SU1252923A1 - Pulse generator for electric spark processing of materials - Google Patents

Abstract

The invention relates to a pulse technique, in particular to a pulse generator, and can be used as a power source of an eroder machine. The aim of the invention is to expand 4-. application of the pulse generator for electric spark machining of materials. To achieve the goal, a second control unit 12 with two anti-phase outputs, an additional thyristor 13 and a third bit 14, are introduced into the pulse generator. In addition, the pulse generator contains a source of direct current 1, charge thyristors 2 and 6, storage capacitors 3 and 9, diodes 4 and 10, arresters 5 and 8, the thyristor 7, the first control unit 11 with two anti-phase outputs. In addition, the value of the capacity of the storage capacitor 3 is much larger than the value of the capacity of the storage capacitor 9. I Il. 8 b9 cl bd f e so

Description

The invention relates to a pulse technique, in particular to a pulse generator, and can be used as a power source for an electroerosive machine.

The purpose of the invention is to expand the field of application of the pulse generator for the electric-spark machining of materials.

The drawing shows the functional electrical circuit of the proposed generator.

The pulse generator for electric spark processing of materials contains a source of direct current 1, parallel to which a first series circuit containing the first storage capacitor 3, a diode 4, and a discharge switch 5, parallel to which through a second thyristor 6 a second series circuit is included, containing a thyristor 7 and a second bit 8, a second storage capacitor 9, the first terminal of which is connected to the junction point of the second charge thyristor 6 with bit type by the resistor 7, and the second output is to the negative pole of the direct current source 1, the second diode Yu, whose cathode is connected to the anode of the first diode 4, and the anode to the connection point of the first electrodes of the first 5 and second 8 arresters with two antiphase outputs, the first of which is connected to the control electrode of the first charge thyristor 2, the second control unit 12 with two antiphase outputs, the first of which is connected to the control electrode of the second charge thyristor 6 and the second with control electrode a series of thyristors 7 connected in parallel to the first serial circuit, an additional thyristor 13 and a third bit 14 connected in series, the connection point of the first output of the first storage capacitor 3 with the anodes of the second charge thyristor 6 and the additional thyristor 13 connected to the positive pole of the source 1 constant current, the first charge thyristor 2 is connected to the negative pole of the source of direct current 1 and the connection point of the first electrode of the third arrester 14 with the first electrode of the Vågå arrester 5, the second output of the first control unit P is connected to the control electrode of the additional thyristor 13,

the first 2 and second 6 charge thyristors, the discharge thyristor 7 and the first daod 4 are connected according to the source 1 of the direct current, and the capacitance value of the first storage capacitor 3 is much larger than the capacitance of the second storage capacitor 9.

A pulse generator for electric spark machining of materials operates as follows.

In the initial state, the storage capacitors 3 and 9 are discharged. The inclusion of blocks P and 12 control is carried out periodically

charge and discharge thyristors. The frequency of the output pulses of the block II is much lower than the frequency of the output pulses of the block 12, in addition, the frequency of the output pulses of the blocks 11 and 12 is chosen so that the storage capacitors 3 and 9 have time to charge from the source 1 to the specified voltage level. Impulses from the first

the outputs of blocks P and 12 open, respectively, charge thyristors 2 and 6, as a result of which accumulative capacitors 3 and 9 are charged, Since the following frequency

output pulses of block I2 are higher than the frequency of the output pulses of block 11, and the capacitance value of capacitor 9 is much less than the capacitance value of capacitor 3, then in one

capacitor 3 charging cycle occurs several charge-discharge cycles in the capacitor 9 circuit. In this case, capacitor 3 is charged through the discharge circuit 5, and discharge through the discharge capacitor 14 and the diode Y. upon discharge of the capacitor 3, the thyristor 2 closed and no current flows through surge 8. Condensate 9 is charged in each charging cycle prior to the voltage of source 1, resulting in the discharge pulse energy, which is distributed in the discharge gap of discharge 8, is the same for all discharge cycles. The use of the proposed generator allows simultaneous electrical discharge machining of materials in three different modes, or in two different modes and in addition.

to produce electrospark doping.

Claims (1)

Invention Formula A pulse generator for electric spark processing of materials contains a dp1 dc source, in parallel with which a first series circuit is connected through the first thyristor, containing the first accumulator capacitor, a diode and a discharge device in parallel with the second thyristor A second series circuit is connected, containing a discharge thyristor and a second discharge, a second storage capacitor, the first terminal of which is connected to the connection point of the second charge thyristor with a discharge thyristor and the second output is to the negative pole of the DC source, the second diode, the cathode of which is connected to the anode of the first diode, and the anode to the point of connection of the first electrodes of the first and second arresters, the first control unit with two opposite 0I outputs, the first of which is with the control electrode of the first charge thyristor, with the first and second charge thyristors, the discharge thyristor and the first diode Editor A. Kozoriz Order 4630/56 Compiled by V.Tkachev Tehred M.Hodanich Corrector- Circulation 816 Subscription VNMIPI of the State CGCP Committee for Inventions and Discoveries - 113035, Moscow, F-33, 4/5 Raushsk nab. Production and printing company, Uzhgorod, st. Project, 4 - e - ten t5 2529234 included in accordance with the DC source, and the value of the capacity of the first storage capacitor is much larger than the value of the capacity of the second storage capacitor, and, in order to accommodate the field of application, a second control unit with two antiphase outputs is inserted into it, the first of which connected to the control electrode of the second charge thyristor, and the second to the control electrode of the discharge thyristor, and an additional thyristor connected in parallel with the first serial circuit and a third time a series connected in series, with the connection point of the first output of the first storage capacitor with the anodes of the second charge thyristor and additional thyristor connected to the positive pole of the DC source, the first charging thyristor connected to the negative pole of the DC source and the connection point the first electrode of the third discharge with the first electrode of the first discharge; and the second output of the first control unit is connected to the control electrode of the additional thyristor. 20 25 thirty Projector - M. Samborska