SU1173507A1 - Inverter having protection - Google Patents

Abstract

A PROTECTIVE INVERTER containing a charging reactor connected in series between positive and negative leads, a DC diagonal of a bridge of four commuting thyristors, a discharge reactor, an erosion gap shunted by an inductance throttle, and two storage capacitors, the first leads connected to the diagonal of the alternating current of the specified bridge, about tl and h.a yusch and so that, in order to increase reliability, a protection block, made in the form of two diodes, is inserted into it, the current transformer with two primary windings, a trigger, a matching transformer and the protection actuator, with diodes connected in parallel between the combined second terminals of the storage capacitors and the negative terminal of the inverter, the first primary winding of the current transformer is connected in series with the diode whose cathode is connected to the negative pole of the erosion (I am the gap, the second is between the said pole and the negative terminal from the power supply of the inverter, the secondary winding through the matching tr The actuator is connected to the trigger input, the output of which is connected to the input of the protection actuator connected in series to the inverter power supply circuit. SP

Description

The invention relates to electrical engineering and can be used in inverters designed to power EDM installations

Del of the invention is improving reliability.

The drawing shows the circuit inΒ6ρΊ <3ΐρ3, ο protection *

The inverter contains a charging reactor 1, switching thyristors 2 through 5, connected respectively to the charging and discharging circuits, a current transformer 6, which is a protection sensor, capacitors 7-9, the first diode 10, the anode of which is connected to the common point of the negative commutation lining capacitors 7 and 8, and the cathode is connected to one of the primary terminals of the current transformer 6, the second diode 11 ,. the cathode of which is connected to the anode of the diode 10, and the anode to the second primary terminal of the current transformer 6, a discharge reactor 12, an inductor 13 connected in parallel with the load, an erosion gap 14, matching transformer 15 to reduce the input signal, trigger 16 and

Claims (1)

PROTECTED INVERTER, comprising a charging reactor connected in series between the positive and negative power leads, a bridge diagonal of four switching thyristors, a discharge reactor, an erosion gap shunted by an inductor, and two storage capacitors connected to the alternating current diagonal of the bridge with the first leads , characterized in that, in order to increase reliability, a protection unit is implemented in it, made in the form of two diodes, a current transformer with two first windings of a trigger, a matching transformer and an executive protection element, the diodes being connected counter-parallel between the combined second terminals of the storage capacitors and the negative power terminal of the inverter, the first primary winding of the current transformer is connected in series with the diode, the cathode of which is connected to the negative pole of the erosion gap, the second - between the aforementioned pole and the negative terminal of the inverter power supply, the secondary winding is connected to the input via a matching transformer do trigger, the output of which is connected to the input of the Executive body of protection, connected in series in the power circuit of the inverter. SU .. „1173507 1173507 '2 aristor-capacitive switch 1T of the executive body of protection. The device operates as follows. The capacitor 7 (8) is charged when the thyristor 2 (3) is turned on and discharged through the thyristor 4 (5) to the load. When the capacitor 7 (8) is charged, the current passes through the diode 10 and through both primary windings of the current transformer 6. In this case, the EMF does not occur in the secondary winding of the current transformer b. The discharge current, bypassing the current transformer 6, passes only through the diode 11. Thus, during normal operation of the inverter, the signal does not appear in the sensor. In case of inversion failure, all current passes through thyristors 2 (3) and 4 (5), i.e. only through one primary winding of the transformer 6. When. In this case, a signal appears in the intermediate transformer 15 from the sensor 6, due to which a trigger 16 is triggered, which delivers a trigger pulse to the thyristor-capacitive switch 17 of the actuator.