RU188169U1 - DEVICE FOR DIAGNOSTIC OF INTERCONNECTIVE CIRCUITS IN WINDINGS OF THREE-PHASE TRANSFORMER - Google Patents

Abstract

The device is intended for diagnosing the state of insulation of transformers, in particular for diagnosing power transformers of 6-10 / 0.4 kV of any power for inter-turn faults in the windings. The device for diagnosing inter-turn faults in the windings of a three-phase transformer contains current transformers included in the phases of the primary winding of a three-phase transformer. The secondary windings of current transformers are connected in parallel and shunted by a resistor. In this case, the first common point of the secondary windings of current transformers is grounded, and the second common point is connected through a switch to a diode, a rheostat, and the first contact of the measuring device connected in series, the second contact of which is grounded. The simplicity of the design and low cost of the device compared to analogs allows it to be used as a standard component of a transformer substation. This simplifies the use of the device and the diagnostic process even further. The diagnostic device will detect the interturn circuit of a three-phase transformer at an early stage of occurrence. High sensitivity of the device, along with low cost and ease of use, improves the reliability of power supply.

Description

The device is intended for diagnosing the state of insulation of transformers, in particular for diagnosing power transformers of 6-10 / 0.4 kV of any power for the presence of inter-turn faults in the windings.

Known gas protection (Andreev VA Relay protection and automation of power supply systems - M .: Higher school., 2006. With 490-492), containing a gas relay, which when an electric arc occurs, caused by interturn circuit of the winding and leading to boiling oil in the transformer, gives a signal to turn it off.

The disadvantage of this device is that it does not diagnose the presence of interturn closures in the early stages of occurrence. It works only at high currents of inter-turn faults, leading to damage to the winding. In addition, this device can not be installed on modern power sealed transformers, due to the lack of an expansion tank.

The closest, taken as a prototype, is the differential current protection of the transformer (Andreev VA Relay protection and automation of power supply systems - M .: Higher school, 2006. C 499-501), containing current transformers installed on both sides protected transformer and relay. The secondary windings of current transformers and relays are connected to a longitudinal differential protection circuit.

The main disadvantage of the device is the lack of sensitivity to interturn closures in the early stages of their occurrence.

The objective of the utility model is to use the diagnostic device to increase the sensitivity to inter-turn faults in the windings of a three-phase transformer in the early stages of occurrence.

The problem is solved in that the device for diagnosing inter-turn faults in the windings of a three-phase transformer, containing current transformers included in the phases of the primary winding of a three-phase transformer, unlike the prototype, the secondary windings of current transformers are connected in parallel and shunted by a resistor, while the first common point of the secondary windings of current transformers is grounded, and the second common point is connected through a switch to a diode, a rheostat, and a first contact an instrument whose second contact is earthed.

The technical result is achieved due to the fact that the combination of new distinctive features allows you to diagnose and identify inter-turn faults in the windings of a three-phase transformer in the early stages of occurrence.

The figure shows a diagram of a device for the diagnosis of inter-turn faults in the windings of a three-phase transformer. The primary windings of current transformers 2 are included in the phases of the primary windings A, B, C of a three-phase transformer 1. The secondary windings of current transformers 2 are interconnected in parallel and shunted by a resistor 3. The first common point 8 of the secondary windings of current transformers 2 is connected through a switch 4 to a diode 5, a rheostat 6 and the first contact of the measuring device 7. The second common point 9 of the secondary windings of the current transformers 2, connected to the second contact of the device 7, is grounded.

The device operates as follows. Prior to putting the three-phase transformer 1 into operation, the current transformers 2 with the resistor 3 are pre-installed in series with its primary winding. Before diagnosing the three-phase transformer 1, it is switched on at idle (without load). Switch 4 closes the circuit from the diode 5, rheostat 6 and device 7 connected in series with each other. Using the rheostat 6, set the arrow of the device 7 to the zero position. During the scheduled inspection of the substation, it is enough to disconnect the load and turn on the switch 4 to carry out diagnostics. Deviation of the device arrow from the zero position indicates the presence of inter-turn faults.

The simplicity of design and low cost of the device compared with analogues allows you to use it as a standard component of a transformer substation. This further simplifies the use of the device and the diagnostic process.

A device for diagnostics will allow to identify the interturn circuit of a three-phase transformer at an early stage of occurrence. High sensitivity of the device, along with low cost and ease of use, improves the reliability of power supply.

Claims (1)

A device for diagnosing inter-turn faults in the windings of a three-phase transformer, containing current transformers included in the phases of the primary winding of a three-phase transformer, characterized in that the secondary windings of the current transformers are connected in parallel and shunted by a resistor, while the first common point of the secondary windings of the current transformers is grounded, and the second common the point is connected through a switch to a diode, a rheostat and the first contact of the measuring device connected in series with each other, the second whose contact is grounded.

Images