SU1418117A1 - Arrangement for overvoltage protection of tractors substation converter - Google Patents

Abstract

The invention relates to overvoltage protection devices for power equipment of converters, traction substations of direct current electric railways. The purpose of the invention is to increase reliability. This is achieved by using an additional charging device and a voltage relay, connecting the opposite poles of a converter and a charging device, connecting its second free pole to a charging resistor, connecting it to a common free output point of this resistor and a single resistor and a current limiting resistor, a capacitor and a diode, which has a reverse polarity with respect to the voltage of the charging device, the connection m voltage relay parallel to the discharge resistor. The device protects the converter transformer from overvoltages, which is connected to the AC bus through an isolator and oil switch, and. semiconductor converter 1 or L i i C /)

Description

The invention relates to electric railways, is intended to protect against overvoltages of semiconductor rectifier converters, and can be used at traction substations of electric DC railways.

The purpose of the invention is to increase the reliability of the device for protection against overvoltage of a converter substation.

The drawing shows a schematic diagram of the proposed device.

Parallel to converter 1t of a govt substation, a surge voltage 2 is connected with a current limiting resistor 3 and a capacitor 4; a shunt diode 5 is connected in parallel with a capacitor; A charging device consisting of a step down 6 and a rising 7 transformer and a switching diode 8 is connected to the capacitor 4

The charging device is connected to the capacitor 4 through the charging resistor 9. Parallel to the capacitor 4 is connected the discharge resistor 10, in parallel to which a voltage relay 12 and a storage capacitor 13 are connected through its middle output and through a separation diode 11,

The charging device through the disconnector 14 of the oil switch is connected to the busbars 15, which supply the converter. Tires 15 are connected to converter transformer 16 through disconnector 14 and switch 17о

The rectified voltage from converter 1 is supplied to busbars 18 and rectified voltage through high-speed circuit breaker 19 and disconnector 20 ,.

The device works as follows.

When the disconnector 14c of busbars 15 is turned on, a high voltage is applied to the step-down transformer 6 of the protection device. Transformer 6 lowers the voltage. Undervoltage goes to the upstream transformer 7 and rises again. Increased voltage of the secondary winding of the transformer 7 is rectified by diode 8. The rectified voltage thus charged through the charging resistor 9, the capacitor 4, the voltage of the capacitor 4 has -

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polarity shown in the diagram Simultaneously with capacitor 4, discharge discharge resistor 10 and diode 11 are charged through ei o by capacitor 13 with polarity shown in the drawing. In this case, the relay 12 is triggered. As a result, the position of the contacts of the relay 12 changes. the tension is removed by the zagfet to turn on the oil switch 17 and the high-speed switch 19,

After switching on the switches 17 and 19 and putting the converter into operation, a voltage equal to the sum of the input voltage between the poles of the converter 1 and the voltage of the capacitor 4 is applied to the spark gap of the polarizer 2. In normal operating modes of the converter, the spark gap of the voltage 2 is applied to the spark gap of the polarizer 2 The voltage is less than {1 and its operation. The charger constantly ensures the charging state of the capacitors 4 and 13 and the on position of the relay 12, the secondary winding of the transformer 7 and At one time, a current flows through it, which is limited by the resistance of the resistors 9 and 10 and has a small value. If for some reason, for example, when contact is lost in the charging circuit, the charge of capacitor 4 stops, in this case it is discharged through resistor 10 to zero, the capacitor 13 is also discharged through the winding of relay 12, contacts creates a circuit for disconnecting the switches 17 and 19, which remove the voltage in the power circuit of the converter and the output

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When appearing in power chains

an overvoltage converter of such a magnitude that the sum of it and the voltage of the capacitor 4 exceeds the trigger voltage of the arrester 2, its spark gap breaks out and creates a circuit between the poles of the rectified voltage of the transducer 1. At the first moment after the spark gap of the arrester 2, the current flows in the circuit of the current-limiting resistor 3 and the capacitor 4, which at the same time is discharged to zero. After the end of the discharge of the capacitor 4, the current flowing in the circuit of the arrester 2 passes from the capacitor 4 to the diode 5 and then flows through this

The diode remains until the discharge voltage absorbs the tracking current. The overvoltage energy is expended on the KoniteHcaTopa 4 overflow (only at the first moment after the spark gap breakdown of the discharge gap 2) and dissipated in the resistor 3, released as heat. As a result, overvoltage is limited.

After extinguishing by the discharge current 2, the charging device charges the capacitors 4 and, 13 to a voltage corresponding to the initial state of protection. If during the flow of current in the circuit of the arrester 2, the capacitor 13 does not have time to discharge to the voltage at which the relay 12 is activated, after the overvoltage has been removed, the converter continues to operate. When the quenching process of the accompanying current discharge is delayed and, accordingly, the current flow time in the discharge circuit is increased, the capacitor 13 is discharged to the voltage at which the relay 12 is activated. As a result, the switches 17 and 19 are turned off and the converter stops working. Disconnecting the converter from the voltage relay during the continuous flow of the accompanying overvoltage of the current in the arrester circuit helps to prevent its damage if the accompanying current is continuously disconnected, which can have serious consequences. After disconnecting switches 17 and 19

The automation system of the traction substation includes again this or backup converter.

Claims (1)

Invention Formula An overvoltage protection device for a converter substation containing a gaiter with a current-limiting resistor, a capacitor, a charging and discharging HFR resistors, a diode, characterized in that it is equipped with a voltage relay and a charging unit, one the pole of which is connected to the opposite pole of the converter, the other pole is connected to one of the terminals of the charging resistor connected by the other terminal one of the capacitor plates, one of the outputs of the discharge resistor and the connection point of the current-limiting resistor with a diode, a shunt capacitor, the other of the capacitor plates connected to the second one of the discharge resistors, the other output of which separation diode is connected to the average output of 35 Rdnogo resistor. Nf AND JI P . /; .south f-rii r r 79  20