DE488689C - Protection against thunderstorm disturbances - Google Patents

Description

Protective device against thunderstorm disturbances During thunderstorms, both in the high voltage networks as well as in the low voltage networks disturbances. The reason why these disturbances are so difficult to avoid is that they occur in both the main systems as well as in the connection systems. Even the water jets that were used earlier, only provide imperfect protection, as only through them Ring energies can be diverted, especially since they only exist in a few places and below certain control can be attached. If now also this water jet earth electrode mean a weak point in the network, they are not as protection points to be considered for the derivation of significant thunderstorm energies. One had it is used during thunderstorms to dissipate small charges, and at Turned off non-use, but in the end you avoided it altogether because you obtained no protection through them.

Now attempts have also been made to find weak points in the high-voltage networks to be installed in the vicinity of the central units, so that the disturbances in these are certain Places occur. But then these disturbances occur more often, and the network is usually weakened, and furthermore the more distant places are not protected.

It is not at all desirable to drive with weakened network points all the time, rather it will be important for the security of the network if the network normally has full insulation and dielectric strength and only temporarily the dielectric strength, depending on the respective conditions, at certain points of the network is degraded. The type of reduction does not have to take place in the same way at all points, but can be distributed over the network depending on the location of the point in question. The execution would be thought of as such that a Gewittenneldielist would notify the various plants as soon as the direction of the thunderstorm can be reasonably determined so that they could take their precautions in good time.

The precautions that would now have to be taken to protect the networks are the following-In the station and its surroundings, at certain transformer stations and on certain foothills there are protective devices, such as special spark gaps with artificial extinguishing devices, sprinkler systems for earthing points (earthing), to arrange.

As a result, earth electrodes that may otherwise not be sufficient are Discharge larger earth fault currents without endangering the environment, only fully usable. The drying out of the earth electrode when the earth fault current is diverted not possible. Earthing of lightning cables can thereby reduce the effect of the lightning cable significantly improve and the like m.

An important measure would be e.g. B. the setting of spark gaps, which are easily monitored and in which special precautions can be taken to extinguish the sparks: - Instead of using the spark gaps, - one could also bridge one or two links on isolating chains by means of special devices and make arrangements that the bridging would be canceled either automatically or by special devices if the arc occurred. It could also be arranged that the points in the network at which a weakening of the insulation is to take place at the desired time would be served directly or indirectly from one point. The control can then take place in such a way that the dielectric strength is different at the various points. When using water jets, you could set it up so that the water jets leading to certain water quantities would be used at the same time to moisten the earths of protective devices or the general station earth and thus ensure particularly good earthing during the time of danger. The otherwise less valuable water jet electrodes are then used as a humidifier for the earth electrodes. This effect is increased when working with saline solution during thunderstorms, since the water jet earth electrode can then also become a real drain and the earth electrodes are significantly improved.

In extensive networks can be Olltweder wireless (drahtg # erich preparing) make notification or direct involvement of one die sem way.

Surge protection devices that are actually present in the networks could possibly also be used if they are also changeable Adjustments were made, even the lightning protection devices available in low-voltage networks and the like could also be used. Here one was expediently through an agent have such devices switched on in the local network.

Since the surge devices in low-voltage networks usually (around to prevent too frequent responding) can be set too roughly there Tread similar paths as in high-voltage networks. First, the setting can the spark gap itself can be changed, or special spark gaps can be used temporarily switched on at endangered, controllable points. Secondly the earth electrodes of the low-voltage network can be temporarily moistened and improved will.

Claims (2)

PATENT FRUITS '. i. Protective device against thunderstorm disturbances, thereby gekenmeichnet that in places of the network that are easily controllable and accessible , protective devices are in place in the event of thunderstorms or the prospect of thunderstorms can be set in such a way that they are able to conduct overvoltages or Form preferred flash points, not so sensitive during normal times The set overvoltage protection only responds to higher overvoltages. 2. Protection device according to claim i, characterized in that the protective devices are operated directly or indirectly from the control center. 3. Protection device according to claim i and 2, characterized in that it is put into action at the time of danger and the resistance of the earth electrode at important points (stations, lightning cable earthing and the like) if necessary reduces by salt solutions. 4. Protection device according to claim i and -, characterized in that the preferred points are made better -conductive in that they are moistened by water jets.