SU1022254A1 - Device for protecting measuring voltage transformer - Google Patents

Abstract

A DEVICE FOR PROTECTION OF THE MEASURING VOLTAGE TRANSFORMER, containing a resistor connected between the zero point of the transformer primary winding and ground, characterized in that, in order to increase the transformer life, it is equipped with an additional transformer with a secondary delta-closed secondary winding and a second resistor, and an inserted transformer is equipped with an additional transformer, with a secondary transformer closed in a triangle and a second resistor. the protected transformer, and the second resistor is connected between the zero point of the primary winding of the inserted transformer and ground. (Lgo ND K SL 4

Description

The invention relates to relay protection and can be used to protect voltage transformers from being monitored by monitoring isolation of intermittent arc ground faults in networks with low capacitive earth fault currents. In addition, it can be used to increase the reliability of 6-35 kV networks with isolated neutral. With single-phase closures on the ground through an electric arc in a network with an isolated neutral, a system neutral displacement occurs, and when the arc is extinguished, a constant voltage remains on the phases. The phase charge, caused by this constant component, flows through the windings of a voltage transformer, which leads to low-frequency-ferroresonant voltage oscillations, the saturation of the transformer's steel with a large current through the windings of the transformer. As a result of the flow of large currents, the t-ranformator voltage is overheated and damaged. A device for protection of voltage transformers is known, which contains active resistance included in an open triangle of a low voltage winding G1 |. A disadvantage of this device is that the above resistance due to the low power of the low voltage winding only creates a damping of nonlinear oscillations on the yarn in the zero sequence circuit, reducing the intensity of the ferroresonance process, but not preventing it from occurring. The protective device of a voltage transformer is also known, which contains a choke in the secondary winding with non-magnetic gaps in the f2 magnetic circuit. The disadvantage of it is that the inclusion of a linear inductance in the winding of a low voltage transformer changes the frequency of free oscillations of the network voltage and shifts the region of occurrence of ferroresonance towards large capacitive network parameters. As a result, the danger of ferroresonance arising from changes in the network configuration remains. These drawbacks are due to the fact that the inductance in the low voltage winding does not affect the attenuation of free oscillations of the mains voltage. The closest to the invention in technical essence and the achieved result is a device for protection of a voltage measuring transformer containing a resistor connected between the zero point of the primary winding of the transformer and the ground of the NW. A disadvantage of the known device is that the direct use of only a transformer connected between the zero point (neutral) of a voltage transformer and an active resistance ground is ineffective for the following reasons. To limit the current through the voltage transformer to a safe value, high resistance is required, but an increase in the nominal resistance entails: an increase in the voltage drop across the resistance and, accordingly, an increase in the potential on the neutral of the voltage transformer, which creates a danger to its isolation designed for operation in deaf grounding / constant time increase. The discharge of charges from the network phases during the extinction of the arc, which leads to dangerous overvoltages during the interleaved arcs. These drawbacks are due to the fact that in a network with an isolated neutral, the charge of the phases that occurs when the neutral of the system is shifted flows mainly through the winding of the voltage transformer and the active resistance in its neutral. In addition, the inclusion of high resistances in the neutral of a voltage transformer is unacceptable due to an increase in the angular error of the measuring voltage transformer. The purpose of the invention is to increase the service life of a measuring voltage transformer. The goal is achieved by the fact that the device for protection of the measuring voltage transformer is equipped with an additional transformer with a triangle-closed secondary winding and a second resistor, the input transformer is connected parallel to the protected transformer, and the second resistor is connected between the zero point of the primary winding of the inserted transformer and ground. The drawing shows a diagram of the device. Between the zero point of the primary winding of the protected transformer 1 and the ground resistor 2 is connected. Parallel to transformer 1, an auxiliary transformer 3 is connected with a compensation winding 4 closed in a triangle. Between the zero point of the primary winding of the transformer 3 ich ground resistor 5 is included. The device operates as follows. When the arc goes out in a phase that is closed to earth, there are charges on other phases due to the displacement of the network neutral at the moment. from mykan to the ground. When charges flow through a voltage transformer winding, the current is limited by resistance 2. However, resistance (2 cannot limit these currents to the required level, since resistance 2 is also selected taking into account the protection conditions of the neutral insulation against overvoltages, rapid discharge of charges , a small angular error of the voltage transformer. During the flow of limited, but still more tokre through the voltage transformer and resistance 2, the potential of the neutral of the transformer 1 insulation increases Also, it is designed for working in a deaf earthing mode (for example, modern voltage transformers - NTMI-b-66, NTMI-10-66 I have a test voltage of only 2 kV), the time of the glass charge increases. Auxiliary transformer 3 with zero point { neutral high voltage winding and resis 5 shunt the voltage transformer 1, creating a path for the charge to flow through the high voltage winding and a resistor 5. Kc and the sensation winding 4 of the transformer flowing the charges demagnetizes the trap 4O4 3 by zero point sequence, thereby reducing sakvlm inductive reactance of the transformer 3 for the low-frequency component yuschi current. For example, the auxiliary transformer of a substation equipped with an additional low-voltage compensation winding closed in a triangle and the derived zero point of a high voltage winding can be used as an auxiliary transformer. The magnitude of the resistor 5 is selected from the conditions of current limiting through the voltage transformer 1 and the resistance 2 in its neutral, as well as from the operating conditions of the devices monitoring the insulation state of the network with insulated neutral. Due to the large auxiliary transformer (substation auxiliary transformer), as compared with the voltage transformer capacity, and the presence of a compensation winding, the charge charge time through the transformer 3 and the resistor 5 is much smaller than when the charges run through the transformer 1 and resistance 2, which allows selection of a resistor 5 with a resistance value of a sufficiently large value. This is necessary to ensure reliable operation of the network from the isolated neutral. Additional protection of the auxiliary transformer windings from overheating and isolation of the neutral from overvoltages is not required, since the transformer windings are powerful enough (the power of the auxiliary transformers of the substation is at least 25 kVL) and its neutral is insulated designed to work with isolated neutral. The use of the invention in comparison with the known device allows one to significantly limit the currents of the voltage transformer to a safe value and also reduce the current through the active resistance in its neutral. Accordingly, the voltage at the neutral of the voltage transformer is reduced to a safe value. The use of the proposed device contributes to the rapid runoff of charges from the mains phases during arc extinction, which also reduces the currents through the voltage transformer and possible overvoltages during repeated ignitions of the arc. The invention makes it possible to reduce the power and dimensions of the resistance in the neutral of a voltage transformer, to provide the angular error of the transformer within its accuracy class, and to increase the life of the transformer.

Claims (1)

DEVICE FOR PROTECTING A MEASURING VOLTAGE TRANSFORMER, containing a resistor connected between the zero point of the primary winding of the transformer and ground, characterized in that, in order to increase the life of the transformer, it is equipped with an additional transformer with a secondary winding closed in a triangle and a second resistor, and the introduced transformer is included parallel to the protected transformer, and the second resistor is connected between the zero point of the primary winding of the introduced transformer and ground. 10222