DE2619317C2 - Lightning protection device - Google Patents

Description

The invention relates to a Bützschut / device with a metal housing, with a surge arrester element arranged in the metal housing with a spark gap and with one between the metal housing and the surge arrester an electrical insulation block arranged at its high-voltage end, which encloses the high-voltage end, through the high-voltage connection that is structurally firmly connected to it and the metal housing is passed through and its in the direction of the longitudinal axis of the surge arrester element in the remaining insulating space between the metal housing and Beveled f.end pointing towards overvoltage capture elements is formed and / or stepped off.

Such lightning protection devices, as known from US-PS 34 96 146, have a connected to the input electrically conductive shielding device for limiting an electric field, which is concentric is cast around the high voltage side in the insulation block.

This has the disadvantage that in this design because of the consistent shielding property due to the individual shielding element, different potentials arise in the event of voltage pulses of different heights of the high-voltage scite and thereby a different discharge characteristic at the discharge path device he follows.

In addition, due to the shape of this shielding device, a spread of the electrical Field is prevented only in the direction of the upper side, a weakening of the electric field in the radial direction Direction is not guaranteed by this shape.

Since the closing element is in the insulation block during manufacture must be poured in, there can be no variation in the shielding characteristics after completion take place.

The object of the invention is to create a lightning protection device of the type mentioned above with which these disadvantages of the known lightning protection devices can be avoided. In particular, a Bütz protection device can be created in which the shielding characteristics on the high-voltage side around the shield member can be made variable in several stages.

In contrast, the solution of the invention consists of the structure according to the invention, in which a Umbrella-shaped or bell-shaped shielding device is embedded in the material of the insulation block on the high voltage element, which is selectively selected by one or more is surrounded with the high voltage terminal electrically connectable electrodes.

Compared to these features according to the invention is indeed from a device according to DE-OS 20 50 727 a shielding member that is electrically connected to the high-voltage side and embedded in the insulation block known. However, this shield member is neither bell-shaped nor hemispherical, so that due to its such a trained shielding device with respect to the task, as they are by the Invention is given, is not applicable in any wr \ «e.

Already by the special bell shape of the invention Shielding device is an electric field occurring at the high voltage end in its intensity is reduced and the discharge characteristic within the Bützschutzeinrichtung is essentially same. In addition, the electric field is prevented by this form from moving to the Spread out towards the earthed housing and cause a flashover.

Due to the selectively / switchable electrodes, a Change of the shielding characteristics created.

equivalent to that of a diameter increase of the bell-shaped ⁱ \ bschirmvorrichtung. This enables the shielding characteristics to be controlled as desired by simply connecting or disconnecting the respective electrode with the high-voltage input side, in particular after casting, ie after completion.

This property increases flexibility and mobility in use to a considerable extent.

Due to the different forms of electric fields of different field strengths at the lower end the shielding device, the electrodes can be ring-shaped from the lower edge with increasing diameter be attached to the shielding device at an increasing distance in the axial direction to the bottom.

In the event that the Bützschutzvorrichtung invention with various conductors electrical Systems are to be connected, the bell-shaped shielding device and the high-voltage

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Finally be made in one piece from wire. With this embodiment one is able to use the lightning protection device easy to connect to different conductors.

For manufacturing reasons, especially when casting the insulation block, it is recommended that the connection area the bell-shaped shielding device with the high-voltage connection with axially extending over the circumference at equal intervals to equip arranged holes.

In the figure is an embodiment of a lightning protection device shown according to the invention. It is only the right half of the device in section shown because its left half is formed in the same way and is symmetrical with respect to the longitudinal axis of the device to the right half is The illustrated arrangement includes a cylindrical housing 10 made of a suitable Metal like iron, aluminum or the like that is open at both ends.

The upper open end of the housing 10 is closed with an upper cover plate 18, which is shown in FIG. ^{7 is designed in the} form of a metal disc provided with an opening. The cover plate 18 is hermetically sealed at the upper end of the housing by attaching an OB ing 20 to the upper inner peripheral surface and by providing several bolts 22 which are screwed into the Ring flange 1 ?. extend through the plate.

At the upper end of the device, an insulator can be used to isolate the high-voltage connecting rod in a known manner Way are attached, which is only dealt with schematically in the figure for illustrative reasons will.

The lower end of the housing 10 is conventional by means of a metal disk also shown schematically Way closed.

As the figure shows, an insulation block 44 is made of a suitable electrically insulating material such as Epoxy with a lower section in the upper section or on the input line side of the housing ises 10 attached.

The upper portion of the insulation block 44 is provided with a flat annular surface that against the adjacent Section of the lower surface of the lid plate iS abuts, and in the Schiaubennuts 48 so are embedded so that they face the small holes 18c in the upper Deekelplatte 18. The lower A portion of the isolation block includes a central circular opening 44a. the coaxial to the longitudinal axis of the housing 10 lies. On the circumferential wall surface of the central opening 44a, an annular step 446 can be seen Purpose attached, wherein the lower end portion is stepped. In the upper part of the Isolation block is the high voltage connection, formed by a connecting rod 52, which leads through the isolation block.

This connecting rod 52 made of a suitable electrically conductive material protrudes on the input line side sealed by the insulation block 44 in its longitudinal axis; on its underside is a connection plate 52a formed in one piece, which is attached in the opening 44a in such a way that it delimits the upper end face thereof.

In the lower end portion of the insulation block · 44 is a shielding device (shielding member 54) from a single component suitable electrically conductive material such as aluminum embedded, daa from the periphery of the terminal plate 52a protrudes hemispherically outward and downward. Depending on the requirements, the shielding element 54 can also be made from a wire.

