding wheel.