DE360739C - Protection circuit for line networks with more than two parallel line branches - Google Patents

Description

GERMAN EMPIRE

ISSUED
ON OCTOBER 6, 1922

REICH PATENT OFFICE

PATENT LETTERING

- JVl 360739 CLASS 21 c GROUP 57

'· (B gi481 VIIIj'sie *)

Bergmann Electricitäts-Werke, Akt-Ges. in Berlin.

Protective circuit for line networks with more than two parallel line branches. Patented in the German Empire on November 6, 1919.

The invention relates to a protective circuit

for line networks with more than two parallel line branches through which are reached should that when a fault occurs within one of these branches only the affected line branch is switched off, while the other line branches remain unchanged stay in the company. It is particularly suitable for three-phase networks and is based on the fact that the shadows at the

06Θ730

Ends of the individual branches in a known manner under the influence of the Sum of the currents of all phases, so that tripping can only take place when the ordinary equilibrium is disturbed. Such an arrangement would now but do not respond immediately when a short-circuit current occurs; because by the short-circuit current is a disturbance of the equilibrium at the ends with the same formation of the different phases the branch lines are not brought about because in the lines affected by the short circuit in each case the same and oppositely directed components of the short-circuit current run, the The effects on the circuits of the trip relay cancel each other out. The desired However, influencing can be achieved if, according to the invention, resistors are switched on at the ends of the branch lines and the total resistance value of which makes the same for all phases in each branch line, but makes the distribution on selects the two ends of the branch line differently for each phase. Because in this case the components of the short-circuit current acting on the same relay circuit of different sizes and have a disturbance of the equilibrium in that circuit Episode.

In the drawing, the application of the circuit for a three-phase network is shown as an exemplary embodiment. a _v a ₂ are two line sections that are connected by parallel branch sections b _lt b _{2 and so on.} At the ends of the parallel branches there are switches c, which can be triggered automatically by relay d. These relays d are fed by the secondary windings & from current transformers connected in series, the primary windings f of which are connected to the ends of the line sections in the individual phase lines. In the individual sections J ₁ , b _z there are also choke coils g, the inductance of which is the same for the various phases, but which are unevenly distributed over the line ends. So in phase I the whole choke coil is at one end, in phase III at the other end, and in phase II there is a choke coil half the size at each end.

In the arrangement made flows into the circuit of the relay d in each case; Current which corresponds to the sum of the currents flowing in the entire phases at the relevant end of the route. In undisturbed operation, this current is equal to 0 and the relay is in its rest position. However, if within one of: parallel line routes interference from earth or short circuit, so has this [because of the special ungleichmäßigeu rejuvenation division of the reactors for the various

Phases result in a current flowing in the relay circuit. This current is greatest in those relays that are assigned to the disturbed branch line, since this is where the deviation from the normal operating state is most clearly expressed. If the tripping time is made dependent on the strength of the relay current, then the switches c in the disturbed branch line, for example O ₁ , initially fall out. This switches off the fault point and the overcurrent stops so that the other switches do not trip. Of course, nothing is changed in the invention by the fact that the lines a _v Ct ₅ , in turn, also consist of a plurality of parallel line branches, which can then optionally be designed in the same way as the line branches S ₁ , δ ₂ . However, the invention is primarily intended for those cases in which a large number of relatively short branch lines are connected in parallel at individual points in the network.

Claims (1)

Patent claim: Protection circuit for line networks with more than two parallel line branches to limit the fault area to the disturbed line section, in which the switches at the ends of the branch lines are under the influence of the sum of the currents of all phases at the relevant line ends, characterized in that at the ends of the Branch lines (O ₁ , b ₂ ) resistors (g) lie whose total resistance value in each branch line (b _v δ ₂ ) is the same for all phases, while the distribution over the two ends of the branch line (b _v b ₂ ) for each phase another is. 1 sheet of drawings. "