DE1924063A1 - Self-regulating protective device for systems at risk of lightning - Google Patents

Description

Self-regulating protective device for systems at risk of lightning The The invention relates to a self-regulating protective device for transmitting antenna systems at risk of lightning in particular medium wave transmitting antennas using isolated between the attached transmission mast or mast base and earth-switched protective spark gaps.

For protection against lightning strikes or other atmospheric discharges are known in transmission antenna systems, particularly in the case of medium-wave transmission antennas Wise spark gaps between the insulated mast or mast base and the earth switched, which in the case of an atmospheric via the transmitting antenna system Discharge ignite an arc and thus isolate the arc for the duration of the arc attached mast or

Ground the mast base.

The known, previously used spark gaps at the mast foot one Transmitting antenna systems only guarantee very unreliable protection, on the one hand a critical setting of their flashover distance due to contamination of the Pole of the spark gap by raindrops, flying insects etc. is not possible. On the other hand, there is the burning time of an arc ignited by an atmospheric discharge because of the Naches feeding with useful energy not limited, so that with not except Operation set transmitting antenna systems to the dreaded "stopping" of the arc and thereby ultimately to the destruction of the mast base insulator, the tuning means and the power cable.

In the case of transmitting antenna systems, there is normally an automatic transmitter protection switch-off provided that in the event of a lightning strike or an atmospheric discharge over the transmitting antenna system switches it off automatically d. H. shut down and grounds. It draws its switch-off criterion from the flashover, d. H. ignited Arc, resulting antenna mismatch. This switch-off criterion has proved unreliable because of the resulting mismatch when fired Arc from location and type of flashover as well as from the base point resistance depends on the antenna and is ambiguous for these and other known reasons is.

These disadvantageous properties and effects of the known lightning protection devices d. H. Lightning protection spark gaps at the mast base of a transmitting antenna system and the very unreliable operation of the well-known automatic transmitter protection shutdown lead to the fact that the transmitting antenna systems are unnecessarily often already on approach be grounded and taken out of service by thunderstorms.

The invention is based on the object of a lightning protection device for transmitting antennas d. H. to develop a protective spark gap in the event of surge discharges automatically limits the duration of the arc and thus a "stopping" one The arc ignited by atmospheric discharge is prevented and continues a short circuit of the antenna base resistance across the spark gap, d. H. via their arc.

The invention solves this problem in that as a protective spark gap and / or as their support a metallic one, strong in its mechanical forms material changing with temperature, e.g. B. bimetal, used in such a way as well is mechanically designed and / or supported in such a way that the set overlap distance the spark gap when the arc is ignited as a result of heating of the changing shape Material is enlarged until the arc breaks, and then after the break of the arc as a result of the cooling down of his shape changing material returns to its original position and size and that to avoid a short circuit of the antenna or its mast base during the burning time of the arc, the protective spark gap is electrically in series with a voltage-dependent resistor earthed on one side is connected.

For deriving slow, non-discharging over the spark gap Static charges from the antenna mast are also supported by the mast base further, the series connection: spark gap - voltage-dependent resistor R1, voltage-dependent bleeder resistor R2 connected in parallel to earth.

In a further embodiment of the invention is the earth-side branch the voltage-dependent leakage resistance additionally connected between the mast base and earth it R2 a control element or switching relay, z. B. a current transformer, switched on, the responds and when responding triggers the automatic transmitter protection switch-off, as soon as the discharge current flowing through the bleeder resistor has reached a predetermined Has reached or exceeded size.

The illustration serves to explain the invention and is explained below explained in more detail.

A transmitting antenna system is shown schematically in the figure, at the lightning protection device according to the invention both to protect the transmitter mast as well as to protect the tuning means and the useful energy supply cable of the transmitting antenna used against lightning strike.

It consists of an isolated with its mast base 1 placed on the ground Antenna mast 2 and from an antenna house 3, in which in a known manner, d. H. against Earth isolated, the power cable 4 via the tuning means 5 and a lightning loop 6 is fed to the antenna mast 2.

To protect against lightning and other atmospheric discharge are both the antenna mast 2 and the tuning means 5 and the power cable 4 via One self-regulating lightning protection device according to the invention each connected to the earth, the following using the example of the lightning protection device attached to the base of the mast 1 is explained.

It consists of a protective spark gap 7 with a predetermined one and the arcing distance d of their two poles set in the cold state. One of the two poles of the protective spark gap 7 is mechanical and electrical. about his one carrier 8 is connected to the isolated mast base 1, while the second Pole to avoid a short circuit of antenna 2 resp.

their mast base 7 when the arc is ignited via its carrier 9 electrically connected in series with a voltage-dependent resistor R1 grounded on one side is, The two poles of the flashover gap of the spark gap 7 and / or the carriers 8 and 9 of the protective spark gap 7 are, according to the invention, made of one with the temperature its mechanical dimensions d. H. its straight or curved Form strongly changing material, e.g. B. made of bimetal, and are shaped d. H. designed and held that on the one hand their change in shape as a result of heating this material automatically when the arc is ignited and during its burning time the rollover distance of the spark gap 7 is increased until the arc breaks and that, on the other hand, after the arc has broken off, it then cools down the originally d. H. the flashover distance d set in the cold state again manufactures.

