RU1772770C - Method of group testing of electric circuits for breakthrough occurrence - Google Patents

Abstract

The invention relates to test equipment and can be used in devices for testing a group of electrical circuits, for example, core motor coils, for breakdown. An object of the invention is to identify an electrical circuit with defective insulation from a group of monitored electrical circuits before a complete electrical breakdown occurs. The method consists in applying a high-voltage test voltage to a group of test circuits connected in parallel with each other, as well as to a reference capacitor connected in parallel to the test circuits, and the occurrence of the initial a breakdown in the insulation of the corresponding electrical circuit, the current direction in each circuit under test is compared with the current direction in the reference capacitor and the presence of a defect in the isol the corresponding electric circuit due to the mismatch of the current direction in this circuit and the reference capacitor. The scheme of the device that implements the method contains

Description

The invention relates to testing equipment and can be used in devices for testing for breakdown of a group of electric circuits, for example, core coils of electric motors during their manufacture.

The purpose of the invention is to identify an electrical circuit with defective insulation from the group of tested electrical circuits at an earlier stage of the test, before a complete electrical breakdown occurs.

The method consists in the fact that a high-voltage test voltage is applied to a group of test electric pots connected in parallel to each other, as well as to a reference capacitor with a working voltage level that is obviously 10 .., 15 or more times higher than that connected in parallel with the test circuit m, the occurrence of the initial breakdown in the insulation of the corresponding electrical circuit is detected by the appearance of current in the test circuits and the reference capacitor, and –ipn this direction of current in each test st strand with the current direction of the reference capacitor and judged the presence of a defect in the insulation of an electrical circuit corresponding mismatch directions of current in this circuit and the reference capacitor.

The drawing shows a structural diagram of a device that implements the proposed method.

The device comprises an indication unit 1, a current direction comparing unit 2, 3.1,., Z.p current measuring units according to the number n of tested electric circuits, a current measuring unit 4, a high voltage test voltage source 5, and a reference capacitor 6. The drawing shows also n of tested electric circuits 7.1 ... 7.p In sequence with each tested circuit 7.1 ... 7.p, the corresponding block 3.1 ... З.п is included respectively

current measurement, and in series with the reference capacitor 6, a current measurement unit 4 is connected. Each of the tested electrical circuits 7 with the corresponding

unit 3, as well as a reference capacitor b with unit 4, are connected in parallel with each other and to the input of the source 5. The outputs of units 3 and 4 are connected to the corresponding inputs of the unit 2 comparing the current direction, the output of which is connected to the indication unit 1,

A device that implements the method operates as follows,

They apply a high test voltage from source 5 to the tested electrical circuits 7, as well as to the reference capacitor 5. With good insulation with t5cex of the tested electrical circuits x 7, and

Also, capacitive leakage currents having the same direction and minimum value will flow in the reference capacitor b. If a breakdown occurs in any one electrical circuit, for example 7.1, a reference capacitor 6 and the capacitance of all other electrical circuits 7.2 ... 7.n (inter-turn, etc.), the 7.1 electrical circuit will be discharged, where breakdown. Therefore, in case of breakdown (not even complete) in the reference capacitor by breaking the electric circuits x 7.2 ... 7.l, transient currents will begin to flow, the direction of which is opposite to that which takes place in the electric circuit 7.1, where

breakdown occurred. In this case, in block 2, the direction of the currents in each electric circuit 7.2 ... 7.p is compared with the reference capacitor 6. If the direction of the currents in the corresponding circuit does not match

but with respect to the direction of the currents of the remaining electric circuits and the reference capacitor, a signal is generated at the output of unit 2, which will be transmitted to the indicating unit 1, as a result of which, at the output of the latter, the number of the electric circuit having defective insulation will be displayed.

The use of a reference capacitor provides an increase in the power of the energy discharge during breakdown and thereby increases the sensitivity of the method.

The invention also allows, in contrast to the prototype, to determine, at group control for breakdown, an electrical circuit with defective insulation at an earlier stage than a complete breakdown, i.e., to identify an object with defective insulation from the group of tested

Claims (1)

SUMMARY OF THE INVENTION A method for group control of insulation of electrical circuits for breakdown, which consists in supplying the same test high voltage voltage to the tested electrical circuits and a reference capacitor, fixes the occurrence of a breakdown of insulation, characterized in that, for the purpose of the detection of an electric circuit from a group of electric circuits being tested, a high-voltage test voltage is applied to a group of electric circuits being tested and a reference capacitor interconnected in parallel to record the occurrence of an insulation breakdown by the appearance of transient currents through a reference capacitor and each of the tested electric circuits, the direction of the indicated currents in each of the tested electric circuits and the reference capacitor is compared, the electrical circuit with the defective insulation from the number of tested is determined by comparison, if the direction of the transient current in the corresponding electric circuit does not coincide with the direction transient current in the remaining electrical circuits and the reference capacitor, it is concluded that defective insulation is present in the electrical circuit.