RU2382372C1 - Method for assessment of electric insulation condition by nondestructive check method - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: invention is related to the field of electric engineering, in particular to control and instrumentation equipment and may be used for assessment of electric insulation condition in electric machines and devices in process of their operation. Electrophysical characteristics of insulation are measured in dry and wet condition. Insulation quality is assessed by value of ratio between parametre value in wet condition to parametre value in dry condition.

EFFECT: simplified detection of insulation condition.

Description

The invention relates to the field of instrumentation and can be used to assess the state of electrical insulation of the windings of electrical products.

There is a method of detecting imperfections in the electrical insulation of an article, which means that the article is placed in a transparent chamber filled with technical fluid and its physical effect is reported, and leakage is judged by the occurrence of gas bubbles emerging from the pores of the article (RF application No. 2003136636/28).

The known method is difficult to use for large machines because of the need to disassemble them, the presence of a large transparent container and the subsequent removal of technical fluid, the remains of which will contribute to dusting and contamination of the surface of the product.

Closest to the technical nature of the present invention is a method for determining the state and resource of insulation of an electrical installation (RF application No. 93016114/10), which consists in determining the dielectric loss tangent at different frequencies, the reference frequency value of the maximum dielectric loss tangent, and calibration characteristics at different temperatures for an exemplary electrical installation, the operating temperature of the electrical installation, find the difference between the mentioned values and according to the calibration characteristic establish the worked out and residual resource of isolation.

The disadvantage of this method: the lack of consumer equipment for measuring the dielectric loss tangent at different frequencies and the absence of calibration characteristics for this electrical product.

The objective of the invention is to simplify the determination of the state of insulation.

The problem is solved in that in a known method for assessing the state of electrical insulation by a non-destructive method, which consists in measuring the electrophysical characteristics by which its quality is judged, new features are introduced: measurements of the electrophysical characteristics are carried out in the dry and wet state of the insulation, and its quality is judged by the ratio of the values of the measured parameter in the wet state to the value of the measured parameter in the dry state.

When studying the behavior of the insulation system during operational aging (thermal, mechanical, climatic influences), it was found that a new high-quality insulation system, consisting of insulating materials impregnated with varnishes or compounds, has practically the same electrophysical characteristics.

During operation in insulation systems, the destruction of varnishes and compounds, the formation of micro- and macrocracks, which contribute to the penetration of moisture and a sharp deterioration in the quality of insulation, leading to a failure of the system. The proposed method allows to simplify the determination of the state of insulation and thereby prevent failure.

An experimental verification of the method for assessing the state of insulation was carried out on two different insulation systems made on mock-ups simulating the groove part of the anchor coils of an electric motor with an operating voltage of 3 kV. The models were subjected to ten cycles of thermal aging at (250 ± 2) ° C for 96 hours in each cycle.

In the initial state and after 3, 5, 8, 10 cycles of thermal aging, a batch of mock-ups was selected for measurements of electrophysical parameters.

The electrical capacitance of the insulation was measured in the dry (C _dry ) and wetted state (C _vl ) at a voltage significantly lower than the operating voltage and a frequency of 1000 Hz, and the breakdown voltage of the insulation of the samples before and after wetting (U _cyx and U _vl ), respectively, was measured.

Moistening of the models was carried out for 15 ÷ 60 min.

For illustration, the table shows the relationship values

и

и коэффициенты корреляции (r) между K₁ и К₂.

and

and correlation coefficients (r) between K ₁ and K ₂ .

Cycle number Insulation system BUT B K ₁ K ₂ r K ₁ K ₂ r 0 1.93 one 1.43 one 3 2.85 0.9 6.02 0.67 5 3.47 0.8 -0.96 13.85 0.4 -0.78 8 4.0 0.67 15.1 0.36 10 4,5 0.61 20.1 0.18

The high value of the correlation coefficients allows us to consider it possible, having determined K ₁ , to have an idea of the state of the insulation system. The method was tested at anchor (overall dimensions: diameter - 700 mm, length - 1400 mm) of the traction motor NB-501 after operation. The patterns of the method are preserved for full-scale products. The permissible level of reduction in the quality of insulation is determined by the magnitude of the operating voltage, the magnitude of the switching overvoltages, the probability of wetting the insulation system during operation, and the requirements for reliability indicators.

Claims (1)

A method for assessing the state of electrical insulation by a non-destructive method, which consists in measuring the electrophysical characteristics that are used to judge its quality, characterized in that the measurements are carried out in the dry and wet state of the insulation, and its quality is judged by the ratio of the values of the parameter in the wet state to the measured value parameter in the dry state.