SU705388A1 - Method of quality control of insulation of winding stator rods for electric machines - Google Patents

Description

(54) METHOD FOR MONITORING THE QUALITY OF INSULATION OF THE RODS OF THE WINDINGS OF ELECTRIC MAIIN STATORS

The invention relates to the flaw detection of insulating materials, and can be used to control the quality of the insulation of the stator windings of large electric machines.

There is a known method of controlling the quality of the insulation of rods by increased voltage and by measuring the voltage of partial discharges, which is not always effective 1.

Known methods of microwave defectoscopy are used to detect defects in insulating materials, which can be divided into three main groups: amplitude, polarization, and amplitude-phase.

The amplitude-phase method of flaw detection is most appropriate for controlling the insulation of rods. In this method, two modes of operation are possible: differential (the reflection coefficients from two adjacent portions are compared) and balanced (the reflection coefficients from the reference and the tested product are compared).

Methods are known for controlling the insulation of large electric machines with

using microwave flaw detectors, which include the effect of electromagnetic radiation on a monitored rod, orienting the angular impulse of the electric field of the electromagnetic radiation, determining the average amplitude and phase of the reference signal from the control group of defect-free rods and measuring the change in the reflection coefficient of the signal from the monitored rod 2.

However, with a differential control method, only the boundaries of defect-free and defective

5 plots. The rods, whose insulation is defective in the whole volume, are not rejected. In a balanced way, the results control the objective nature due to the impossibility of making a standard that provides a specific setting of the balance arm of the flaw detector, since the electrical insulation The Mohshn has a greater heterogeneity than such materials,

5 as getinaks, glass fiber, etc. In this connection, even on defect-free rods, there is a significant variation in the settings of the balance arm over the length of the rod, and this

0 makes it impossible to match its standard, which provides an unambiguous balance arm for the construction. . The orientation of the magnetic field voltage vector along the longitudinal axis of the controlled product, which is received in the microwave testing, and of the electric field field perpendicular to this axis, the signal of the interference when insulating rods increases; due to signals reflected from braided copper conductor of complex configuration. This conductor consists of individual elementary conductors, including hollow ones, insulated from each other, arranged in two layers and transposed along the length of the rod. This circumstance is significant: it takes control if the control of products is purely electrical or from a dielectric deposited on a solid metal substrate, a change in the coefficient of damage. caused by changing dielectric properties, then when the core of electric machine rods are changed. The reflection coefficient is largely due to the change in the location of the elementary conductors under the microwave sensor antenna when scanning it over the surface of the insulation rod. The purpose of the invention is to increase the reliability of control by reducing the level of signal interference. } 1d this, in quality control, of insulation of the rods of windings of electric machines, my influence of electromagnetic radiation on the controlled rod, orientation of the electric field vector of electromagnetic radiation, determination of the average amplitude and phase of the reference signal according to the control group of defect-free rods and measurement of the change in the reflection coefficient of the signal from. to a 5-controlled rod, the orientation of the stress vector of an elec- trical electromagnetic radiation field is produced along the longitudinal axis of the test rod. The method for monitoring the quality of the insulation of the stator windings of the electric Mauyin includes the effect of electromagnetic radiation on the monitored rod, the orientation of the electric field vector of the electromagnetic radiation field, the determination of the average amplitude and phase of the reference signal from the control group of defect-free rods and the measurement of the change in the reflection coefficient of the monitored rod. The antenna of the microwave sensor is oriented in such a way that the electric field intensity vector is directed along the longitudinal axis of the controlled rod, and the magnetic field intensity vector is perpendicular to it. To set up a balanced arm, a group of dunbGo rods of a standard size is selected; it is manufactured using the usual technology and deliberately defect-free. At each of the rods of this group, no less than at 20-25 points is the setting of the balanced arm and the readings of the attenuator and short-circuiting limbs are recorded. The average of these values is found. Attenuator and short-circuiting balance arm are set on them. The control of the insulation of rods occurs after baking the insulation, but before applying a semiconducting coating to the surface of the insulation, since the latter increases the level of signal interference. The proposed control method provides both an unambiguous setting of the microwave flaw detector operating in a balanced mode, as well as a minimum level of the interference signal, due to technological irregularities of the insulation and a change in the reflection coefficient from the braided copper conductor.

The scatter of the aP-enuator (A) and short-circuit (F) settings and the magnitude of the interfering signal on defect-free rods with existing and proposed antenna orientation Rods of hydrogenerators of the Krasnoyarsk hydroelectric station with thermo-reactive 0.11 0.42 0.7 insulation of mica Turbogenerator rods TBB-200 mica0, 14 0.53 2.0 Therm Rods turbogenerator and TVF-120 monolith 0.12 0.75 60 G - f and - p. Significant reduction due to the proposed sjieKTpoMarHHtiio orientation of the 35 th interference signal level (Table 1 ) and application of the method of setting the reference arm of the microwave-defect; Osprey according to the average parameters on the group of defect-free rods of a given type

The economic effect of the described invention is determined by increasing the operational reliability. large electric mshshn on power plants as a result of reducing the total duration of forced downtime, power units due to accidents,

Claims (2)

Invention Formula The method of quality control of the insulation of the stator windings of the electric table size (d6 application of semiconducting coating), allowed to use the method of microwave flaw detection to control the quality of insulation of the stator windings of large electric machines (Table 2) : t a b c 2 machines, including the effect of electromagnetic radiation on a monitored rod, the orientation of the electric field strength of the electromagnetic field, the determination of the average amplitude and phase of the reference signal. by the control group of defect-free rods and the measurement of the change in the reflection coefficient of the signal from the monitored rod, in order to increase the reliability of the control, the root-mean-square deviation of the values of the attenuator tuning limb from the mean value in Words x Unit same for korotkozamykate. . the mean value of the interfering signal on the control group when setting the middle. 0.03 0.09 0.09 8 times 0.05 0.12 0.22 in 9 pis O 0.48 12.5 5 times 7 7053888 by reducing the signal level of pome-1. Brand A.A. Investigation of the diha, orientation of the vector of tension-electricians at the ultra-high frequency of the electrical radiation of the pro-M., 1963. wound along the longitudinal axis of the control 2. Collection of scientific papers Vol. Rods. Automatic reliability Sources of information, 5 controls and synchronous generations are taken into account when examiners, VNIIelektromash L. 1974.