SU1228048A1 - Apparatus for testing cores of short-circuited windings of asynchronous motor rotors - Google Patents

Abstract

This invention relates to the field of electrical engineering. The purpose of the invention is to increase the reliability of control results. If the switches (B) 22 and 23 are closed and the 24 and 25 B are open, the bridge formed by the two halves of the secondary winding 19 of the regulating transformer (T) 4 and the adjusting windings 14 and 17 of the controlling T 1 and the reference T 5 is unbalanced, then its balancing produced by adjusting the air gap with the thruster and mechanism 11. When the balance of the bridge, the measuring device 8 has zero marks. Then, B 24 and 25 are closed and B 22 and 23 are closed. In this case, the currents from the measuring voltage source .2 flowing through the measuring windings 13 T 1 and 16 T 5 will be equal if the resistance of the monitored 26 and the reference 27 rods. These currents, which flowed in the opposite phase on half of the primary winding 20 of the measuring T 9, compensate each other and the measuring device 3 indicates zero. The deviation of his testimony from zero will characterize the degree of difference in resistance of the controlled rod 26 from the reference 27. I h. the item of f-ly, I ill. F (L to 1C 00 about 00

Description

The invention relates to electrical engineering and can be used to control the rods of short-circuited rotors of asynchronous electric motors.

The purpose of the invention is to increase the reliability of the control results by adjusting the air gap of the control transformer and using the bridge measurement method when comparing the measured value with the reference one.

The drawing is a schematic diagram of the device. Designations accepted: control transformer 1, measuring voltage source 2, first measuring device 3, control transformer 4, reference transformer 5, reference rotor 6, adjusting voltage source 7, second measuring device 8, measuring transformer 9, controlled rotor 10, the air gap adjustment mechanism 11, the magnetic core 12 of the controlling transformer, the measuring winding 13 of the controlling transformer, the adjusting winding 14 of the controlling transformer, magnetic reference transformer wire 15, measuring winding 16 of the reference transformer, adjusting winding 17 of the reference transformer, primary winding 18 of the adjusting transformer, secondary winding 19 of the adjusting transformer, primary winding 20 of the measuring transformer, secondary winding 21 of the measuring transformer, and the beginning of the measuring winding 16 connected to the beginning of the primary winding 20 of the measuring transformer, the end of which is connected to the end of the measuring transformer A control transformer 13, the beginning of the adjusting winding 14 of which is connected to the end of the adjusting winding 17 of the reference transformer and the first output of the second measuring device 8, the second terminal of which is connected to the midpoint of the secondary winding 19 of the adjusting transformer, the beginning of which is connected to the beginning of the adjusting winding 17 of the reference transformer, and the end with the end of the adjusting winding 14 of the control transformer, the beginning of the measuring winding 13 of which is connected to the end will measure The first winding 16 of the reference transformer, the first measuring device 3 is connected in parallel to the secondary winding 21 of the measuring transformer, the middle point of the primary winding 20 of which is connected to the second terminal of the source 2 of the measuring voltage, the first terminal of which is connected to the beginning of the measuring winding 13 of the controlling transformer.

The drawing also shows the first 22 and second 23 adjustment switches, the first 24 and second 25 measuring switches, controlled 26 and reference 27 rods.

The device works as follows.

At the first stage, the adjustment of the air gap is made. For this, the first 22 and second 23 adjustment switches are closed and the first 24 and second 25 measurement switches are opened. If the bridge formed by the two halves of the secondary winding of the adjusting transformer 4 and the adjusting windings of the controlling I and reference 5 transformers is unbalanced, which indicates the inequality of the magnetic conductivities of the reference and controlled air gaps, the air gap adjustment mechanism 11 balances the bridge.

The balance is indicated by the zero readings of the second measuring device 8, included in the diagonal of the bridge.

At the second stage, the first 22 and second 23 adjustment switches are opened and the first 24 and second 25 measurement switches are closed.

In this case, the currents flowing from the source 2 of the measuring voltage on the measuring windings controlling

1 and the reference 5 transformers are equal if the resistances of the controlled 26 and reference 27 rods are equal to each other. These currents, which flowed out of phase through the first and second halves of the primary winding 20 of the measuring transformer, compensate each other and the first measuring instrument indicates zero. The deviation of his testimony from zero characterizes the degree of difference between the resistance of the controlled rod and the reference one.

Claims (2)

Invention Formula A device for monitoring rods of short-circuited windings of rotors of asynchronous motors, comprising a monitoring transformer, a measuring voltage source, a first measuring device, and the beginning of a measuring winding of a monitoring transformer, connected to the first terminal of the measuring voltage source, in order to increase the reliability of the monitoring results, a reference transformer, an adjustment transformer, a reference rotor, a source of adjustment voltage, a second and measuring instrument and measuring transformer, with the beginning of the measuring winding of the reference transformer connected to the beginning of the primary winding of the measuring transformer, the end of which is connected to the end of the measuring winding of the controlling transformer, the beginning of the adjusting winding of which is connected to the end of the adjusting winding of the reference transformer and the first output of the second measuring instrument, second the output of which is connected to the middle point of the secondary winding of the regulating transformer, beginning lo which is connected with the beginning of the reference transformer regulating winding, and the end - the end of controlling the regulating winding of the transformer, the beginning of which the measuring coil is connected to the measurable end the reference winding of the reference transformer, the first measuring device is connected parallel to the secondary winding of the measuring transformer, the middle point of the primary winding of which is connected to the second output of the measuring voltage source. 2. A device according to claim 1, characterized in that the control transformer is provided with an air gap adjustment mechanism.