SU859969A1 - Device for testing electric machine station windings - Google Patents

Description

The invention relates to monitoring and measuring equipment and can be used for detecting interturn and interphase closures in the stator windings section of electric machines, and a device for monitoring interwipe clutches in the windings of stator, containing: an electromagnet, a signal node enclosed in a common housing. The winding of the electromagnet through the breaker and the terminals are connected to the battery l. The disadvantage of this device is a long monitoring time. The closest in technical essence to the present invention is a device containing a magnetic core with two mutually perpendicular windings, alternating voltage sources and an oscilloscope 21. The disadvantage of this device is low reliability for a considerable time of control. The purpose of the hinge is to replenish the reliability and time of control. The goal is to ensure that a known device, containing a uiee magnet with two mutually perpendicular windings placed inside the monitored stator, an alternating voltage source and an oscilloscope, introduces a phasing detector and two complex resistances, with one winding of the magnetoprode connected to the source alternating voltage in series with one complex resistance, and the other winding of the magnetic circuit in series with the second complex resistance and to the output of the phase shifter, the input of which is connected to an alternating voltage source, wherein each pair of deflection plates connected schnh oscilloscope pargshlelio magnntoprovoda one of the windings. On fng. 1 shows a schematic diagram of the device; in fig. 2 mutual arrangement of the magnetic windings; FIG. 3 shows an oscillogram, in accordance with the operation of the device. The device contains magnetic core 1 with mutually perpendicular Winding 2 and 3, complex resistance 4 and 5, phase shifter 6, oscilloscope 7, voltage 8 n 9 for under WiKi4eHHR alternating voltage source (not shown).

The device works as follows.

Phaser 6 creates a rotating magnetic field in windings 2 and 3, the vector of which is located perpendicular to the axis of the magnetic circuit 1. If there is a short-circuited coil in the controlled stator located on the magnetic conductor 1, a vector appears in the coil through the space covered by the short-closed coil the magnetic field of which leads to an increase in current in windings 2 and 3, which in turn causes an increase in the voltage drop on the complex resistances 4 and 5, and, consequently, a decrease in voltage and the windings 2 OF.

In the absence of short-circuited coils in the winding sections of the monitored stator, an ellipse is observed on the screen of the oscilloscope 7. In the particular case, if the amplitudes of the voltages on windings 2 and 3 are equal, and the phase shift between these voltages is 90, on the screen of the oscilloscope 7 is a circle. In the presence of short-circuited coils in the winding sections on the oscilloscope screen 7, there are emissions directed inside the circle, forming during the passage of the vector through the space covered by the short-circuited coil (Fig. 3).

The proposed device differs from the known ones in that when it is used, the positioning of the sensing element relative to the stator sections is simplified, which is especially important when monitoring the stator windings of micromachines, and also reduces the time required to surround the aamkyl metal. In addition, the device does not HMeet elements such as the breaker, which increases its reliability in operation.

Claims (2)

1.Paykin E.M. Maintenance and repair of electrical equipment for automobiles M., TransportCh 1978, p. 138-140. 2. The author's certificate of the USSR I 139367, cl. 6 01 R 33/02, 1960 (prototype),