German patent document DE 10 2005 036 265 A1 discloses a surge arrester.
In one aspect, the present invention specifies a simple surge arrester that can be produced cost-effectively and has a high consequential current load capability.
A surge arrester is specified which comprises a gas-filled closed arrester body which is formed by an annular ceramic body and two electrodes which are at a distance from one another. A second annular ceramic body is arranged in the interior of the arrester body and is at a distance from the first ceramic body. The second ceramic body has a physical height which is less than the physical height of the first ceramic body.
In one embodiment of the surge arrester, at least one inner face of the electrodes of the arrester is arranged partially within a cylindrical area which is defined by the internal dimensions of the second ceramic body.
At least one inner face of the electrode, which is arranged within the cylindrical area, is preferably in the form of a planar surface which may have a rhomboid pattern.
In one embodiment of the surge arrester, the electrodes are in the form of pin electrodes.
In a further embodiment, the inner faces of the electrodes are designed such that they have at least two planar surfaces which are arranged parallel to one another.
An activation compound can be applied in places to the inner faces of the electrodes. The activation compound is preferably arranged in the area of the planar surfaces of the inner faces of the electrodes, and covers them partially or completely.
In one embodiment of the surge arrester, one or more trigger strips is or are arranged on or applied to the inner face of the first ceramic body.
The use of trigger strips on the inner surfaces of the first ceramic body and the application of an activation compound to the electrodes makes it possible to optimize or influence the trigger behavior and the load capability of the surge arrester.
The second ceramic body of the surge arrester is preferably designed such that the majority of the evaporation products of electrode material or of materials of the activation compound or of the trigger strips, which can occur as a consequence of a current load on the surge arrester, is deposited on the inner face of the second ceramic body. This prevents vapor deposition or depositing of the evaporation product residues on the inner wall of the first ceramic body, thus ensuring a sufficiently high isolation level and a sufficiently low trigger voltage of the surge arrester throughout its entire life. Evaporation product residues on the inner face of the first ceramic body could lead to isolation faults and to deactivation of the trigger strips, which would result in the deterioration in the response of the surge arrester.
In one embodiment, the material of the first and second ceramic bodies comprises an aluminum oxide ceramic (Al2O3).
The electrodes of the surge arrester preferably have high thermal conductivity and a high melting temperature. In one preferred embodiment of the surge arrester, the electrodes are composed of tungsten copper (WCu).
The electrodes preferably have a diameter of less than 10 mm.
In one embodiment, the arrester has a power density of more than 130 W/mm3 in the event of a consequential current.
Surge arresters described above can be arranged in an array which comprises at least two surge arresters as described above, wherein two directly adjacent surge arresters in the array have a common electrode.
In one embodiment, the arrangement is designed such that the common electrode is in the form of a pin electrode which is used on both sides.
Surge arresters are mechanically firmly connected to one another. After the final soldering, during which a gas mixture of high thermal conductivity and with a breakdown strength which can be adjusted easily depending on the pressure is preferably used, this therefore results in hermetically sealed, gas-filled surge arresters with static and dynamic trigger characteristics which are set in a defined manner, a high burning voltage and a very high power density in the event of a consequential current load.
An array as described above may, for example, prospectively have a consequential current capability for the overall arrangement of 30 kA, for example, if the array comprises a total of 18 surge arresters, which are connected in series or together form a compact series circuit.
The use of simple basic elements which can easily be arranged in a row and of a surge arrester design as described above therefore makes it possible to achieve a considerable cost and volume reduction for the overall arrangement, in comparison to comparable surge arresters without a second, inner ceramic body. A volume reduction of more than 40% is possible.
The arrangement as described above of a plurality of surge arresters is preferably used between an outer conductor and a neutral conductor in main electrical power supply systems for structural installations.
The subject matter described above and the arrangement will be explained in more detail using the following figures and exemplary embodiments.
The drawings described in the following text should not be considered as being true to scale, and in fact the individual dimensions in the illustrations may be illustrated enlarged, reduced or else distorted. Elements which carry out the same functions as one another or are identical are annotated with the same reference symbols.
The following list of reference symbols may be used in conjunction with the drawings:
1 Arrester body
2 First ceramic body
3 Electrode
4 Interior of the arrester body 1
5 Second ceramic body
H2 Height of the first ceramic body
H5 Height of the second ceramic body
6 Cylindrical area which is defined by the internal dimensions of the second ceramic body 5
Inner face of the electrode 3
Trigger strip
9 Activation compound
10 Outer face of the electrode 3
Although it has been possible to describe only a limited number of possible developments of the invention in the exemplary embodiments, the invention is not restricted to these developments. In principle, it is possible for the surge arresters to have electrodes of virtually any desired form.
The description of the subjects indicated here is not limited to the individual specific embodiments. In fact, the features of the individual embodiments can be combined with one another as required, while technically worthwhile.
Number | Date | Country | Kind |
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10 2009 006 545.8 | Jan 2009 | DE | national |
This application is a continuation of co-pending International Application No. PCT/EP2010/050793, filed Jan. 25, 2010, which designated the United States and was not published in English, and which claims priority to German Application No. 10 2009 006 545.8, filed Jan. 29, 2009, both of which applications are incorporated herein by reference.
Number | Date | Country | |
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Parent | PCT/EP2010/050793 | Jan 2010 | US |
Child | 13194218 | US |