SU835688A1 - Pulse generator for electric abrasive working - Google Patents

Description

one

The invention relates to electrophysical processing methods and, in particular, relates to a pulse generator for electro abrasive metal processing.

A pulse generator is known in which one of the poles of a direct current source is connected to a part, and the other is connected through a series-connected thyristor and a capacitor with a processing tool, and discharge thyristor 1 is connected in parallel with the capacitor.

The disadvantage of this generator is the relatively low frequency of discharge pulses, low efficiency, since the discharge current of the capacitor is not used to generate a pulse in the MEP, and, as a result, low productivity and processing quality.

The aim of the invention is to increase the productivity and quality of processing.

The goal is achieved by the fact that in a pulse generator containing a DC source, the negative pole of which is connected to the part, and a positive one through a circuit of series-connected power thyristor and a capacitor, in parallel with which the discharge thyristor is connected to the instrument, parallel to the mentioned circuit are connected additionally, one or more identical circuits, the cathode of the power thyristor of each previous circuit is connected through a series-connected delay unit and a zener diode with an electronic control A subsequent thyristor power electrode, the discharge thyristor control electrode of each previous circuit is connected to the power thyristor cathode of the subsequent circuit, the cathodes of the discharge thyristors of all circuits are connected to one end of the primary winding of the pulse transformer, the second end of which is connected to the instrument, and the secondary winding of the transformer is connected one end through the diode with the instrument, and the other with the detail.

A schematic diagram of the proposed generator is shown in the drawing. It consists of a constant food source.

current 1, the negative pole of which is connected to part 2, and the positive through several, in particular three, identical parallel circuits - to tool 3. Each circuit consists of series-connected power thyristor 4 (5, 6) and capacitor 7 (8, 9) parallel to which the thyristor 10 is connected (I, 12). Thyristor cathodes 4, 5, 6 are each connected via blocks respectively.

delays 13, 14, 15 and successively connected with them zener diodes 16, 17, 18 with control electrodes of thyristors 5, 6, 4.

The control electrodes of the thyristors 10, 11, 12 are each connected respectively to the cathodes of the thyristors 5, 6, 4.

The thyristor cathodes 10, I, 12 are connected to one end of the primary winding of a pulse transformer 19, the second end of which is connected to part 2. The secondary winding of transformer 19 is connected to one end through diode 20 to tool 3, and the other to part 2.

The generator works as follows.

A triggering pulse is applied to the control electrode of the thyristor 4. The thyristor 4 opens and the following switches are: “- f source 1, thyristor 4, capacitor 7, tool 3, MEP, part 2,“ - source 1 passes a charge pulse of capacitor 7. This the same pulse (but a measure of the charge of the capacitor 7) is removed from the cathode of the thyristor 4 and through the zener diode 16 and the delay unit 13 is applied to the control electrode of the thyristor 5. At this point, the capacitor 7 is fully charged before the voltage of the source 1 and the thyristor 4 is closed. The thyristor 5 is opened through the circuit: “-f- source 1, thyristor 5, capacitor 8, tool 3, MEP, part 2,“ - source 1 passes a charge current of a capacitor 8. This same impulse (as the capacitor 8 charges ) is removed from the cathode of the thyristor 5 and supplied through the Zener diode 17 and the delay unit 14 to the control electrode of the thyristor 6, as well as to the control electrode of the discharge thyristor 10. The thyristor 10 opens and discharges through itself and through the primary winding of the transformer 19 a capacitor 7, thus preparing the circuit: thyristor 4 - capacitor 7 for further work. The pulse of the discharge current of the capacitor 7, removed from the secondary winding of the transformer 19, passes through the MEP, etc. through the ring. The frequency of the pulses at the output of the generator depends on the time delay of the blocks 13, 14, 15 and on the number of parallel circuits (thyristor-capacitor) used than the number

these chains are higher, the higher the frequency can be obtained. Zener diodes 16, 17, 18 are needed to increase the reliability of the generator, they significantly reduce the likelihood of simultaneous

unlock thyristors 4, 5, 6.

Thus, the proposed generator allows to increase the productivity and quality of processing.

Claims (1)

1. USSR author's certificate No. 462688, cl. B 23 P 1/02, 1972.