EP0600222B1 - Dispositif pouvant supporter un courant de foudre, muni d'au moins deux éclateurs connectés en série - Google Patents
Dispositif pouvant supporter un courant de foudre, muni d'au moins deux éclateurs connectés en série Download PDFInfo
- Publication number
- EP0600222B1 EP0600222B1 EP93117367A EP93117367A EP0600222B1 EP 0600222 B1 EP0600222 B1 EP 0600222B1 EP 93117367 A EP93117367 A EP 93117367A EP 93117367 A EP93117367 A EP 93117367A EP 0600222 B1 EP0600222 B1 EP 0600222B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- spark
- insulating layer
- arrangement according
- spark gap
- resistance
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01T—SPARK GAPS; OVERVOLTAGE ARRESTERS USING SPARK GAPS; SPARKING PLUGS; CORONA DEVICES; GENERATING IONS TO BE INTRODUCED INTO NON-ENCLOSED GASES
- H01T4/00—Overvoltage arresters using spark gaps
- H01T4/16—Overvoltage arresters using spark gaps having a plurality of gaps arranged in series
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01T—SPARK GAPS; OVERVOLTAGE ARRESTERS USING SPARK GAPS; SPARKING PLUGS; CORONA DEVICES; GENERATING IONS TO BE INTRODUCED INTO NON-ENCLOSED GASES
- H01T1/00—Details of spark gaps
- H01T1/02—Means for extinguishing arc
- H01T1/08—Means for extinguishing arc using flow of arc-extinguishing fluid
- H01T1/10—Means for extinguishing arc using flow of arc-extinguishing fluid with extinguishing fluid evolved from solid material by heat of arc
Definitions
- the invention relates to a lightning current-carrying arrangement with at least two spark gaps connected in series, each spark gap consisting of two electrodes and an insulating layer located between them, and a flashover gap being provided between the electrodes of a spark gap, and the thickness of at least one of the insulating layers being different than the thickness the remaining insulating layer (s) (preamble of claim 1).
- a lightning current-carrying arrangement with at least two spark gaps connected in series, each spark gap consisting of two electrodes and an insulating layer located between them, and a flashover gap being provided between the electrodes of a spark gap, and the thickness of at least one of the insulating layers being different than the thickness the remaining insulating layer (s) (preamble of claim 1).
- Such an arrangement is known from DE-A-39 14 624, the insulation layers of different thicknesses being made of the same material and thus having the same specific resistance.
- DE-C-29 34 238 shows the use of this of insulating layers made of a material which, when heated, in particular heated by an arc, emits a gas which pushes it outwards or blows it.
- Hydromethylene (POM) Polyoxymethylene
- a surge arrester which shows a series connection of spark gap stacks and voltage-dependent resistors, the spark gap stacks and the voltage-dependent resistors alternating in series.
- a control resistor is connected in parallel to each spark gap stack.
- the space between this active part and an insulating housing surrounding it is filled with a foam whose pores contain an electronegative gas.
- the object of the invention is to design an arrangement according to the preamble of claim 1 in such a way that a low response voltage with good extinguishing capacity of the line follow current and retention the required lightning current carrying capacity.
- a first spark gap is provided with a relatively high-resistance and a relatively short flashover insulation layer
- a second spark gap or a second and further spark gaps is or are provided which has or have an insulating layer that is relatively low-resistance compared to the first spark gap and has a relatively long flashover gap, the second spark gap or the second and further spark gaps being electrically connected in series with the first spark gap.
- this spark gap is practically short-circuited, and thus most of the voltage is present on the second spark gap or on the second and further spark gaps, which also causes a flashover there.
- This results in a quick and safe deletion of the short circuit or line follow current.
- the above-mentioned division into several partial arcs is particularly favorable for re-consolidation after the current has passed through zero, since the instantaneous consolidation voltage is automatically multiplied when the arcs are multiplied. In this way, the re-ignition after the zero crossing of the current is prevented or at least significantly impeded.
- the invention thus provides an arrangement of spark gaps capable of carrying lightning current for network applications, which is designed as a controlled multiple spark gap, consisting of at least two spark gaps in series, with a response voltage which approximately corresponds to the response voltage of a single spark gap, that is to say can be kept relatively low.
