SU1394316A1 - Method of protecting a three-phase power supply line against emergency conditions - Google Patents

Abstract

This invention relates to electrical engineering, in particular, to relay protection. The purpose of the invention is to increase the functional reliability by ensuring the same settings of operation H1 "with two-phase short-circuit voltage. In the event of an emergency, the duration of the open state of the transistor increases. The current through the winding 13 of the double-winding relay decreases, and through the winding 15 increases. The double-winding relay operates, acts on the circuit breaker and turns off the damaged network. 1 il. but @

Description

The invention relates to protection of a three-phase network from emergency operation and can be used to increase the level of reliability and safety of 3Kcns yaTau, w three-phase electric networks of mainly mining companies.

The purpose of the invention is to increase the functional reliability by providing the same operation settings for two-phase short circuits,

The drawing shows a schematic diagram of a device implementing the method.

The device contains current transformers 1-3, installed respectively in each phase of the network. A three-phase rectifying bridge 4 is connected to current transformers. A series-connected circuit is connected to the constant side of the circuit. It consists of a capacitor 5, a diode 6, a resistor 7 and a resistor 8. A diode 6 is connected to the input of a transistor amplifier 9, the emitter-base transition of which through the resistor 10 is connected parallel to the capacitor 5. A resistor 11 is connected to the collector of transistor 9, one winding 13 of the two-winding relay is connected through capacitor 12, winding 15 of which is connected by diode 14 of the other oedinena to capacitors jpy 5. In parallel diode 6 and the resistor 7 is connected ipy zener diode 17 which, in the form oypolnen chetyrehklemmno- .go semiconductor device.

The device works as follows

In normal operation, the difference between the current 1, proportional to the amplitude value of the rectified phase currents, and the current IjT I, is proportional to the instantaneous value of the rectified stabilized phase currents through the input of the transistor amplifier 9. When the magnitude of the current I exceeds the instantaneous value of the current IJT, the transistor 9 opens, and when IK ISTI P the resistor 9 closes. In this case, when the transistor 9 opens, the capacitor 12 charges. When the transistor 9 closes, the capacitor 12 is discharged through the winding 13 of the two-winding relay and the resistor 11. Therefore, during normal operation, a current flows through the winding 13 due to periodic pulses discharge of capacitor 12. At the same time, a current from capacitor 5 flows through the other winding 15 of the double-winding relay.

Since the windings are connected according to the compensation scheme, the resulting magnetic flux in the magnetic circuit of both relays is zero, the relay is not pulled. An output contact acting on a circuit breaker that disconnects the emergency network is in the normal open position.

In the event of an emergency as a result of a short circuit or a missing phase of the network, the open state of the transistor increases, the current through the winding 13 decreases, and through the winding 15 increases. As a result, a double-winding relay operates, acting on the circuit breaker, which turns off the damaged network. The pick-up setting is controlled by a resistor 10, which sets the corresponding base current of the transistor 9.

The device provides self-monitoring of the health of the elements of the electrical circuit, as it disconnects the network when they are damaged. Indeed, when the elements are intact, the device transistor 9 should periodically open and close, c, and the capacitors 12 and 5 charge and discharge. The integrity of the electrical circuits of the device must be ensured. Otherwise, the difference signal of a rectangular shape is missing. As a result, the double-winding relay operates. Moreover, the actuation occurs from the magnetizing force of both the winding 15 and the winding 13.

At the same time, the pick-up setting does not depend on the type of two-phase short circuit, since the amplitude and instantaneous values are compared in all three phases of the network.

Thus, the proposed method of protection against emergency modes provides protection against incomplete-phase modes of operation, protection against short-circuit currents, and self-monitoring the health of the elements of the electrical circuit of the protection devices that implement it. At the same time, the operation settings are independent of the type of two-phase short circuit, which allows to increase the operational reliability of protection and safety of operation of electrical networks.

 the invention

The way to protect a three-phase network from emergency modes, based on the formation of the difference between the monitored and the reference signal in the form of two difference signals proportional to the amplitude and instantaneous values of the phase currents, when exceeding any of which threshold values form the output signal acting on the actuator , characterized in that, in order to increase functional reliability; by providing

the same setpoints for two-phase short circuits, the reference signal is proportional to the instantaneous values of the stabilized rectified current

three networks, and the controlled one is proportional to the amplitude values of the same phases in the range of amplitude variation of the reference signal.

Claims (1)

Claim A method of protecting a three-phase network from emergency conditions, based on the formation of the difference between the monitored and the reference signal in the form of two difference signals, the proportions of any of which threshold values form an output signal ⁵ acting on the actuator, characterized in that, in order to increase functional reliability ; by providing ₁₀ identical operation settings for two-phase short circuits, the reference signal is formed proportional to the instantaneous values of the stabilized rectified current 15 of the three 'network phases, and controlled by the proportional amplitude values of the same phases in the range of the amplitude of the reference signal.