As is well known, a protective spark gap is used in particular to generate fast z. B. to derive charges of the antenna mast 2 and mast base [1] caused by thunderstorms, whereby the derivation of a direct lightning strike is still known per se Coarse spark gap 10 can be supported.

For dissipating slow static charges from the antenna mast 2 and its mast base 1, d. H. of charges that do not ignite the arc Neither the protective spark gap 7 nor the coarse spark gap 10 lead, is the mast base 1 about a another voltage-dependent resistor R2 directly Earth laid. The resistance values of this directly between the mast foot 1 and earth connected leakage resistor R2 as well as the one in series with the protective spark gap 7 switched, voltage-dependent resistor R1 are dimensioned so that you when Flashover of the spark gap d. H. when the arc is ignited, resulting total resistance R1.R2 R1 + R2 still sufficiently large compared to the base point resistance RF of antenna 2 is. That means, both resistance values R1 and R2 are to be dimensioned so large that that on the one hand there is no noticeable mismatch even during the discharge process the antenna 2 occurs and on the other hand the absorbed HF power (useful energy) ' remains negligibly small during normal operation.

In a further embodiment of the invention by the directly between the mast foot 1 and earth connected leakage resistor R2 flowing discharge current as Switching criterion for triggering the known automatic transmitter protection switch-off 12 used.

One in the earth-side branch of the voltage-dependent bleeder resistor R2 switched control element 11 or relay, e.g. B. a current transformer is designed in such a way that that it speaks and that The transmitter is switched off as soon as the discharge current flowing through this arrangement is a predetermined amount has reached or exceeded.

With the device according to the invention, the response threshold value set clearly and defined for the automatic transmitter protection switch-off will.

The device according to the invention has the following advantages in particular: It largely enables the undisturbed operation of a transmitter antenna system also during a fast as well as slow, atmospheric discharge process. In particular, it prevents any "stopping" one by atmospheric Discharge of ignited arc by tracking useful energy as well as any Short-circuit of the antenna or

the base of the antenna mast during the unloading process d. H. when the arc is ignited. A noticeable mismatch of the antenna during the derivation of an atmospheric one Discharge, regardless of whether it is slowly over the bleeder resistor R2 or quickly over the ignited arc does not occur.

The self-regulating lightning protection device according to the invention is suitable therefore especially for transmitting antenna systems, which are particularly due to their height and location are often endangered by atmospheric discharges.

It also provides a clear and defined switch-off criterion for the automatic transmitter protection switch-off and thus ensures that with her even during very strong atmospheric discharges, transmitter arena systems, without to endanger them, can continue to be operated and not unnecessarily out of order must be set.

Since the new lightning protection device allows for a very precise setting of the Allow rollover distance of the spark gap, and since it is also multiple, z. B. used twice or three times in a transmitter system, the operating state - such as adaptation and efficiency - the transmitter antenna system does not change, is theirs Additional application to protect the tuning equipment and the power cable of a transmitter antenna system very advantageous.

- patent claims -

Claims (3)

Claims Self-regulating lightning protection device for transmitter antenna systems especially medium wave transmitter antennas, when using isolated between the attached antenna mast or mast base and earth-switched protective spark gaps, characterized in that as a protective spark gap (7) and / or as its carrier (8,9) a metallic, in its mechanical forms strongly with the temperature itself changing material, e.g. B. bimetal, used in this way and mechanically designed in this way and / or is held that the set rollover distance of the spark gap (7) when the arc is ignited as a result of the material changing its shape being heated, until the arc breaks and then after the Arc, as a result of the then occurring cooling of the material changing its shape returns to its original position and size and to avoid that a short circuit of the antenna (?) or its mast base (1) during the burning time of the arc, the protective spark gap (7) electrically in series with a one-sided grounded, voltage-dependent resistor (R1) is connected. 2. Self-regulating lightning protection device according to claim 1, characterized characterized in that the base of the mast is used to dissipate slow, static charges (1) the antenna (2) via another, the spark gap (8) and the one in series with this connected resistor (R1) connected in parallel, voltage-dependent The bleeder resistor (R2) is connected to earth, whereby both bleeder resistors (R1 and R2) are dimensioned so large that their resulting total resistance when the arc is ignited, to avoid a mismatch of the antenna during an atmospheric discharge, is sufficiently large compared to the base resistance of the antenna (2). 3. Self-regulating lightning protection device according to claims 1 u. 2, characterized in that in the earth-side branch of the additionally between the mast base (1) and earth connected, voltage-dependent leakage resistor (R2) a control element or switching relay (11), e.g. B. a current transformer is connected, the responds and with the response the automatic transmitter protection switch-off (12) triggers as soon as the discharge current flowing through the bleeder resistor (R, a has reached or exceeds a predetermined size. L e r s e i t e