SU586523A1 - Device for protecting electric motor against break of phase - Google Patents

Description

The invention relates to electrical engineering, in particular, to devices for protecting three-phase consumers from phase failure and can be used, for example, to protect three-phase electric motors from phase loss.

Similar devices are known in which two current transformers are used, connected according to the "incomplete star 1.2J" scheme. The closest analogue of the proposed device is a device containing three two-winding transformers connected to the current transformers installed in controlled phases, the secondary windings of which are connected to the same output of the implementing body through rectifying bridges and isolation diodes 3.

A disadvantage of the known device is that it does not provide a sufficient level of reliability, since they only respond to damage to those phases in which current transformers are installed.

The aim of the invention is to increase reliability. This goal is achieved by the fact that a transformer and RC filters according to the number of phases are additionally introduced into the device. The primary winding of the transformer has a midpoint and is connected to the sum of the currents of all the phases, and the secondary winding is connected via a rectifier bridge to another output of the reacting organ, the separating diodes are opposite in relation to the rectifier bridges, and between the common point of the anodes and the cathodes of each bridge included filters.

The device reacts to the absence of current in the phases, including the phase where the current transformer is not installed. In this case, the device responds to the vector sum of the currents in the return wire of the “incomplete star circuit.

Diagram of the device shown in the drawing.

The device contains two current transformers 1 and 2 connected to the monitored network, to the secondary winding of which three three-winding high-speed toroidal transformers 3, 4, 5 are connected, having an input current winding and an output voltage winding. The terminals from the current windings are connected to the two current windings of the fourth three-winding high-speed toroidal transformer 6, the secondary winding of which is also a voltage winding. Rectifier bridges 7-10 are connected to the voltage windings. In the circuits of transformers 3, 4, 5, dividing diodes 11, 12, 13 and RC filters 14, 15, 16 are connected via rectifying bridges 7, 8, 9. In the circuit between transformer 6 and diodes 11, 12, 13 a reacting organ is connected (electromagnetic relay 17).

In normal mode, voltages proportional to the currents in the phases appear at the output of transformers 3, 4, 5, and proportional to the sum of the currents of phases A and B at the output of transformer b.

The number of turns in the windings of transformers is chosen so that the potential of the rectifying bridge 10 is slightly less than the potentials of the bridges 7, 8, 9. Therefore, in normal mode, the diodes 11, 12, 13 are closed and the current through the relay 17 does not flow.

When the current in one of the phases disappears, the potential in the circuit of one of the transformers 3, 4, 5 disappears, the equilibrium of the potentials on one of the diodes I, 12, 13 is disturbed and a current appears in the relay circuit 17. When the current in phase A disappears, the current flows through diode I. When current disappears in phase C, current flows through diode 12.

When the current in phase B disappears, the current flows through diode 13, because a potential appears on transformer 3 proportional to the current of phase A, on transformer 4 — to current of phase C, on transformer 5 — proportional to the vector sum of the currents in the neutral wire , on transformer 6 - proportional to the double current of the phases.

The proposed device responds to the absence of current in any of the phases, and not to the short circuit current. Therefore, the device allows to exclude the outage of the submersible electric motor due to overheating during two-phase operation. Consequently, the turnaround time of the installations is increased, and severe difficultly avoidable accidents are excluded. Small size allows you to set

device in sushi, the control station of electric motors.

Claims (3)

1.Chernobrovov N. V. Relein protection. M., “Energie, 1974, p. 118. 2. USSR author's certificate №471636, cl. H 02 H 5/10, 1972. 3. Mikhailov V.V. Thyristors in emergency control devices. M., “Energie, 1968, p. 45.