SU1023497A1 - Electric plant differential protection device - Google Patents

Abstract

1. DEVICE FOR DIFFERENTIAL ELECTRICAL INSTALLATION PROTECTION, containing three resistors, serially connected windings of current sensors of supply and feed connections, the common output of which is connected to one of two terminals of each of four reacting organs, functionally connected through an logical part to an output organ, characterized in that , in order to increase the operational reliability of the network by implementing automatic monitoring of the operability of the coils of current sensors connected in series, extreme conclusions Latter are connected to input terminals again vvedenyogo signaling body and tayuke separately connected to two vertices of the triangle in which the three resistors are connected, and a second paired-input terminals of said four reactive bodies, the first input terminals of which are connected to the third vertex of the triangle. 2. The device according to claim 1, about tl and which is so. that the outputs (L of the four reacting bodies are connected in pairs to the inputs of two OR-NOT elements connected by their outputs with the inputs of the AND-NO and OR elements, and the outputs of the latter are connected to the inputs of the element I.

Description

The invention relates to electrical engineering and can be used for the differential protection of electrical installations for alternating current.

A device for differential protection of sections of the DC network, comprising current sensors, a rectifying bridge, to the output of which three resistors, connected by a star, is known, is connected to one of the resistors, the control electrode of the thyristor used as a reacting organ L 1

However, this device is used in direct current networks and cannot be used in alternating current networks. This is due to the fact that in the latter case, an alternating current would flow through a resistor to which the thyristor control electrode is connected, and the thyristor would operate only with a delay of half the period.

The closest to the present invention is a device for differential protection of an electrical installation, containing series-connected windings of current sensors of supply and supply connections connected by extreme leads to the input terminals of a rectifying bridge, the output of which includes three resistors connected by a star, one of the vertices of the latter is connected to a common terminal windings of current sensors supplying and powered connections, as well as four reacting body, the outputs of which through the logical part of the functionally connect with output body C 2.

However, this device is characterized by inadequate operational reliability, which is caused by the lack of monitoring in it of the operability of the output windings of current sensors.

The aim of the invention is to improve the operational reliability of the device by automatically monitoring the health of the output windings of the current sensors.

The goal is achieved by the fact that in the device the extreme leads of the current windings of the current sensors connected in series are connected to the input terminals of the newly introduced signaling organ, and also separately connected to two vertices of the triangle, to which three resistors are connected, and to the second connected pairs

the input terminals of the four reacting bodies, the first input terminals of which are connected to the third vertex of the triangle.

Moreover, the outputs of the four reacting bodies are connected in pairs to the inputs of two OR-NOT elements, connected by their outputs to the inputs of the AND-NOT elements and OR, and the outputs of the latter are connected to the inputs of the element I.

FIG. 1Q is a diagram of the proposed device; in fig. Id,, 2.9 are the device replacement schemes explaining its operation.

The device contains-current sensors supplying 1 and powered 2 connections, three resistors 3, and 5, connected by a triangle, four reacting organs, two of which 6 and 7 operate at a negative polarity of the voltages U (fj,., And the other two and 9 when positive (shown by arrows in Fig. 1a), the logical part (two elements OR 10 and 11, the element AND NOT 12, the element OR 13 and the element AND 1, the output body 15 and the alarm body 16.

The principle of the device is that as the information signals for the logical part of the protection, the voltages formed on the resistors 3 and 5 are used, the algorithm for generating these voltages depends on the operating mode of the protected installation.

The expressions in the table, as well as those shown in FIG. 1b, -b, d, (3 replacement circuits allow us to understand the operation of the proposed device. Expressions for voltages, 0 .., used as output signals for reacting organs 6,7, 8 and 9, are obtained under the condition that the resistors 3 are equal and 5.

Assuming that the response of the reacting organ is logical 1, and its non-activation by logical O at the outputs of the reacting organs 6, 7 8 and 9, the corresponding information is formed (see the table) and the input to the logical part of the device. The logical part allows for the identification of internal ones. Short circuit and provides a failure of the device in case of breakage of the windings of current sensors.

It should be noted that the use of four reacting causes is 31023 97. four

It provides better processing. The proposed device for a formation correctly formed on resistors functions in all protection modes 3, and S, which ensures the correct electrical installation, does not work for the functional part of the logical part.

For the detuning of false alarms, 5 signaling bodies in transient conditions of the short-circuit provide an exposure

time at its output 1 - 2 s.

when the windings of the current sensors are broken, it allows to detect the indicated damage by means of the signaling organ. This causes an increase in the operational reliability of the device.

but

Claims (2)

1. DEVICE FOR DIFFERENTIAL PROTECTION OF ELECTRICAL INSTALLATION, containing three resistors connected in series to the windings of the current sensors of the supply and feed connections, the common output of which is connected to one of two terminals of each of the four reacting organs, functionally connected through the logic part to the output organ, characterized in that, in order to increase operational reliability by automatically monitoring the serviceability of current sensors connected in series, the extreme conclusions of the latter they are connected to the input terminals of the newly introduced signaling organ, and are also separately connected to the two vertices of the triangle into which three resistors are connected, and to the second connected pair-input terminals of the four reacting organs, the first input terminals of which are connected to the third vertex of the triangle. 2. The device according to p. 1, about t l and - g is that ,. that the outputs of the four reacting organs are pairwise connected to the inputs of two OR-NOT elements connected by their outputs to the inputs of the AND-NOT and OR elements, and the outputs of the latter are connected to the inputs of the AND element. ZbWW'TiS