SU672708A1 - Method of indirect monitoring of dynamic eccentricity of induction electric machine - Google Patents

Description

(54) FOCUSING OF REDUCED CONTROL OF DYNAMIC ECCENTRISITY OF ASYNCHRONOUS ELECTRICAL MACHINE

water from a three-phase power supply to a single-phase one, 6 not) AVNOF (air gap is judged by the value of its rotational speed 11.

The disadvantage of this method is that it is laborious and yoMess the accuracy of the forecaster of the newest eccentricity.

There is also known a method of indirect control of a dynamic eccentricity of an asynchronous electric machine with a serrated rotor, based on measuring the EMF induced by a magnetic field p1eee te in the YTchikoG placed on the outer surface of an electric machine, when it is operated from a multiphase power source at idle and forming a controlled signal proportional to dynamic fx ventance

This method is closest to the invention in its technical nature and the achievable rezu-atu.

. - low accuracy due to the difficulty of isolating a small level of the monitored signal against the background of the signal, independent of voxcentricity.

The purpose of the invention is precision testing.

The implementation of the goal is measured by the rotor slip, b is the jagged harmonic extracted from the sensor signal, its maximum amplitude is determined, then the value of this harmonic is measured through the time

H / -3) - NUMBER OF POLES pairs} and) - angular frequency of the first power supply voltage monitor; 5 - below the rotor of the electric machine, i n the controlled signal is formed as the ratio of the specified value of the tine harmonic to its maximum amgastud. . In asynchronous electrotechnical machines, due to the jaggedness of the rotating part, the oscillations of the magnetic Lyuchok oscillate, the frequency of which is proportional to the number of teeth of the rotational part (). If the outer side is; To put the sensor in the form of a coil, the width of the Third piaBBa to the pole division of the tine harmonic, then on its tionyTOM a heating signal proportional to

Heavenly external machine. magnetic field ...

Measuring impedance provides maximum power output for a tine & Harmonics signal. The electrical frequency signal is modulated by the tine harmonic frequency. At BTO, the maximum value of the amplitude of the tine-like garronics signal is observed at

closest approaching surfaces of the stator and rotor bore, and the minimum value of the signal ipitude of the teeth of the rapMoHtfKH is observed at the moment of the greatest deviation of the surfaces of the stator and rotor boring, i.e. when the rotor makes a half turn in the presence of a dynamic excitant. This is due to the different magnetic resistance of the Air gap to magnetic

the field of the tine harmonic, depending on the size of the air gap between the surfaces of the stator and the rotor. Therefore, it is possible by the magnitudes of the tine harmonics

judge the change in the air gap at a given point of the machine, i.e. about dynamic vxcentricity. Due to the fact that for a time equal to one period of the main harmonic field, the rotor will make jus

turnover

where $ is the amount of slip of the machine,

p is the number of pairs of poles of the mshynny, and a complete change of the air gap from the maximum to the minimum will occur

Claims (2)

half a rotor turn, it is necessary to measure the amplitudes of the jagged harmonics; after a time equal to half the rotor's turn, i.e. The ratio of the maximum and minimum amplitudes of zuyuvykh roving points at 0TOM is equal. The operational description of the method is as follows. The electric machine is connected to a three-phase power supply. and ragshot at idle. The sensor signal (in the form of a measuring kvga-ushk), superimposed on the external surface of the vector machine, is measured, its signal is selected, proportional to the tooth harmonic. For this, the distance between the active conductors of the sensor is chosen equal to the pole case of the Huyu harmonic. Next, the maximum amplitude of the harmonic is determined, and through time t is measured from its value corresponding to half a rotor turn. A signal is then formed equal to the ratio of the specified value; the amplitude of the eubic harmonic to its maximum amplitude, and according to this signal, it is estimated that the magnitude of the dynamic brittness. The selection of the tine harmonic from the common signal of the sensor, which is most strongly dependent on the dynamic eccentricity, makes it possible to increase the accuracy of detection of the defect of the electric machine. The invention of the method of indirect control of the dynamic eccentricity of an asynchronous electric machine with a gear rotor, based on the measurement of the EMF induced by the magnetic field of the scattering in the sensor placed on the outer surface of the electric machine, when it is working from a multiphase source at idle and forming a controlled signal proportional to dynamic centering, which, in order to improve accuracy, measure the slip of the rotor, and the serrated the harmonic, determine its maximum amplitude, then measure the value of this harmonic in time -. ... - R- . u (4-S) is the number of pairs of poles; - the angular frequency of the first harmonic of the Pitany voltage; g is the slip of the rotor of an electric machine, and the monitored signal is formed as the ratio of the specified & harmonic value to its maximum amplitude. Sources of information taken into account during the examination 1. USSR author's certificate No. 221152, cl. H 02 K 15 / OO, 1966. 2. USSR author's certificate №, cl. 7 Oi B 7/14, 1940,