SU395207A1 - POWER SUPPLY FOR ELECTRICAL SPREADING OF METAL SURFACES - Google Patents

Description

one

The invention relates to power sources for electric-spark alloying.

Power sources are known for electric-spark doping, the charging circuit of which is made in the form of a series-connected secondary winding of a power transformer, a thyristor and a capacitor, which is loaded with a load.

However, in such power sources, the synchronization of the thyristor and the supply network is disturbed.

The aim of the invention is to improve the synchronization of the thyristor with the phase of the network.

This is achieved by the fact that the control electrode of the thyristor is connected to the base resistance and the collector of the transistor, between the emitter and the base of which the variable resistor is connected, with a slider connected to the thyristor anode.

The drawing is a schematic diagram of a power source.

The positive electrode / is connected to the positive plate of the capacitor 2 and the cathode of the thyristor 3. A thyristor 3 is connected in series to the charging circuit of the capacitor 2. The control electrode of the thyristor 3 is connected to the base resistance 4 and the collector of the transistor 5. The variable resistor 6 is connected between the anode of the thyristor 3, base and emitter

transistor 5, and the anode of the thyristor 3 is connected to the slider of the variable resistor 6. The armature of the electromagnet of the vibrator 7 is mechanically connected to the positive electrode 1 (see the diagram for dashed lines).

During the treatment of the surface of the power supply voltage of the industrial frequency during the half cycle, the control electrode of the thyristor 3 is fed to the control electrode. Thyristor 3 opens, capacitor 2 is charged. The discharge circuit of the capacitor 2 is switched by means of an electromechanical vibrator 7. A working pulse is emitted in the interelectrode gap. The frequency of the working impulses is equal to twice the frequency of the power supplying the pair device. Control pulses are formed by a key element comprising a transistor 5 with a base resistance 4 and a variable resistor 6.

The process of forming the control pulse occurs as follows.

In the positive half-period, the potential difference across the electrodes of the thyristor 3 increases sinusoidally. The collector voltage increases and the base and collector currents of transistor 5 increase. When the base and collector currents reach a certain ratio, transistor 5 abruptly switches. On manager

the thyristor electrode 3 is pulsed with a steep leading edge. The width of the control pulse is determined by the turn-on time of the thyristor 3 and provides the case of switching on this thyristor.

A smooth change in the processing modes is achieved by shifting the phase of the opening moments of the thyristor 3 relative to the anode voltage. The offset of the control pulses in phase is made by changing the ratio of the impedances of the variable resistor 6, the actual change in the ratio of the base and collector currents of the transistor 5, which determines the transition time of transistor 5 from the cut-off mode to saturation, i.e. the switching time of transistor 5.

Subject invention

A power source for electric-spark doping of metal surfaces, the charging circuit of which is made in the form of serially connected secondary windings of a power transformer, thyristor and capacitor, in parallel with which a load is connected, characterized in that, in order to improve the synchronization of the thyristor with the phase state of the network, the control the thyristor electrode is connected to the base resistance and the collector of the transistor, between the emitter and the base of which a variable resistor is connected, with a slider connected the anode of the thyristor.