SU843093A1 - Device for automatic adjusting of arc-extinguishing reactor with variable air gap - Google Patents

Description

(54), DEVICE FOR AUTOMATIC ADJUSTMENT OF ARC REJECTOR WITH ADJUSTABLE AIR GAP

The invention relates to electrical engineering, in particular, to devices for automatically controlling compensation current in compensated electrical networks with a voltage of 6-35 kV, and can be used in substations of distribution networks and power stations with a consumer on generator voltage buses. Compensation current in electrical networks is created using arc suppression reactors (DGR) connected between the ground and the zero point of the supply transformer of the network. To regulate it, controlled DGR with bias or with an adjustable air gap (plunger DGR) are provided, the inductance of which can be changed manually or automatically using appropriate devices. Influencing the inductance of the DSGR, it is possible to adjust the compensation current and to ensure optimal conditions for the network to work in a ground-to-ground mode. The DGR is tuned in a mode prior to a ground fault, according to the conditions of equality or a given mismatch inductance of the DGR Xj, and the total capacitive network resistance X The need for automatic adjustment of the compensation current is dictated by the impossibility of ensuring optimum when it is manually adjusted, since the network parameters do not remain constant yy. Known devices that are designed to work with plunger DGR, which perform the task of automatically adjusting these DGR, regulate the compensation current in the mode preceding the closure on the ground according to the phase or extreme law and satisfy the basic requirements imposed on them. ) provide tuning DGR in resonance with the network (resonant tuning) by the condition L | Xj 1, However, with a significant asymmetry of the network capacitances, the voltage on the neutral in the resonant mode may be higher than the allowable one and then it is necessary to tune the network with a forced deviation from the resonance (i. With the aim of forcibly reducing the voltage.

These devices provide only an unambiguous DGR setting — resonant and in the specified mode, either are removed from operation, or require system restructuring with the assistance of specially trained personnel.

The closest to the proposed technical entity is a device for automatic control of an arc-suppressed reactor with an adjustable air gap containing serially connected measuring voltages, the input of which is intended to be connected to a neutral voltage, a relaxer, a trigger, an inertial element and an actuating unit, as well as a choke , the control input of which is connected to the trigger output 2.

The indicated device provides the setting of the arc suppressing reactor according to the condition (resonant tuning), where X | - inductive resistance of an arc-suppressing reactor, Xs - capacitive resistance of the network.

The disadvantage of this device is the insufficient tuning quality, which consists in the fact that it tunes the reactor uniquely, i.e. only in resonance with the network, and cannot change the setting automatically when the voltage on the neutral rises above the specified one. In this connection, a special blocking under this condition takes the device out of operation, which leads to the lack of control of the DGR setting, in this mode and increases the likelihood of an unacceptable detuning of the adjustable loop when the network conditions change.

The purpose of the invention is to increase the efficiency of regulation.

This goal is achieved by the fact that a device for automatically adjusting an arc-suppressing reactor with an adjustable air gap, containing series-connected network neutral voltage meter, relaxer, trigger, inertial element connected to the first input of the actuating unit, and a choke, the control input of which is connected to trigger output, dr. fully supplied with a threshold element, the input of which is connected to the output of the voltage meter, and the output - with the second input of the external unit.

FIG. 1 shows a block diagram of the proposed device; in fig. 2 is a resonant characteristic of the network over which the DGR is tuned.

The device contains a voltage meter 1 connected in series, a relaxer 2, a trigger 3 assembled according to a counting circuit, an inertial element 4 and an execution unit 5, the output of which is intended to be connected to the control unit 6 of the arc extinguishing reactor 7. In series with the winding of the arc emitting reactor 7 is turned on the choke 8, the control input of which is connected to the output of the trigger 3. . The output of the voltage meter 1 is connected to the neutral voltage. To the output of the voltage meter 1 is connected the input of the threshold element 9, the output of which is connected to the second input of the performing element 5.

The device works as follows.

The device, using a voltage meter 1, measures the neutral voltage and converts it with the help of relaxer 2 and trigger 3 into an alternating test signal with a variable period, functionally dependent on the magnitude and sign, the derivative of the resonance characteristic. The device has two circuits: a measuring one, within which the test signal is realized with the help of throttles 8 into the search oscillations of the neutral voltage, necessary for estimating the value of the derivative, and the working circuit, within which with the help of the inertial element 4, the value of the derivative is estimated and the execution unit 5 is formed the control signal issued to the controlled object circuit to the control unit 6 of the arc-suppressing reactor 7. The circuit provides for averaging the test signal using the inertial element -4 the transfer of the averaged signal to the executive part of the circuit. According to the principle of operation, the average value of the test signal is proportional to the derivative of the resonance characteristic. Accordingly, the input of the executive unit 5 receives a signal equivalent to the derivative of the resonance characteristic, the positive and negative values of which determine the undercompensation and overcompensation modes, and the zero mode - the resonant mode (Fig. 2).

Executive unit 5 is a three-position zero organ with several measurement inputs and relay output signals More and Less, outputted to an external circuit depending on the sign of the deviation of the sum of the input signals from the cules. Accordingly, when the derivative of the resonant characteristic deviates from zero, a signal appears at the output of the inertial element 4, and the control circuit 6 for the control element 6 receives control signals that allow the change of the inductance of the CGR in the appropriate direction until the deviation is eliminated and the output of the inertial element is set 4 signals (which corresponds to the resonant tuning of the GDR.

Thus, the device normally controls the deviation from resonance

Claims (1)

Claim A device for automatically setting an extinguishing reactor with an adjustable air gap, containing a network neutral voltage meter, a relaxer, a trigger, an inertial element connected to the first input of the actuating unit and a choke, the control input of which is connected to the trigger output, characterized in that, for the purpose of to increase regulation efficiency, a threshold element is introduced into it, the input of which is connected to the output of the voltage meter, and the output to the second input of the executive unit .