SU1170383A1 - Device for testing turn-to-turn insulation of electrical machine windings - Google Patents

Abstract

A TEST MEASURING DEVICE FOR INSULATION INSULATION OF ELECTRIC MACHINE WINDINGS, containing a current generator connected to the first pole of the test winding, connected to the first terminal of the test winding, connected to the first terminal of the resistor connected to the second terminal, connected to the second terminal of the test winding, connected to the first terminal of the resistor, connected to the second terminal of the test winding, connected to the ground connection, connected to the first terminal of the resistor, connected to the second terminal through the diode to the ground connection, connected to the ground connection to the ground connection, connected to the first terminal of the resistor that is connected to windings, a high-voltage pulse generator connected to the first and second outputs of the first and second terminals of the resistor, respectively, characterized in that, in order to increase the test accuracy, The indicator has an interwave loop indicator, connected by the first output with (L second terminal for connecting the spooled winding, and the second output - with the second output of the resistor.

Description

Od 00 00

- l / f. 1 The invention relates to the control of measuring equipment and can be used to control the insulation of the windings of electrical machines. A device for testing the inter-turn insulation of windings of electrical machines is known, which contains a generator of high-voltage pulses. A disadvantage of this device is the low test accuracy. The closest technical solution to the invention is a device for testing the inter-turn insulation of the windings of electric machines containing a current generator connected with the first pole to a terminal for connecting the first output, we will test the windings, the second with the first terminal of a resistor connected to the second terminal Test winding, high-voltage pulse generator connected to the first and second outputs by the first and second outputs of the resistor, respectively, the indicator between the terminals The first terminal is connected to the second terminal for connecting the test winding 2 /. A disadvantage of the known devices is the low accuracy of the tests, due to the fact that in the known device inter-turn closures are detected by changing the shape and amplitude of the induced voltage on the terminals of the test winding, and an electron-beam oscilloscope or other device that is connected to the terminals of the controlled winding is used as an indicator of inter-turn short-circuits . Therefore, the input parameters of the indicator affect the equivalent parameters of the controlled winding during testing. Turning on the indicator parallel to the tested winding leads to a distortion of transients in it and affects the reliability of the received information when detecting the interturning short circuits. The purpose of the invention is to increase the accuracy of the tests. This goal is achieved in that the device for testing the inter-turn insulation of the windings of electric machines, contains a current generator connected with the first pole to a terminal for connecting the first output of the test winding, the second pole to the first output of a resistor connected to the second output via a diode with a terminal To connect the second output of the test winding, a high-voltage pulse generator connected to the first and second outputs with the first and second terminals of the resistor, respectively, an indicator between the turns a circuit connected to the first terminal with a second terminal for connecting the test winding, and a second terminal to the second terminal of the resistor. FIG. Figure 1 shows the electrical structure of the device; Fig. 2 shows diagrams explaining the operation of the device, where C is the voltage across the resistor from the high-voltage pulse generator; Uj, is the voltage at the terminals of the test winding; Uj is the reverse voltage across the diode. The device comprises a current generator 1, a diode 2, a resistor 3, a generator of 4 high-voltage pulses, and an indicator 5 between the turn-off circuits. FIG. 1 shows a test winding 6. The first pole of the current generator 1 is connected to a terminal for connecting the first lead of the test winding 6, the second pole to the first lead of a resistor connected to the second through a diode to the terminal for connecting the second lead of the test winding 6, First and the second outputs of the generator 4 high-voltage pulses are connected to the first and second voltages of the resistor 3, respectively. The first output of the interwave indicator indicator 5 is connected to the second terminal for connecting the test winding 6, the second terminal to the second terminal of the resistor 3. The device operates as follows. When testing the inter-turn insulation of the test subject, the winding 6 is supplied from the current generator 1 through diode 2 and resistor 3, to which nor are given 4 pulses from the generator, which create a voltage drop across resistor 3 in polarity, which locks diode 2. Since this moment After a time, the diode 2 is closed, the flow of current through the controlled winding 6 from the DC generator 1 is stopped, and a high test voltage is induced at its terminals. Since closure of diode 2, the equivalent valentine circuit of the controlled winding is an oscillating circuit with equivalent lumped parameters — inductance, capacitance, and active resistance. After the diode is closed, damped oscillations occur in this oscillatory circuit. Since the magnetic energy concentrated in the tested winding 6 cannot disappear simultaneously with the cessation of current through diode 2, it continues to flow through it at the time tto close through its equivalent winding capacitance. The voltage on the test winding increases according to the expression where and is the voltage on the test winding; equivalent concentrated test winding capacity; the amount of current flowing through the test winding from generator 1. At time t, the voltage on winding 6 becomes equal to the voltage of resistor 3. At time, the voltage on the winding becomes slightly greater than the voltage on resistor 3 supplied by the generator 4, the diode 2 is shifted in the forward direction and is open. From this moment on, the remaining magnetic energy concentrated in the test winding. A diode 2, a chopper 3, a current generator 1 is scattered across the circuit. In the absence of the inter-turn closure of 1kaniyah in the winding 6 after the moment of time t d, the voltage Uj on it changes along the line a (Fig.2), i.e. repeats the form of the voltage of the high-voltage pulse on the resistor 3. During the inter-turn short circuit in the test winding 6, part of its magnetically 3 energy is dissipated from the moment of time in short-circuited turns. Therefore, from the moment of time t2.e, the diode 2 is again closed and the capacitance is equivalent to the capacitance - the inductance of the winding 6 is equivalent to the oscillating discharge of this capacitance. Therefore, the voltage U / j on the winding 6 after time point t decreases and changes along line b, fig.2. From time t, the voltage Uj. in winding 6, the voltage across resistor 3 becomes slightly greater, and diode 2 is again displaced in the forward direction and opens. Therefore, from the moment the newly accumulated magnetic energy in the winding 6 is dissipated along the circuit, diode 2, resistor 3, generator 1) of current and voltage U on it varies along the line a, Fig.2, i.e. repeats the voltage U shape of the high voltage pulse across the resistor 3. From the time t. until time t, the diode 2 is closed and a voltage pulse Uj appears from us, changing from-f along line c. When the amplitude value of this pulse is exceeded, the voltage Uj on the diode 2 is some value Uep, the indicator 5 turn between turns, gives a signal that there is a turn between turns in the controlled winding. The determination of the allowable voltage Uep of the operation of the indicator of inter-turn indicator 5 and the current flowing through the test winding 6 (i.e. the required value of the magnetic flux) at the normalized form and the amplitude value of the pulse from the generator 4 is calculated or experimentally for specific electric windings machines. Thus, by switching on the indicator 5 parallel to the diode 2, the influence of the indicator input parameters on the transient processes in the winding 6 is eliminated, which increases the accuracy of the tests.

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Claims (1)

TEST DEVICE • MEVD INSULATION ELECTRIC WINDING RICHESKY MACHINE, containing a current generator connected to the first terminal with the terminal for connecting the first output of the tested winding, the second pole with the first output of the resistor, connected to the second terminal through the diode with the terminal for connecting the second terminal of the tested winding, the high-voltage pulse generator connected to the first and second outputs with the first and second conclusions of the resistor, respectively, characterized in that, in order to improve the accuracy of the tests, an inter-turn fault indicator is connected to the device, connected by the first water with a second terminal for connecting the test winding, and a second terminal with a second terminal of the resistor. ί I 1170383 2