DE418176C - Device for protection against overvoltage waves for electrical overhead lines - Google Patents

Description

The overhead power distribution networks have recently huge expansions and high voltages assumed.

Such lines are already built for a voltage of up to 200,000 volts.

In these nets, the much-feared harmful side effects, such as overvoltages, caused by atmospheric Influences as well as wanderings on which, depending on the cause and circumstances, can assume a multiple of the regular operating voltage of the mains current and thereby seriously endangering the operational safety of such large networks.

The currently most common protective measures against these phenomena are Reactors, connection of capacitance, electrical capacitors, including especially recently the corona protection, furthermore suitable protective earths using coordinated ones Ohmic resistances.

These protective precautions were taken for the extra high voltage lines listed at the beginning so far only in the power stations and in the substations themselves housed and require a great deal of equipment and structural facilities there.

This leached the overvoltage emanating from any point in the network, depending on the the value of the ohmic opposite to it. Line resistance, up to this Works itself into it and could still cause great damage to equipment and malfunctions cause.

Protective reactors are now in overhead line networks, e.g. B. when transitioning from overhead line in underground cables and in cable entries at transformer stations, known per se, but these are only for voltages common up to about 20,000 volts.

The purpose of the present invention is the arrangement of an overhead line protective inductor for use in extra-high voltage overhead line networks, in a suitable assembly with the iron masts to the dampening effect against the described To achieve phenomena simultaneously through induction and capacitance.

The choke coil includes the iron mast shaft as the coil core

a, whereby the inductance of the coil is strongly influenced. At the same time provides the grounded The iron mass of the mast still has a large capacity connected in parallel to the line Earth.

On the drawing, Fig. Ι represents an embodiment the arrangement of the choke coil. the lower traverse of a line pole, Fig. 2 a top view. same

ίο and Fig. 3 show the circuit diagram of such a series of inductors. α in Fig. 1 is the inductor that surrounds the mast shaft b as an iron core. It is attached to the mast by means of the cross members c and d using the known suspension insulators e. The latter are rigidly connected to one another by suitable screw connections in order to prevent the choke coil from swinging out in the event of wind. The individual coil turns are also held by similar insulators. The reactor bobbin is connected to the overhead line through the line loops h and g, which are clamped at k and / to the tensioning clamp »I of the insulator chains m and /.

Fig.i.

As the circuit diagram in Fig. 3 shows, the choke coils are connected to the arranged on the other successive iron masts, so that each coil is a separate mast as Iron core receives.

A well-known grounding cable ο on the one hand and the grounding of the masts on the other hand also achieve a good iron connection between the coil cores and increase the capacitance connected to earth parallel to the line.

Claims (2)

Patent Claims: 1. Device for protection against overvoltage waves for electrical overhead lines, idadurdh characterized in that a choke coil (a) through which the current flowing in the overhead line flows is arranged around the mast shaft (b) . 2. Device according to claim 1, characterized in that with the Protective choke provided with different masts through a metallic conductor (o) connected to each other and the masts are earthed. Fig. 2.