- the overvoltage that arrives in the event of a fault only finds a single spark gap, while the recurring voltage finds two spark gaps.
- an optimized quenching behavior is achieved by "widening" the arc as a result of the serial multiple spark gap, by dividing the arc into at least two completely separate partial arcs.
- the insulating layer of the first spark gap can either consist of a very high-resistance material, for example a pure polyoxymethylene (POM), but also of an air layer or a gas arrester.
- the low-resistance insulation layers of the second spark gap or the second and further spark gaps of such an arrangement consist of an insulating material, the specific ohmic resistance of which is considerably smaller than that of the insulating layer of the first spark gap (claim 3).
- This can be the aforementioned POM, for example, but is essential with its conductivity compared to pure POM increasing additives made of conductive particles, such as metal or graphite.
- the insulating layers of both the first and the second or further spark gaps are made from a gas-blowing material such as the above-mentioned POM (claims 4 and 5), there are still further advantages with regard to extinguishing the arc.
- the spark gaps of the arrangement can be arranged spatially one above the other. This has the advantage of a very compact construction.
- the flashover path is a sliding spark gap. This is particularly advantageous in connection with an insulating material which, when heated by the arc, emits a gas that pushes or blows the arc outwards (e.g. the above-mentioned POM which emits hydrogen (H2)).
- an insulating material which, when heated by the arc, emits a gas that pushes or blows the arc outwards (e.g. the above-mentioned POM which emits hydrogen (H2)).
- the invention also provides possibilities for varying the course and direction of the sliding spark gaps and the blow-out direction by appropriately configuring the insulating layers and the electrodes of the spark gap.
- the insulating layer consists of a high-resistance material 3, for example the above-mentioned pure POM, while the insulating layer 4 of the low-resistance spark gap 5 'consists of a material with a conductivity that is significantly greater than the conductivity of the material of layer 3 This can be, for example, a POM with corresponding contamination from particles of metal or graphite.
- the ratio of the aforementioned conductivities (or reciprocally the ratio of the specific resistances) of the materials of the insulating layers 4 and 3 to one another can be, for example, up to 10,000: 1.
- the electrodes 1, 2 and 1 'and the described insulating layer 4 according to FIG. 1a are also provided.
- an air layer 3 ' At the location of the layer 3 made of a high-resistance material there is an air layer 3 '.
- a gas discharge tube could also be arranged (not in the drawing shown).
- the exemplary embodiment according to FIG. 1c is based on the design of the exemplary embodiment according to FIG. La, but a further spark gap 5 ⁇ is also provided.
- the electrode 1 ' serves as a common electrode for the spark gaps 5' and 5 ⁇ , while the spark gap 5 ⁇ has an electrode 1 ⁇ on the underside.
- the flashover distances of the two low-resistance spark gaps 5 ', 5 ⁇ and thus the partial arcs 6', 6 ⁇ that arise on them are also larger than the flashover distance and thus as the arc 6 of the high-resistance spark gap 5.
- spark gaps are both electrically connected in series, and are or can be arranged spatially in a series. If necessary, a third or fourth low-resistance spark gap could also be provided and arranged in Fig. 1c below the spark gap 5 ⁇ .
- Fig. 1a to c shows that in this simplified version - as mentioned - in principle, the different lengths of the flashover distances and thus the arcing there by appropriate choice of the thickness of the insulating layers 3, 3 ', 4 between the can reach respective electrodes.
- the rollover paths run as sliding spark gaps along the jackets of the disks forming the insulating layers 3, 4, or in the case of the insulating layer 3 'of FIG. 1b consisting of air as a breakdown between the Electrodes 1, 2.
- the spark gaps according to the invention are designed to be rotationally symmetrical, preferably cylindrical, at least in the area of the above-mentioned sliding spark gaps.
- a high-resistance spark gap initially isolates one or more low-resistance spark gaps from the network and thus determines the response voltage.
- both the high-resistance and the low-resistance spark gaps or the low-resistance spark gaps form the explained arcs and extinguish the line follow current.
- the large flashover distances, preferably sliding discharge paths of the low-resistance spark gap or the low-resistance spark gaps create an increased range and thus increased arc length of the arcs 6 '. This gives the above-mentioned advantages for the deletion of the network follow-up current without, however, adversely affecting the response behavior of the overall arrangement.
