RU2617285C2 - Method for detection of turn-to-turn short circuits in coils of railroad engine electrical devices - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: summary of the invention: detection of turn-to-turn short circuits is performed in a loaded mode by the current magnitude in the coil winding when the constant voltage is applied to it. Together with applying the constant voltage high voltage pulses are applied to the winding. In 1 minute the supply of high voltage pulses is cut off and the current magnitude is measured in the winding.

EFFECT: increased rate of turn-to-turn fault detection.

1 dwg

Description

There is an analogue of the method for monitoring the inter-turn circuit in the windings of the relay coils described in the “Guidelines for the average and overhaul of AC electric locomotives of the Republic of Kazakhstan 103.11.431-2006” in paragraph 5.4.1.17 ... The active resistance of the coils, the electrical insulation strength and the absence of inter-circuit closure ... (p. 29) and p. 5.4.10.8 ... The active resistance of the relay coils and the transformer is measured, make sure that there are no inter-turn faults ... (p. 42).

To implement the proposed method at the Rostov-on-Don Electric Locomotive Repair Plant, a branch of Zheldorremmash OJSC, a device was manufactured for determining inter-turn faults in the coils of electric locomotive equipment. The essence of the method lies in the fact that at a rated load of a constant voltage of 50 V on the coil winding itself, a high-voltage pulse voltage of 1500 V is applied simultaneously to its inter-turn insulation to check the condition. This imitates the operation of a heated coil winding, for example, a relay, in operating conditions when switching power surges when it is turned off.

The manufactured device serves to detect breakdown of the inter-turn insulation of the relay coil windings and determines the possibility of their further operation. Increases the probability of detecting inter-turn breakdowns. In the place of inter-turn short circuits of the coil windings, a characteristic glow may appear.

According to the source “Manual on the average and overhaul of AC electric locomotives of the Republic of Kazakhstan 103.11.431-2006” in paragraph 5.4.1.17, the insulation strength of the relay windings is checked by applying one high voltage output of 1500 V, 50 Hz to the relay windings closed to each other, and the other on the core of the coil for 1 min. If breakdown does not occur, then the coil winding is suitable. However, in this case, the probability of detecting inter-turn faults in the winding is low, since surface insulation can be suitable. In this case, high-voltage pulses are fed directly to the interturn isolation, which increases the likelihood of detecting its breakdowns.

The principle of the proposed method is based on measuring the direct current in the windings of the relay coils after applying a stabilized voltage of 50 V to them with the simultaneous application of high-voltage pulses with an amplitude of 1500 V, a frequency of 12 Hz and a duration of 30 μs on the inter-turn insulation to check its condition.

The test circuit of the coils according to the above method is presented in Fig. one.

When the power supply is turned on (1), the stabilized constant voltage of 50 V is supplied to the terminals (2) of the relay coil (3) of the relay coil from the “DC voltage source - 50 V”

After warming up the winding (3 min), the "Start" button is pressed and also on the conclusions (2) of the winding (3) from the "High-voltage pulse voltage source 1500 V" of the power supply (1), a high-voltage pulse voltage with an amplitude of 1500 V, frequency 12 Hz and 30 microseconds long. That is, on a heated coil winding, the presence of inter-turn short circuit on inter-turn insulation is detected more confidently.

After 1 min, the readings of ammeter A are read and, if the values of the readings change beyond the permissible limits, then this coil will be rejected according to the state of interturn isolation. Diode V divides the 50 V and 1500 V circuits.

There are resistance tolerances for each type of relay coil. So, for example, the resistance of the relay coil RP-280 has a tolerance of 148.2 ... 168.5 ohms. Accordingly, the current consumption of the coil should be in the range of 0.3 ... 0.33 A at a supply voltage of 50 V.

The existing analogs do not explain the simultaneous supply of the rated current to the windings and high-voltage voltage to their interlayer insulation.

Claims (1)

A method for detecting inter-turn faults in the windings of relay coils of locomotives, namely, that the detection of inter-turn faults is carried out in the loaded mode by the magnitude of the current in the coil winding when a stabilized voltage is applied to it, characterized in that high-voltage pulses are applied to the winding simultaneously, after 1 minute, the supply of high-voltage pulses is turned off and the current value in the winding is measured.

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