SU685470A1 - Pulse generator for electro-erosion working - Google Patents

Description

one third is the total number of gates in the generator, thereby increasing the efficiency of the pulse generator as a whole from

The drawing shows the principal electrical circuit of the generator.

The generator contains source 1

variable voltage, .inductive current-limiting resistance 2 in the form of a linear throttle, ICC current-limiting whose 3 and expander. 4, the load is an accumulative capacitor 5. A rectifier 4, made on valves 6–9, is assembled on a two-half-bridge bridge circuit for rectifying a single-phase supply, where its input point 10 is connected to the output terminal 11 of source 1 through a line choke 2 ,, and points 12 and 13 are directly .. Cell 3, connected in parallel to the output of rectifier 4, is a capacitive current-limiting resistance and is made in the form of two capacitors 14 connected in series, the common point of which is connected to terminal 11 of source 1, from which swarm connected linear ui) osse.l 2.

Valves with a linear choke 2 form onef capacitors 14 — another parallel channels for charging accumulative capacitor 5, PRIETOM, in the case of capacitive reactance 14 and throttle 2, the current in one channel is purely capacitive At the same time, Bpei / iH as source 1 is loaded only with active current, i.e., it works with the maximum possible power factor of the source. The charge current of the storage capacitor rectifies only four valves, working in both channels. In addition, the channel with capacitors 14 not only limits the amount of current flowing through it, but also doubles the charge voltage of the storage capacitor 5, i.e. at the same time doubler voltage.

The pulse generator works in the following way.

In each half-period of the voltage variation of the source 1, the charge current of the storage capacitor 5 is connected. Toit of two components, flowing through inductive and capacitive current limiting resistance, respectively. For example, in one half-period of voltage source 1, it is component. the channel charge current with inductive current-limiting co-current flows through the circuit: 11 line choke 2, top 7, storage condenser 5, valve 9j terminal 13, and component of the charging current doubler voltage flows through the circuit: terminal 11, capacitor 14 ( the upper one according to the scheme), storage capacitor 5, valve 9, klelada 13. In the other half-period of changing the voltage of the source 1, the direction of the current of the source is reversed, valves 6f 8 are opened, and the component of the channel charge current with inductive current limiting; The circuit flows through the circuit: terminal 13, valve b, storage capacitor 5, valve 8, linear choke 2, terminal 11, and the component of the charge current doubled voltage - circuit: terminal 13, valve 6, storage capacitor 5, capacitor 14 (bottom according to the diagram), terminal 11. Then the processes in the diagram will be periodically repeated.

When charging the storage capacitor 5 of the generator and -4 pulses through a two-kg current limiter with a reactivity si of a different sign (inductance and capacitance), but of the same size, the forward current of one channel is compensated by lagging current d:; one device.

The proposed electrical circuit of the pulse generator provides the possibility of charging the storage capacitor to a voltage equal to twice the value of the alternating voltage of the alternating current source and allows

store maximum value

The electric energy in a capacitor is four times the maximum possible value of the energy stored in the capacitor in a known generator. Besides

This, the proposed pulse generator, is characterized by lower losses in the valves, i.e., it has a higher efficiency than the prototype. Thus, the proposed circuit design provides a significant improvement in the specific energy indicators of the pulse generator for EDM processing in general.

Claims (1)

1. USSR author's certificate number 383559, cl. B 23 P 1/02, 1970. And “And : -ifl -013 five / g El s /four II