- the intrinsic dynamics of the arc ie its pushing outward, is increased. This results in additional energy losses from the arc as a result of the cooling that occurs, which further improves the extinguishing behavior of the arcs.
- the serial coupling according to the invention of several low-resistance spark gaps to one high-resistance spark gap only slightly changes the response behavior of the overall arrangement.
- the high-resistance spark gap and the low-resistance spark gap or low-resistance spark gaps work together as explained, a functional separation takes place insofar as the high-resistance spark gap primarily fulfills the task of "isolating” and “responding”, while the low-resistance spark gaps more the function "deleting the line follow current " take.
- FIG. 1a shows details of an embodiment according to the invention, which is constructed in principle according to FIG. 1a, but the rollover distances according to details A and B are designed differently than in Fig. 1a.
- spark gaps 5 and 5' are provided in a common housing 7, which is closed at its ends with outer contact plates 8, which connection tabs 8 'for connections , for example clamp clips.
- the housing 7 is lined on the inside with two quenching chamber walls 9 which surround quenching chambers 10.
- the housing 7 is preferably made of an insulating material, so that it only has to be insulated from the contact plates 8 in the event that a continuous electrical connection can be formed by the arc through a conductive deposit on the inner wall of the housing.
- Cover plates 22 are used for this purpose, which are designed in such a way that they enclose the electrodes in a ring shape, separated by a narrow gap 23 (see in particular FIG. 6).
- the width of the gap 23 and the width of the annular cover plate 22 are in such a ratio that an evaporation-free zone 23 'is formed on the rear ring surface, in which no conductive connection is possible due to the spreading of the arc or the spreading of the metal vapor transporting gas . A vaporization barrier is thus formed.
- the quenching chamber walls 9 are preferably made of a plastic which, when heated, emits a gas which presses the arc and combustion gases inside the quenching chambers 10 through an outlet opening 11 to the outside.
- the contact and cover plates 8, 22 also serve to close off the quenching chambers 10 to the outside. Screws 12 are used to screw the contact plates 8 to the housing 7. They also produce the contact pressure between the electrodes 1, 2 and 2, 1 'and their insulating layers 3, 4.
- the insulating layer 3 of the high-resistance spark gap 5 is substantially thicker than the insulating layer 4 of the low-resistance spark gap 5 '.
- this has no influence on the achievement of the effect according to the invention, since the voltage drops which arise, given the large difference in the specific resistances of the layers 3, 4, are not appreciably influenced by the thicknesses of these insulating layers.
- the further parameter which is decisive for the creation of the success according to the invention is the difference in the lengths of the rollover sections 6, 6 '. These arcing paths are shown in the form of sliding spark gaps 6, 6 'in the details A and B according to FIGS. 4 and 5. In the case of the detail A (FIG.
- the length of the region d of the insulating layer 5 projecting upward above the electrode 2 is decisive for the size of the sliding spark gap 6 which arises there.
- the arcs which arise are horizontal / vertical (as in the present exemplary embodiment), but also to run vertically / vertically or horizontally / horizontally or also at an acute angle to the longitudinal axis of the spark gap.
- the ratio of the lengths of the arc 6 'of the low-resistance spark gap to the arc 6 of the high-resistance spark gap can also be different from that shown in the drawing. In practice, ranges from 4: 1 to 5: 1 are preferred, but the invention is not limited to these.
- the insulating layers are made of a material which emits a gas when heated (for example the above-mentioned POM), the gas pushes the arc outwards in accordance with arrow 13 until, in the case of detail A, it initially acts as an arc 14 between Edges 15 and 16 are present or in the case of detail B as an arc 17 between the edges 2 'and 18.
- the electrode 2 is provided with a circumferential web 2a which forms the edge 16 in the high-resistance spark gap the electrode 2 underside the edge 2 'and the electrode 1' has the edge 18. This results in an overall length of the arcs that is greater than the total length of the arcs 6, 6 '. This favors the deletion process.
- the insulating layer 3 is effective for the formation of the sliding spark gap and thus for the arc 6, which is above the dash-dotted line 19.
- the area of the insulation 3 located below the line 19 is inactive for arcing. It serves on the one hand to hold the insulating layer 3 in the electrode 2 and also because of its mass for thermal stabilization in that it absorbs part of the heat which arises at the active part of this insulating layer located above the line 19.
