RU54548U1 - ELECTRIC SPARK HARDENING DEVICE - Google Patents

Abstract

The utility model relates to electrophysical and electrochemical processing methods. The utility model is aimed at stabilizing the regime of spark hardening and increasing the productivity of the device. The solution to this problem lies in the fact that the device containing the DC power source, the outputs of which are connected to the pulse generator and the primary winding of the high voltage transformer, the output of the pulse generator, in turn, is connected to the thyristor, which is connected in series with the primary winding of the high voltage transformer, and the secondary winding of the high-voltage transformer is connected to the electrode-tool and the workpiece, additionally equipped with an electric spark gap with adjustable clearance. A distinctive feature of the prototype is that the device for electric spark hardening is additionally equipped with an electric spark gap with an adjustable gap. This device circuit provides the necessary electrical mode and supports it during the hardening process, and also allows to increase the productivity of the process of electric spark hardening and reduce processing time.

Description

The utility model relates to electrophysical and electrochemical processing methods.

A device for electrospark hardening is known (RF Patent No. 2171162 IPC V 23 H 7/04, 2001). The device contains a DC power source, the outputs of which are connected to the pulse generator and the primary winding of the high voltage transformer, the output of the pulse generator is in turn connected to the thyristor, which is connected in series with the primary winding of the high voltage transformer, and the secondary winding of the high voltage transformer is connected to the electrode-tool and workpiece.

The disadvantage of this device is that in order to maintain a spark discharge between the electrode and the part that occurs in the gap and leads to electrical explosion of microroughnesses, in order to ensure a stable electrical regime, it is necessary to maintain a constant gap in the gap between the part and electrode.

The utility model is aimed at stabilizing the regime of spark hardening and increasing the productivity of the device.

The solution to this problem lies in the fact that the device containing the DC power source, the outputs of which are connected to the pulse generator and the primary winding of the high voltage transformer, the output of the pulse generator, in turn, is connected to the thyristor, which is connected in series with the primary winding of the high voltage transformer, and the secondary winding of the high-voltage transformer is connected to the electrode-tool and processed

detail, additionally equipped with an electric gap with an adjustable gap.

A distinctive feature of the prototype is that the device for electric spark hardening is additionally equipped with an electric spark gap with an adjustable gap.

The drawing shows a schematic diagram of the proposed device.

The device contains a DC power supply 1, the outputs of which are connected to a pulse generator 2 and the primary winding of the high voltage transformer 4, the output of the pulse generator 2 is in turn connected to a thyristor 3, which is connected in series with the primary winding of the high voltage transformer 4, and the secondary winding of the high voltage transformer 4 with an electric spark gap 5 connected in parallel to it, connected to the electrode-tool 6 and the workpiece 7.

The device operates as follows:

When connecting a DC power source 1 to an external network, an electric current passes through a pulse generator 2, at the output of which pulses occur. Under the influence of pulses, the thyristor 3 opens and the primary winding of the high-voltage transformer 4 is fed by a pulsed current from a DC power source. When a current pulse passes through the primary winding of a high-voltage transformer, an EMF is induced in the secondary winding, a spark discharge occurs in the spark gap 5 and between the electrode-tool 6 and the workpiece 7, which leads to hardening of the surface of the workpiece. The electrode tool 6 moves along the surface of the part 7. Hardening occurs due to spark discharges that occur during electric explosion microroughnesses of the electrodes. Electroexplosions of electrode irregularities occur under the influence of

high voltages (about 10 kV), each electrical explosion of microroughness ends with a spark discharge.

This device circuit provides the necessary electrical mode and supports it during the hardening process, and also allows to increase the productivity of the process of electric spark hardening and reduce processing time.

Claims (1)

A device for spark hardening, containing an electrode tool, a DC power source and a transformer, the secondary winding of which is connected to the electrode tool and the workpiece, is equipped with a thyristor and a pulse generator, the input of which is connected to a DC power source, and the output to a thyristor, which is connected in series with the primary winding of a transformer made of high voltage, characterized in that it is additionally equipped with an electric spark gap with adjustable the gap.