SU119578A1 - Device for balanced current protection of parallel electric lines - Google Patents

Description

The proposed protection is based on the use of zero-sequence currents that occur when a wire breaks before it falls to the ground.

To do this, it is made on balanced current zero-sequence relays with operating and brake windings. The essence of the invention lies in the fact that, in order to ensure the selectivity of protection in case of phase breaks followed by unilateral grounding of the breaking wire, additional brake current windings are used in balanced relays connected to the zero-sequence current circuit and, accordingly, parallel (adjacent) line , creating a braking moment of the difference of the currents of the two phases of the protected lii.

FIG. 1 shows the conventional scheme of two parallel lines (nepei); in fig. 2 and 3 - switching circuits of the windings of the balanced relays are protected by two parallel lines (circuits); in fig. 4 - part of the circuit of operational current circuits.

The magnitude of the zero-sequence current / at interruption depends on the load current of the line (/) and is approximately:

The distribution of this current over both chains} and 2 (Fig. 1) is determined by the ratio:

2 current 3 4 whole lines x (, 2)

/ 1current 3 4 dangling lines + +

where hs and x are the zero-sequence resistances of a system from both heights of a given line, x0 is the same one circuit (line) of the system, and (x 2 is the same resistance of mutual induction of parallel lines.

In this direction, the gokov in both lines are almost opposite.

1.3-1.5

N 119578 In the event of a sufficient difference of these currents and of sufficient magnitude, they can be used to detect and disconnect a broken line with a balanced zero-sequence relay with the described winding on.

The switching circuit of the relay coils is shown in FIG. 2 and 3, where it is shown: L, C - secondary values of current transformers of parallel line 1; AZ, B-, MF is the same other line 2; РЬ Г), and РЗ, 2, Тd-i operating, brake and additional brake windings of the balance relay of zero sequence of two protected parallel lines (respectively I and 2), included in the secondary circuits of current transformers of these lines. Each additional brake winding consists of two half sections, included in the difference of the currents of the two phases of the same line.

Since both substations mean transformers with grounded neutrals, even with an unfavorable ratio of parameters, the balanced relay system of the whole line will not be able to operate due to feeding the damaged line from its transformer.

The retaining element is an additional brake winding G and G 2 -turned on the difference of the currents of the two phases to obtain additional braking against unbalances during interphase short circuits, which is simpler than interlocking during short circuits.

In order to provide braking during short circuits behind transformers with a winding connection, a different number of turns for phases L and C is adopted according to the star-delta scheme.

The protection shuts off the line in the event of a break, i.e., before a short circuit occurs.

With automatic reclosing (AR), this circuit cannot detect a break, since the wire lies on the ground. Therefore, in the presence of auto-reclosing on the line, it becomes necessary to distinguish between tripping on an open circuit and disconnecting on short circuits x.

For this purpose, a current relay T and an intermediate relay R {Fig. four). The current relay T and. Has two windings, included1Pz e for the sum of the currents of zero continuity of both lines. Being rebuilt from the load current of the break and having a small ustazku, it acts when closed to the ground and distinguishes the latter from the break. If this relay does not work, then the operating current to the balanced relays is zero solenoid 5z1 and s2 is connected through an intermediate relay / 7, prohibiting the automatic reclosure. The positions BI and BZ designate balanced short circuit protection relays on lines 1 and 2, without a description of their operation, since they are included in a typical circuit.

Such protection is sufficient to apply only at one end of the line — where it is more convenient and better, since opening the switch at only one end of the line already eliminates the non-selective action of transverse protection in the event of a break.

Protection should work reliably even if the wires on both sides of the cliff are not falling simultaneously.

Subject invention

Device for balanced current protection of parallel electric lines, containing balanced current relays of zero sequence with operating and brake windings, characterized in that, in order to clarify the selectivity of protection during phase breaks with subsequent unilateral grounding of the broken wire, the specified brake relays use additional brake current windings , creating in the relay the braking moment from the difference of the currents of the two phases of the protected line.