- the part of the insulating layer 3, which is below the line 19 and thus within a recess of the electrode 2 causes that by the arc temperature Conditional material losses are located from the area of the spark gap 6, ie the edge of the insulating layer 3 (see FIG.
- the electrodes 1, 2 and 2, 1 ' have the function of target electrodes.
- a desired length of the respective arc and thus a corresponding total length of the arcs present at the arrangement can be created (see here also the teaching of claim 1).
- the shift of the upcoming arcs to the area between the edges 15, 16 and 2 ', 18 also brings a significant thermal relief of the insulating material 3 and 4 in the area of the arcs 6, 6 'and the associated areas of the electrodes.
- the above-mentioned thickening of the insulating layers also contributes to increasing their thermal stability, as is shown by means of the insulating layer 3. Accordingly, the mass of the insulating layer 4 could also be increased (not shown in the drawing).
- This and the above-described displacement of the arc to an area further away from the insulating material and the electrodes eliminates the risk of damaging erosion on the insulating layers and the electrodes. In extreme cases, such a thermal erosion could burn away the entire insulating layer 3 or 4 and thus short-circuit the spark gap.
- the materials of the electrodes which are preferably used here are extremely resistant to erosion.
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- Arc-Extinguishing Devices That Are Switches (AREA)
- Emergency Protection Circuit Devices (AREA)
- Insulators (AREA)
Claims (23)
- Agencement supportant les courants de foudre, qui comprend au moins deux éclateurs montés en série, cependant que chaque éclateur est constitué par deux électrodes et par une couche isolante qui est située entre celles-ci et qui forme un trajet pour les décharges disruptives entre les électrodes de l'éclateur concerné, et que l'épaisseur de l'une au moins des couches isolantes est différente de l'épaisseur de l'autre couche isolante ou des autres couches isolantes, caractérisé par le fait qu'il est prévu un premier éclateur (5) dont la couche isolante (3, 3′) présente une résistance électrique relativement élevée et un trajet relativement court (6) pour les décharges disruptives, et par le fait qu'il est prévu un deuxième éclateur (5′) ou un deuxième éclateur et d'autres éclateurs (5′, 5˝) dont la couche isolante (4) présente, par rapport à la conformation du premier éclateur, une résistance électrique relativement faible et un trajet relativement long (6′, 6˝) pour les décharges disruptives et qui est relié ou qui sont reliés électriquement en série au premier éclateur.
- Agencement selon la revendication 1, caractérisé par le fait que la couche isolante à forte résistance électrique du premier éclateur (5) est constituée par de l'air (3′), par un déflecteur de gaz ou par une matière isolante à forte résistance électrique (3).
- Agencement selon la revendication 1 ou 2, caractérisé par le fait que la couche isolante à faible résistance électrique (4) du deuxième éclateur (5′) ou des autres éclateurs (5˝) qui sont conformés en conséquence est constituée par une matière isolante à faible résistance électrique.
- Agencement selon l'une des revendications 1 à 3, caractérisé par le fait que les couches isolantes (3, 4) sont constituées par une matière qui dégage du gaz lors du chauffage.
- Agencement selon la revendication 4, caractérisé par le fait que la matière des couches isolantes (3, 4) qui dégage des gaz est une matière thermoplastique qui dégage de l'hydrogène gazeux (H₂), comme par exemple de l'oxyde de polyméthylène, cependant qu'il est prévu de l'oxyde de polyméthylène pur pour la couche isolante à forte résistance électrique (3) du premier éclateur (5), et que l'on utilise en revanche pour la couche isolante à faible résistance électrique (4) du deuxième éclateur et des autres (5′, 5˝) un oxyde de polyméthylène qui est pourvu de particules conductrices, comme par exemple des particules de graphite ou de métal.
- Agencement selon l'une des revendications 1 à 5, caractérisé par le fait que les éclateurs (5, 5′, 5˝) sont disposés en étant superposés dans l'espace.