The shielding member 54 is provided with a plurality of small holes 54a (only one of which is shown), which are arranged at equal angular intervals close to the connection plate 52a for a purpose which can still be seen are. The shield member 54 serves to wrap around the terminal plate 52a within the insulation block 44 forming electric field or weaken in the direction of the earthed metal housing.

Since the connecting rod 52 and the shield member 54 are embedded in the insulation block 44, they are preferred formed from a material whose coefficient of thermal expansion is the same as the coefficient of thermal expansion the material of the insulation block 44 is approximated. For this reason, the connecting rod 52 is made and the shielding member 54 is preferably made of aluminum with an insulation block formed from epoxy resin 44.

In the isofation block 44 more - ¹ ", in the present case three electrodes 72, 74 and 76> .r in the form of rings are attached in such a way that they concentrically surround the bell-shaped shielding device 54 in such a way that the innermost electrode 72 is higher than the middle electrode 74; this in turn is higher than the outer electrode 76.

This arrangement is in accordance with one at different strong high voltage pulses at the lower end the shielding device resulting different form of the electric field selected.

The insulation block 44 can be formed by molding an electrically insulating resin material such as epoxy resin in one Shape can be made with the desired shape, the nut 48, the connecting rod 52, the terminal plate 52a, the shield member 54 and the three ring electrodes 72, 74 and 76 together with their Leads have previously been attached in their place in the form. The shape will be even with filled with the resin material. The importance of the small holes lies in ensuring sufficient equality ig of the liquid resin.

A hollow cylinder 62 made of a suitable electrically insulating material such as epoxy resin or the like is arranged in the electrically insulating space 60 in such a way that its upper end abuts against the inner annular step 44b of the opening 44a, its lower end being connected in a known manner to the lower cover plate ( Schem. shown) is connected. The hollow cylinder 62 runs coaxially to the cylindrical housing 10 and forms an inner cylinder space with the central opening of the insulation block 44. consisting connected within which in a known manner of a plurality of Entladestreckenvorrichtung 66. \ n series unloading lines not shown, as well as a stack of axially superimposed Wide'Standselementen 70 held by dei lower Deekelplatte, is arranged. The insulating block 44 leaves a space 60 free between the housing 10 and the hollow cylinder 62 partially surrounding the discharge line device 66, which is filled with an electrically negative gas. for example nitrogen (Ni), sulfur hexafluoride (SF ₆ ) or the like can be filled to form an electrically insulating space.

The arrangement according to the figure is thereby in operation set that free section of the connecting rod 52 is connected to the conductor of the electrical system to be protected, and that the housing 10 to Mass is laid. In these conditions, the application of a voltage surge results in an electrical surge

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caused pulse voltage to the arrangement of the figure to an even distribution of the voltage to the entire unloading path device 66. This is because the inclination of the result- |

generating electric field, in the upper section 5 §

to concentrate the discharge lines 66 due to the existing stray capacitance, therefore no longer exists, because the electric field is caused by the bell-shaped design of the shielding device, to concentrate towards the isolating space 60. which is filled with an electrically negative gas, its Dielectric constant is much lower than that of the material of the insulation block. The weakening or reducing the Fcld concentration also prevents the occurrence of corona discharges in the is Arrangement according to the figure, even if the arrangement has small dimensions, while the discharge properties remain unchanged.

The pulse voltage then discharges on discharge path 66 until the voltage completely hits the stack from resistance elements 70 is applied.

In the event that the leads 72s, 74a and 76a are kept electrically insulated from the high-voltage connection the potential profile around the bell-shaped shielding member remains essentially unchanged compared to the profile formed without the electrodes 72, 74 and 76.

However, if one of the three electrodes is switched on, the result is a shielding characteristic that of a specific one Increase in diameter, which depends on the respective position of the connected electrode, is due.

The potential that occurs on the high-voltage side can therefore be changed. That way you are in the Position, with different types of voltage pulses on the high-voltage side by varying the shielding characteristics to ensure essentially the same discharge properties. This means in others Words that molded according to the invention Lightning protection devices can be used in practice, which was previously considered difficult became.

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Claims (5)

Patent claims: 1. »Blitzschulzvorrichtung with a metal housing, with one arranged in the metal housing Surge arrester with a spark gap, and with one between the metal housing and the surge diverting element on the latter Electrical insulation block arranged at the high-voltage end, which encloses the high-voltage end, through the high-voltage connection that is structurally firmly connected to it and the metal housing is passed through and its in the direction of the longitudinal axis of the surge arrester element in the remaining insulating space between the metal housing and the surge arrester pointing end is designed beveled and / or stepped off, thereby characterized in that an umbrella or bell-shaped Cut-off device (54) at the high-voltage end is embedded in the material of the insulation block (44) by one or more Electrically connectable electrodes (72,74,76) surrounded by the high-voltage terminal (52) is." 2. Lightning protection device according to claim 1, characterized in that the electrodes (72, 74, 76) are ring-shaped. 3. Lightning protection device according to claim 1 or 2, characterized in that the bell-shaped Shielding device (54) Lm connection area with the high-voltage connection (52) with axially extending Bores (54ä ^ is fitted. 4. Lightning protection device nai.h one of the claims t-3, characterized in that the electrodes (76) with a larger diameter move axially Direction extend further than the electrodes (72) with smaller diameter. 5. Lightning protection device according to one of claims 1-4. characterized in that the shield or bell-shaped shielding device (54) -nis is made of a wire.