SU884033A1 - Synchronism check relay - Google Patents

Description

(54) RELAY CONTROL SYNCHRONISM

Claims (2)

The invention relates to electrical engineering, and in particular to relay switching and linear automation of power systems. Synchronization control relays are known, containing two windings with additional resistors, each of which is turned on for the voltage of synchronized objects. The relay responds to a geometric difference in voltage proportional to the shear angle between them. The relay has a maximum setting for the angle of shift to 40, and it is required to act upon the disappearance of any of the supplied voltages in order to prevent the switch between the synchronized objects to open in the absence of voltage mode on one of them, for example, in the case of an unresolved short circuit The disadvantage of this synchronization relay is a small value of the trigger angle. The closest technical solution to the proposed one is a synchronism control relay, in which the resistances of resistors connected in series with the windings are increased, due to which the maximum value of the angle of operation can be increased to 70-75 2. However, the relay fails when one of the voltages disappears, which limits its functionality. The purpose of the invention is to expand the functionality of the relay. This goal is achieved by the fact that the synchronism control relay, containing two windings with series-connected resistors and four terminals intended for connection to synchronized voltages, is equipped with two half-wave rectifiers, each of which contains a bottom, a ballast resistor and a smoothing capacitor, the cathode 38 of the diode is connected to the first common point of the parallel-connected smoothing capacitor and the ballast resistor, their second common points are interconnected and connected to two terminals The anodes of the diodes are connected to two other terminals, between which the first winding with a resistor is connected, and the second winding with a resistor is connected between the cathodes of the diodes. FIG. 1 shows a diagram of a known device; in fig. 2 - electrical circuit diagram of the proposed relay. The circuit contains an anode of diode I connected to input 2 of the relay, the cathode of which is connected to the common point of the ballast resistor 3 and smoothing capacitor 4. The anode of the other diode 5 is connected to the input 6 of the relay, and its cathode to the common point of the ballast resistor 7 and smoothing capacitor 8. Other common points of resistors 3 and 7 and capacitors 4 and 8 are combined with other inputs of relay 9 and 10. Winding 1.1 of the relay together with resistor 12 connected in series is connected between the diodes anodes, and winding 13 together with resistor 14 between the cathodes diodes. The relay works as follows. Equal voltages from the objects to be synchronized are fed to the relay and, through the winding 11, a current flows directly proportional to the geometric difference of voltages and proportional to the angle of shift between them. With a known magnetizing actuation force of the relay, the resistance value of the resistor 12 is chosen such that the relay operates at a given angle between the voltages. Since winding 13 is turned on between two equipotential points of half-wave rectifiers, there is no current in it and the relay is activated under the influence of current in one winding 11. When any of the voltages disappears, the relay operates under the influence of direct current flowing in winding 13 from constant voltage of one half-wave rectifier. The current from the rectifier flows through the winding 13, the resistor 14 and one of the resistors 3 or 7. For the operation of the proposed relay, an electrical connection between the supplied voltages is not required. In those cases where the direct connection of melodies with voltage sources and. and, it is not possible, an isolation transformer is used, which can also be used in cases where the voltage U and 0 have a different value. The operability of the proposed relay and the effect achieved are tested in laboratory conditions on a PH-55/200 relay with two windings per 100 V. The response voltage at the maximum setting of winding 11 by increasing the additional resistance 12 is brought to 110 V, which corresponds to the trigger angle 70 . In the second winding, the operation voltage (together with the resistor 14 remains unchanged and is about 70 V. The use of the proposed relay allows it to work reliably at angles between voltages up to 70-80, as well as when one of the voltages disappears. Claims of the synchronism control relay, containing two windings with resistors connected in series and four terminals for connection to synchronized voltages, characterized in that, in order to expand the functionality, it Bzheno two half-wave rectifiers, each of which contains a diode, a ballast resistor and a smoothing capacitor, the cathode of the diode connected to the first common point connected parallel to the smoothing sensor and ballast resistor, their second common points are connected to each other and connected to two terminals, the anodes of the diodes connected to two other terminals, between which the first winding with a resistor is connected, and the second winding with a resistor is connected between the cathodes of the diodes. Sources of information taken into account in the examination 1. Barzam AB System automation. M. Energie, 1973, p. 277. 2 Kakuevitsky LI, Smirnova T.V. Reference relay protection and automation. M., Energie, 1972; with. 145.