- Agencement selon l'une des revendications 1 à 6, caractérisé par le fait que, dans le cas où les couches isolante sont constituées par une matière correspondante, ces couches isolantes (3, 4) et les électrodes associées (1, 2 ; 2, 1′ ; 1′, 1˝) des éclateurs (5, 5′ ; 5˝) sont conformées d'une manière telle que la décharge disruptive ait lieu entre les électrodes le long d'un trajet des décharges disruptives (6, 6′) de la couche isolante respective.
- Agencement selon l'une des revendications 1 à 7, caractérisé par une configuration des électrodes et des couches isolantes de l'un ou de plusieurs des éclateurs (5, 5′, 5˝) qui est telle que le trajet respectif (6) des décharges disruptives s'étende le long de la surface latérale de la couche isolante concernée (3), cette surface étant symétrique en rotation, et de préférence cylindrique.
- Agencement selon l'une des revendications 1 à 8, caractérisé par le fait que la couche isolante à forte résistance électrique (3) est enchâssée dans l'une des électrodes de l'éclateur associé, cependant que cette couche isolante ne fait saillie que par une partie (d) de son épaisseur au-delà de la surface de l'électrode concernée, et que l'épaisseur de la région de la couche isolante qui se trouve dans l'électrode est de préférence supérieure à l'épaisseur précitée (d) de la partie en saillie de cette couche isolante.
- Agencement selon l'une des revendications 1 à 7, caractérisé par une configuration des électrodes et des couches isolantes de l'un ou de plusieurs des éclateurs (5, 5′, 5˝) qui est telle que le trajet des décharges disruptives (6′) s'étende dans la direction radiale de la couche isolante en forme de disque (4), en allant en particulier vers sa surface latérale extérieure.
- Agencement selon la revendication 10, caractérisé par le fait que la couche isolante à faible résistance électrique (4) est enchâssée dans l'une des électrodes de l'éclateur associé, la surface de cette couche isolante étant alignée sur la surface de l'électrode précitée qui l'entoure.
- Agencement selon l'une des revendications 1 à 11, caractérisé par le fait que la résistance électrique de la couche isolante à forte résistance électrique (3) est à peu près dans un rapport de 10.000 à 1 avec la couche isolante à faible résistance électrique (4).
- Agencement selon l'une des revendications 1 à 12, caractérisé par le fait que la longueur du trajet (6) des décharges disruptives de l'éclateur à forte résistance électrique (5) est à peu près dans un rapport de 1 à 4 ou de 1 à 5 avec la longueur du trajet (6′) des décharges disruptives de l'éclateur à faible résistance électrique (5′, 5˝).
- Agencement selon l'une des revendications 4 à 13, caractérisé par le fait qu'il est prévu à chaque fois, dans la direction du soufflage (13) de la matière isolante des couches isolantes (3, 4), deux arêtes de retenue (15, 16 ; 2′, 18) des deux électrodes (1, 2 ; 2, 1′) qui appartiennent à l'électrode correspondante et qui sont à une distance entre elles qui retient tout d'abord l'arc électrique (14, 17), cependant que l'arc électrique précité présente un éloignement correspondant par rapport au trajet associé (6, 6′) des décharges disruptives.
- Agencement selon la revendication 14, caractérisé par le fait qu'en vue de la formation d'arêtes de retenue (16), l'électrode concernée (2, 1′) présente une nervure annulaire (2a) et un épaulement annulaire (20).
- Agencement selon l'une des revendications 1 à 15, caractérisé par le fait que chaque éclateur (5, 5′) est pourvu d'une chambre d'extinction (10) qui présente une ouverture de soufflage (11).
- Agencement selon la revendication 16, caractérisé par le fait que la chambre d'extinction de l'arc ou, respectivement, les chambres d'extinction de l'arc (10) sont constituées par une matière isolante qui dégage du gaz lors du chauffage.
- Agencement selon l'une des revendications 1 à 17, caractérisé par le fait que les éclateurs (5, 5′) sont logés dans un bottier commun (7) qui entoure en même temps les chambres d'extinction (10).
- Agencement selon la revendication 18, caractérisé par le fait que le bottier (7) est fermé frontalement par des plaques de recouvrement (8) qui sont pourvues de raccordements (8′) en saillie vers l'extérieur.
- Agencement selon l'une des revendications 1 à 19, caractérisé par le fait qu'il est pourvu d'un barrage contre la métallisation qui empêche une métallisation continue sur la paroi intérieure du boîtier, et donc une liaison continue conductrice de l'électricité.
