SU723726A1 - Method and device for calibrating rotor for determining losses in the electric machine stator pack steel - Google Patents

Description

The invention relates to electrical engineering.

A known method and device for determining the magnetic properties of ferromagnetic cores [1].

The disadvantage of this method and device for determining the magnetic properties of $ cores is the complexity and reduced measurement accuracy.

There is also a known method and device for calibrating the rotor for determining losses in the stator core of electric machines ^{, 0} buses [2]. Calibration method comprises measuring the iron loss of the rotor core three wattmeters connected to three-phase magnetizing, and measuring windings and a voltmeter for kont- ₅ Rola the magnetic flux. A device for implementing this method comprises a rotor with three-phase magnetizing and measuring windings and a single-phase measuring winding located in its grooves. 20

This method and device for its implementation are closest to the invention in terms of technical nature and the achieved result.

The disadvantage of this method is the complexity due to the need to calibrate the rotor in three stages. In addition, the known method has a low accuracy.

The purpose of the invention is to simplify the measurement of losses in the steel of the core of the calibrated rotor and to increase the measurement accuracy.

This is achieved by the fact that voltage is applied to the magnetizing winding, the direction of rotation of the magnetic field generated by this winding is determined, and the rotor is rotated in the direction opposite to the direction of rotation of the magnetic field of the rotor with the rotation frequency of this field; the rotor contains eight slip rings, to which the terminals of the three-phase magnetizing and measuring windings and a single-phase winding are connected to control the magnetic flux; the winding for controlling the magnitude of the magnetic flux is made in the form of a coil placed in the upper part of the grooves of the rotor with a step equal to the pole division of the magnetizing winding.

The drawing shows a device for taring the rotor.

The device operates as follows.

The magnetizing winding I of the calibrated rotor 2 is supplied with power via slip rings 3. The rotor is rotated in the direction opposite to the direction of rotation of the magnetic field using an auxiliary motor. In this case, the magnetic field of the rotor becomes stationary relative to the core of the stator 4, and, therefore, the losses in it are equal to zero. Therefore, the wattmeters included in the three-phase magnetizing and measuring windings 5 show only losses in the steel of the core of the calibrated rotor.

The proposed calibration method and device for its implementation exclude the use of a special calibrated stator and rotor without grooves and windings. Calibration is carried out in one stage, which simplifies the calibration method and eliminates errors due to calibration in three stages.

Claims (3)

Claim 1. A method for calibrating the rotor for determining losses in the steel of the stator package of electric machines, including measuring losses in the steel of the rotor core by three wattmeters connected to three-phase magnetizing and measuring windings and one voltmeter to control the highly variable magnetic flux, so that, in order to simplify and increase accuracy, voltage is applied to the magnetizing winding, the direction of rotation of the magnetic field generated by this winding is determined, and the rotor is rotated in the direction opposite The direction of rotation of the magnetic field with the rotation frequency of this field. 2. A device for implementing the method according to π. 1, comprising a rotor with three-phase magnetizing and measuring windings and a single-phase measuring winding located in its grooves, characterized in that, in order to simplify the measurement of losses in the steel of the core of the calibrated rotor and to control the magnitude of the magnetic flux, the rotor contains eight contact rings to which the terminals are connected three-phase magnetizing and measuring windings and a single-phase winding for controlling magnetic flux. 3. The device according to p. 2, characterized in that, in order to increase the accuracy of measurement, the winding for controlling the magnitude of the magnetic flux is made in the form of a coil placed in the upper part of the grooves of the rotor with a step equal to the pole division of the magnetizing winding.