SU1173527A1 - Generator of current unipolar pulses - Google Patents

Abstract

1. GENERATOR OF UNIPOLAR CURRENT PULSES, containing a power source, the positive pole of which is connected to the first output of the Drossel, the first thyristor bridge with a serial LC circuit in the diagonal and counter diodes, the load in the form of a gaiter, and the junction point of the thyristors and counter diodes of the cathode group of the first bridge is connected with a negative pole of the power source characterized in that, in order to increase the reliability of operation and reduce the installed capacity of the capacitor equipment, a second thyristor is introduced the first bridge, the first bridge is identical and in parallel with it, the point of connection of the anodes of the thyristors of the anode group of first and second bridges with seedinena arrester cathode, the anode of which is connected to the second terminal of the inductor and the connecting point of the cathodes of diodes anodic counter groups of the first and second bridges. 2. The generator according to claim 1, characterized in that, in order to improve the shape of the output pulses, it further comprises a thyristor, a diode and a capacitor, the cathode I of the diode connected to the first output of the throttle, the anode of the diode connected to the cathode of the thyristor (L and the capacitor is connected to the second output of the throttle, and the thyristor anode is connected to the cathode of the discharge.

Description

The invention relates to a pulse technique and can be used for the electrical erosion treatment of metals.

The purpose of the invention is to increase the reliability of operation by reducing emergency currents through the interelectrode gap and thyristors in case of inversion failure, reducing the installed capacity of the capacitor circumference, do not use the power separation capacitor large: capacitance, as well as improving the shape of the output pulses in the as a result of an increase in the steepness of the rise of the ignition part. —and ensuring a constant amplitude.

FIG. 1 shows the basic electrical circuit of the generator; in fig. 2 a, b are time diagrams of output current pulses.

The generator contains in parallel the first and second bridges 1 and 2, each of which is formed by thyristors 3-6, counter diodes 7-10 and a series circuit of a capacitor 11 and an inductance 12 included in the diagonal.

The load interelectrode gap (load) 13 is connected by a cathode to the anodes of thyristors 3 and 6 of the anode groups of bridges 1 and 2, and the anode to the second output of droplets 14, the first output of which is connected to the positive pole of the power source 15, the negative pole of which is connected to a point thyristor connections 4 and 5 and diodes 8 and 9 of the cathode groups of bridges 1 and 2. Capacitor 16, diode 17 and thyristor 18 are additionally introduced to improve the shape of the output pulses (Fig. 2b).

The initial state before the generator start-up is indicated in FIG. 1, the polarity of the voltage on the capacitors 11 can be provided, for example, by turning on the thyristors 4 and 6 once. Bridge 2.

The time of ti (Fig. 2a) includes the thyristors 3 and 5 of bridge 1. As a result, the oscillating current flows through the circuit: charged capacitor 11, inductance 12, diode 10 of bridge 2, load 13, thyristors 3 and 5, capacitor 11, inductor 12 of bridge 1 and diode 8 of bridge 2. After disconnecting the diodes 8 and 10 of bridge 1 and diode 8 of bridge 2. After turning off the diodes 8 and 10 of bridge 2, the current 15 and source 14 and throttle 14 flow through the load 13, charging the bridge capacitor 11 1 to a voltage whose polarity is opposite to that indicated in FIG. one.

Then, at the time tz (Fig. 2), the thyristors 3 and 5 of bridge 2 are turned on and the oscillating current is switched through the load 13 again by means of diodes 7 and 9 of bridge 1.

In the case when the next pair of thyristors is not turned on, the load current drops to zero, and the duration of the drop (Fig. 2a) will be determined by the parameters of the throttle 14 and the capacitor 11.

To eliminate the dependence of the pulse duration on the parameters of the droplets 14 and the capacitors 11 and the exclusion of the charge of the capacitors 11 to a higher voltage than in the steady state, a chain of the capacitor 16 and the diode 17 is connected parallel to the choke 14. As a result

upon completion of the formation of the next pulse, the energy stored in the choke 14 charges the capacitor 16. This eliminates the charge of the capacitors 11 to a high voltage and increases the steepness of the falling edge of the pulse.

 (Fig. 26). The energy of capacitor 16 is used to form the igniting part of the next pulse (fg. 26) with the help of an additional thyristor 18, which is turned on only once at the beginning of the formation of the next pulse simultaneously with unlocking the corresponding thyristors of bridge 1 or 2. As a result, at the beginning of the formation of the pulse the capacitor 16 is discharged to the load 13 through the thyristor 18, forming the ignition, the second part of the pulse with a high growth slope.

Claims (2)

1. GENERATOR OF UNIPOLAR CURRENT PULSES, containing a power source, the positive pole of which is connected to the first output of the inductor, the first thyristor bridge with a series LC circuit in the diagonal and counter diodes, a load in the form of an arrester, and the connection point of the thyristors and counter diodes of the cathode group of the first bridge is connected to the negative pole of the power source, characterized in that, in order to increase the reliability of operation and reduce the installed capacity of the capacitor equipment, a second thyristor circuit is introduced st, identical to the first bridge and connected in parallel with it, and the connection point of the thyristor anodes of the anode groups of the first and second bridges is connected to the cathode of the arrester, the anode of which is connected to the second output of the inductor and the connection point of the cathodes of the opposite diodes of the anode groups of the first and second bridges. 2. The generator by π. 1, characterized in that, in order to improve the shape of the output pulses, it additionally contains a thyristor, a diode and a capacitor, the diode cathode connected to the first output of the inductor, <g the diode anode connected to the thyristor cathode ~ and connected through the capacitor to the second L output of the inductor and the thyristor anode is connected to the cathode of the arrester. V FIG. 1