SU1688201A1 - The electrical generator stator winding insulation tester - Google Patents

Abstract

The invention relates to a relay protection technique and can be used to control and protect the stator winding insulation of an electric machine. The purpose of the invention is to increase the sensitivity and simplify the device by eliminating the influence of cable capacity and eliminating the rotor position control unit. The goal is achieved by the fact that the device containing the three-phase network terminals 1-3, the load switch 4, the inductor 7, Liltr 8, the threshold element E and the three capacitors 10 included in the blocking filter 5 are entered into three reactors 11, each of which connected in parallel to one of the capacitors 11). The electric train 6, being the object of control, simultaneously performs the functions of a source of test voltage. 1 il. i (L

Description

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The invention relates to a relay protection technique and may be used to monitor and protect the stator winding of an electric machine.

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The purpose of the invention is to increase sensitivity and simplify the device by eliminating the rotor position control unit and eliminating the influence of the power cable capacity.

The drawing shows a diagram of the device.

The device contains terminals 1-3 of a three-phase network connected through a load switch k connected in series and a stop filter 5 to the corresponding power terminals of the electric machine 6, connected in series inductor 7, filter 8 and threshold element 9, the output of which is connected to the control input of the load switch C fencing filter 5 contains three parallel resonant circuits formed by capacitors 10 and reactors 11.

The device works as follows.

In the idle mode of the load (the load switch k is turned on), the normal and higher harmonic components of the EMF (one of the highest harmonics and is taken as operational) are induced in the turns of the windings of the motor-6 electric machine 6. The resistance of the blocking filter 5 for all harmonics, except operational, is zero, and they circulate freely in the power network and, consequently, in the stator winding of the electric machine 6.

For the operative component, the resistance increases sharply and its current in the stator winding of the electric machine 6 is practically zero. Therefore, the signal at the outputs of the filter 8 and the threshold element 9 is missing.

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When the insulation resistance decreases, between the turns of the same or different phases of the electric machine 6 contours occur, along which leakage currents flow. They present and current operational harmonics. Consequently, at the input of the inductor 7 in terms of Vits, there is an operational EMF, which is separated in the filter 8. If this EMF exceeds the setpoint, then the threshold element 9 will disconnect the electric machine 6 from the network, which induces a malfunction.

Thus, due to the elimination of the control unit of the rotor position, the comparator unit, the power supply unit, the generator and due to the use of the control object as the source of the operational EMF, a significant simplification of the device was achieved. Due to the fact that there is no need to take into account the capacity of the power cable, the device has a higher sensitivity.

Claims (1)

Invention Formula A device for insulating the stator winding of an electric generator, containing a series-connected filter, a threshold element and a switch-disconnector, as well as an inductor, three capacitors, and three mains; terminals and three terminals for connecting the test object, and the network terminals are connected to the corresponding three network inputs of the load switch, the first terminals of the capacitors are connected to the corresponding terminals for connecting the test object, characterized in that, in order to increase the sensitivity and simplify the device, three reactor, each of which is connected in parallel to the corresponding capacitor, the second terminals of which are connected to the corresponding network outputs of the load switch, and the output ind The detector is connected to the filter inlet.