SU385297A1 - DEVICE FOR 1M. MODELING - Google Patents

Description

one

The invention relates to the field of modeling transients in electric machines for the purpose of conducting tests and studies on the reliability of electric motors.

Devices are known for accelerated reliability testing of induction motors for induction motors, in which, by varying the frequency of reverses, the values of flywheel masses and cooling intensity, a given test temperature is obtained on the stator winding.

However, such devices are complex and can introduce errors in assessing the reliability of the stator winding.

The proposed device is characterized in that in each phase of the stator winding of an induction motor with a braked rotor, a magnetic amplifier connected by a first input to a corresponding phase of a three-phase alternating current source is connected, and the second from an output of a direct current amplifier, Hai which input is connected to an oscillogram converter.

This allows us to simplify and speed up the tests and studies on the reliability of the stator winding of an induction motor.

The drawing shows a schematic diagram of the device.

The device contains an ascylogram converter 1, direct current amplifiers 2, magnetic amplifiers 3 with control windings, a three-phase alternating tol source 4 (or a network). An industrial frequency, asynchronous motors (or their mock-ups) 5 with a rotor braking device. The device operates as follows. The oscillogram converter drum drive / is included, which draws oscillogram graphs in front of the slit of the read heads at a speed equal to the oscillogram recording speed of a non oscilloscope oscilloscope. Electrical signals from the read heads are fed to the inputs of the amplifiers 2 and amplified to the required value are fed to the control windings (OA) of the magnetic amplifiers. Each magnetic amplifier changes the amplitude of the current passing through the fava of the stator winding of an asynchronous motor with a braked rotor (or several motors simultaneously connected in parallel), in accordance with the current waveform in this phase, recorded during full-scale start of the engines of this type. A current flows through the stator winding, the amplitude of the phase and frequency repeating the oscillogram of the electric current during full-scale starts. With

This is the process required for testing the stator winding in a self-locking rotor engine.

The rotor can be removed from the stator (. Or not inserted into the layout of the electric motor). This changes the electrodynamic forces in the frontal parts of the stator windings and the thermal field of the windings, i.e., some error is introduced, but in the case of comparative tests of the variants of the windings this may be acceptable.

When testing, the rotor can be replaced by a ferromagnetic disc.

The device “e requires pouring foundations, base plates and other ancillary equipment.

Subject invention

A device for modeling electromagnetic, thermal and mechanical props in asynchronous electric machines, containing an oscillogram converter, direct current amplifiers, magnetic amplifiers and a three-phase alternating current source, characterized in that in order to simplify the device and increase its speed, - windings of the asynchronous motor stator. The magnetic amplifier connected with the first input to the corresponding phase of the three-phase alternating current source, and the second - to the output is amplified. l constant current to the input of which the oscillogram converter is connected.