SU1427468A1 - Insulated-neutral transformer power supply system with overvoltage protection unit - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to relay protection. The purpose of the invention is to increase the reliability of operation of a transformer. The device contains an overvoltage protection unit 3, consisting of capacitors 4 connected to the windings 2 of the highest transformer voltage, connected to the star via the switching device 5. When the transformer is disconnected, the switching device 6j is switched off to the capacitor 4, then after a predetermined time, the switching device 5 is disconnected, de-energizing the high voltage winding 2. In the on state of the transformer on the capacitors 4, the voltage is absent. Disconnection occurs only in the commutation, which includes the failure of capacitors and an overvoltage protection unit. 1 il. .WITH

Description

The invention relates to electrical engineering and can be used to reduce overvoltages in the windings of transformers with insulated neutral, for example, in mine explosion-proof mobile transformers and substations.

The circuit of the invention is to increase the reliability of the transformer.

The drawing shows a schematic diagram of a transformer supply with an insulated neutral with an overvoltage protection unit,

The proposed power supply system contains the first switching device 1, the HanppjMeR disconnector, by means of which the beginning of the transformer high voltage windings are connected to the supply mains phases. Overvoltage protection unit 3 consists of capacitors 4 connected to the ends of the high voltage transformers 2 mator and connected in a star using the second 5 switching apparatus (switch). Through the contacts of the third 6 switching device (switch) ;, the ends of the windings 2 of the highest voltage of the transformer are connected in a star.

The device operates as follows.

In the disconnected state of the transformer, the contacts of all switching devices 1.5 and 6 are open.

When the transformer is turned on, the contacts of the first switching device are first closed (disconnected) 1. Then the second switching device (switch) 5 is turned on, connecting the capacitors 4 to the ends of the high-current winding 2 of the highest voltage and preparing the transformer to turn on. By

after a predetermined time has elapsed, the third switching device (switch) 6 is connected to the star the ends of the windings 2 of higher voltage and shunt capacitors-4.

When the transformer is disconnected, the third switching device 6 is first disconnected, the capacitors 4 are desmounted, and then after a predetermined

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time - the second switching device 5, de-energizing the winding 2 of the highest voltage. The disconnection of the windings 2. of the transformer about the g phases of the mains supply is carried out to the bmutory apparatus 1.

The reduction in the overvoltages on the transformer windings when capacitors are connected to them during the switching on and off of the transformer is achieved by reducing the wavefront steepness when converting the magnetic energy of the windings into electrical energy of the capacitors.

The duration of the transient process in the windings 2 when the transformer is turned off (turned on) can be regulated by changing the difference in switching off (switching on) times of the switching devices 5 and 6.

The absence of voltage on the capacitors 4 during the period of the transformer being in the on state and the appearance of voltage on them only during the switching period makes it possible to virtually eliminate the output of capacitors and overvoltage protection unit, which improves the reliability of the transformer.

Claims (1)

Invention Formula Transformer power supply system an isolated neutral with an overvoltage protection unit, containing the first switching device, through the contacts, of which the beginning of the windings of the highest voltage. The transformer is connected to the supply mains phases. The overvoltage protection unit consists of star-connected capacitors, which are connected via terminals of the second switching device to the terminals of the high-voltage winding, T T h and h that, with the aim of improving the reliability of the transformer, the overvoltage protection unit is connected to the ends of the transformer's highest voltage windings, which are connected to the star through the contacts of the newly introduced third switching device.