SU136455A1 - Method for detecting short circuits in windings of rotors of turbogenerators - Google Patents

Description

The present invention relates to methods for detecting windings in windings of turbine generator rotors using a device consisting of a generator of high-voltage pulses and a measuring unit including a cathode ray tube and a lamp voltmeter and operating on the principle of determining the delay time of a pulse reflected from a winding.

The proposed method differs from the known ones in that the two poles of the rotor winding are connected to the device as two arms of the bridge, and the rotor case is used as the midpoint of these arms.

The use of such a method makes it possible to determine the place of closure of the insulation of the rotor winding with the fitted bands in the stationary state and during rotation.

Below is a diagram of the device for implementing the proposed method.

The test method is based on the principle of symmetry with respect to the rotor case of both poles of the OR rotor winding, which have the same number of coils of different dimensions but symmetrically located. Using the OP rotor winding symmetry and considering the rotor body of the RC as the midpoint of the winding, a bridge circuit is assembled, the shoulders of which form both rotor winding poles and constant resistances Ri and Rz, located in the test device. The bridge is powered by high voltage pulses applied to the contact rings of the rotor. Unbalance of the bridge The difference in voltage between the midpoint of the constant arms of the bridge and the rotor housing is measured by the instrument and recorded visually on the screen of the cathode ray tube.

No 136455- 2 When the winding is well insulated, the test voltage applied to the winding is symmetrically distributed along it and the bridge is in equilibrium. When weakening (breaking) the insulation or closing the coil in one of the poles of the rotor winding, the voltage wave propagating through the winding reflects from the point of closure to the winding input and can be detected by the unbalance curve of the bridge on the cathode ray tube. The distance from the moment of applying the voltage pulse (the beginning of the curve) to the arrival of the reflected pulse along the unbalance curve determines the place of the circuit: the further the loop with the circuit from the winding input, the greater this distance. By applying the scan and stretching the unbalance curve in time, you can determine the device unbalance curve, the pole and the number of the coil with a short circuit. By preliminarily artificially closing one turn in the frontal part of each coil of the rotor winding to the nozzle of the tires, you can get calibration curves, and using them, determine the number of the coil with coil when testing a closed rotor, both in a stationary state and when it .

Since rotors of the same type have the same parameters, such calibration curves are suitable for all rotors of this type. The device for testing rotors should have a set of calibration curves, respectively, for each type of rotor manufactured, which can be used to establish the place of the winding closure on any tested rotor.

The test device has a pulse generator and a measuring device, which includes an amplifier, a lamp voltmeter, and a cathode ray tube. The pulse generator operates on Lld, Dz and L lamps according to the charge-discharge capacitor circuit and creates short high-voltage pulses with a pulse frequency of 50 Hertz. The steepness of the leading edge and the duty ratio of the pulses is determined by the parameters of the output transformer Tr1 and, accordingly, the input capacitance and inductance of the rotor winding. The least steepness of an impulse - 2 / sec; pulse ratio of 30 m / s. The amplitude of the pulse voltage at the output of the device may be two steps: | 2-4 kV) depending on the position of the switch I.

The cathode ray tube L has a waiting sweep, the circuit of which is assembled on the thyratron L. The sweep is run once during a period of sinusoidal voltage taken from the transformer Grg. After starting the sweep, the pulse generator is started by opening the thyratron L. Ci and is fed to the vertical plates of the cathode ray tube LB directly and through an amplifier assembled in half of a Lu lamp. The tube is powered by a rectifier assembled on lamp L.

The lamp voltmeter circuit is assembled on the lamps Ld and the second half of the lamp Lu. A voltmeter measures the amplitude (left half of the Le lamp). The meter serves as a pointer device. The power of the voltmeter is produced by a puller assembled on a Liu lamp.

Subject invention

The method of detecting the winding short circuits in the windings of the rotors of the turbogenerators by means of a device consisting of a high-voltage pulse generator and a measuring unit, including