SU680079A1 - Indicator showing presence or absence of current in a line phase - Google Patents

Description

The present invention relates to the field of relay protection and linear automation by electrical engineering and can be used, for example, in single-phase automatic line re-energizing devices (OAPVs) and backup devices in case of breaker failure (breaker failure protection).

Devices are known based on measurable current or voltage relays, for example, a voltage relay, in which the compensation is made proportional to the voltage naneHsoo on any object l.

This device requires the implementation of additional transformers or current transrbactors with elements of shear in the phase and does not provide a return when the operating current value is lost.

The closest in technical essence and the achieved result to the proposed invention is the device of the electromagnetic control relay thin in the phase of the transmission line, described in 2.

In this relay, the currents, proportional to the working and compensating magnitude, flow in separate windings located on a common magnetic circuit, in which the magnetic flux is proportional to the geometric sum of the magnetized forces of the individual windings. A movable relay switch triggers when the magnetic flux reaches the response values.

The disadvantage of the prior art device, where the capacitive current of the phase is compensated is insufficient sensitivity, which is explained as follows.

Claims (2)

When using the organ of current in the above mentioned devices, OLPP and. LEVER, it is necessary to ensure its reliable return both during the flow in the phase of capacitive current only, which can reach (15-25) and with the complete shutdown of the controlled phase, and, at the same time, ensure reliable operation of the organ at a current of damage that does not exceed in some modes (5-7)% Shr. When the controlled phase is completely disconnected at the relay installation site, the main voltage transformer may remain under voltage, for example, if it is on the object buses or if it is on a line that is connected from the opposite end. At the same time, an uncompensated current, proportional to the capacitive current of the line, remains at the input of the measuring element, and at the aforementioned required setpoint (T) barely (5–7)% Sco, it does not return in the indicated mode. To ensure the return, it is necessary to increase the set several times, and in this case HyB connectivity and proper compensation are not provided, the 1st to 4 capacitive current almost loses meaning. To eliminate this shortcoming, the known device contained a current transformer to which the secondary winding is connected to the main input measuring organ and the output of the compensation current shaping unit, the input of which is connected to the secondary winding of a voltage transformer, is equipped with a logic element And avum resistors additional measuring unit, the input of which with a parallel-connected first resistor is connected in parallel with the current transformer winding, the second resistor is connected to it, and the output of the additional measuring unit is connected to one of the inputs of the logic element and the other input is connected to the output of the main measuring unit . The block diagram of the proposed device is shown in the drawing / where the monitored phase current is transformed, its voltage is transformed by an intermediate current transformer 1, and an intermediate voltage transformer 2, the output of which includes the compensation current shaping unit 3, the main body 4 is switched on the difference of the phase current and compensation current, an additional measuring element 5, which is bridged by a resistor 6, is connected to the secondary winding of the current transformer, the main measuring element 4 is connected to the current transformer Erez resistor 7, and the outputs of the two measuring elements are connected to the output devices via the AND gate 8. The proposed indicator operates as follows. When npOTreKiiHHH in the controlled phase of the power transmission line of the resultant current, both measuring organs of the organ 4 are triggered by the influence of the geometric difference of the line phase current and its capacitive TOJca, and organ 5 under the action of the total phase current When the phase from the opposite end of the line is disconnected only capacitive current flows, which is fully compensated at the input of the measuring element 4, ensuring the return of the device as a whole. When the monitored phase of the line is disconnected at the installation site, if it remains switched on from the opposite end, the input measurement of the main measuring unit 4 has an inertial impedance value proportional to the capacitive current of the line, which does not ensure its return. The input voltage of the measuring body 4 with a division factor equal to the ratio of the resulting resistance at the input of the measuring body 6 and the resistor 7 is fed to the input of the measuring body 5. With an appropriate choice of the ratio of the specified resultant resistance and resistor 7, the voltage at the input of the body 5 in this mode will not be lower the level of its return, which will ensure the return of it and the device as a whole. To provide the required operating current of the device as a whole, taking into account the resistances 6 and 7, the response level of the measuring bodies 4 and 5 is chosen. It should be noted that in order to more fully compensate for the capacitive current on high voltage lines, for which a noticeable content of higher harmonics in the voltage is typical during the repair of the SRI, at the input of the main measuring element, it is advisable to include a low-pass filter, which does not change the structure of the proposed device. Transformer current 1 can be made with an air gap in the heart, which is taken into account when choosing elements 6 and 7, which can be active, reactive or impedance. The application of the proposed device allows to increase the sensitivity when monitoring the current in the phase of the power line, which increases the reliability of the linear automation devices and, as a result, increases the reliability of the power systems. The invention The indicator of the presence or absence of current in the phase of an AC power line, containing a current transformer, to the secondary winding of which the input of the main measuring element is connected and the output of the junction current shaping unit, the input of which is connected to the secondary winding of the voltage transformer, characterized in that the purpose of increasing the sensitivity, it is equipped with a logic element And, two resistors and an additional measuring unit, the input of which is connected in parallel with the first a resistor is connected in parallel to the secondary winding ke of the current transformer, in series with which the second resistor is connected, and the input of the additional measuring orgene is connected to one of the inputs of the logical element I, the other input of which is connected to the output of the main measuring element. Sources of information taken into account in the examination 1, USSR Author's Certificate No. 394О4, cl. On 29 Nov 19/00, 1953. 2. USSR author's certificate number ZO9408, cl. H 01 H 51/12, 19GO. OO Och about