- Agencement selon la revendication 20, caractérisé par des plaques de recouvrement (22) recouvrant la surface de la plaque de contact respective (8) qui est tournée vers l'éclateur correspondant, et par le fait que les plaques de recouvrement (22) entourent annulairement les électrodes en étant en outre séparées de celles-ci par un entrefer étroit (23) qui s'étend également en forme d'anneau.
- Agencement selon la revendication 21, caractérisé par le fait que les plaques de recouvrement (22) présentent chacune sur leur circonférence intérieure une nervure (22′) qui est dirigée vers la plaque de contact respective (8) et qui forme une fente (23˝) avec celle-ci.
- Agencement selon la revendication 21 ou 22, caractérisé par le fait que le bord extérieur de la plaque de recouvrement (22) est réalisé sous la forme d'un recouvrement analogue à une nervure (22˝) de la surface intérieure de la paroi du boîtier (7) qui délimite la plaque de contact (8).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE4240138A DE4240138C2 (de) | 1992-11-28 | 1992-11-28 | Blitzstromtragfähige Anordnung mit zumindest zwei in Reihe geschalteten Funkenstrecken |
DE4240138 | 1992-11-28 |
Publications (2)
Publication Number | Publication Date |
---|---|
EP0600222A1 EP0600222A1 (fr) | 1994-06-08 |
EP0600222B1 true EP0600222B1 (fr) | 1995-12-27 |
Family
ID=6473954
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP93117367A Expired - Lifetime EP0600222B1 (fr) | 1992-11-28 | 1993-10-27 | Dispositif pouvant supporter un courant de foudre, muni d'au moins deux éclateurs connectés en série |
Country Status (7)
Country | Link |
---|---|
US (1) | US5450274A (fr) |
EP (1) | EP0600222B1 (fr) |
AT (1) | ATE132303T1 (fr) |
DE (2) | DE4240138C2 (fr) |
DK (1) | DK0600222T3 (fr) |
ES (1) | ES2083815T3 (fr) |
ZA (1) | ZA938909B (fr) |
Families Citing this family (15)
Publication number | Priority date | Publication date | Assignee | Title |
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CN2185466Y (zh) * | 1994-02-05 | 1994-12-14 | 杨炳霖 | 浪涌吸收管 |
DE19510181C1 (de) * | 1995-03-21 | 1996-06-05 | Dehn & Soehne | Anordnung zur Ableitung von Überspannungen und zur Löschung des Netzfolgestromes |
DE19543022C1 (de) * | 1995-11-18 | 1996-12-19 | Bettermann Obo Gmbh & Co Kg | Überspannungsschutzelement |
DE19615521C2 (de) * | 1996-04-19 | 2000-10-19 | Dehn & Soehne | Funkenstrecke |
DE19742302A1 (de) * | 1997-09-25 | 1999-04-08 | Bettermann Obo Gmbh & Co Kg | Blitzstromtragfähige Funkenstrecke |
DE10060426B4 (de) * | 2000-11-24 | 2004-04-15 | Dehn + Söhne Gmbh + Co. Kg | Gekapselter Überspannungsableiter mit mindestens einer Funkenstrecke |
DE10133848A1 (de) * | 2001-07-12 | 2003-02-20 | Dehn & Soehne | Blitzstrom- und Überspannungsableiter für Nieder- und Mittelspannungsnetze |
DE10140950B4 (de) * | 2001-08-01 | 2006-10-19 | Dehn + Söhne Gmbh + Co. Kg | Gekapselter Überspannungsableiter auf Funkenstreckenbasis |
DE20220908U1 (de) * | 2001-12-17 | 2004-07-29 | Phoenix Contact Gmbh & Co. Kg | Überspannungsschutzeinrichtung |
DE10212697A1 (de) * | 2001-12-17 | 2003-07-10 | Phoenix Contact Gmbh & Co | Überspannungsschutzeinrichtung |
DE102004006988B4 (de) | 2003-11-28 | 2014-02-06 | Dehn + Söhne Gmbh + Co. Kg | Überspannungsschutzeinrichtung auf Funkenstreckenbasis, umfassend mindestens zwei in einem druckdichten Gehäuse befindliche Hauptelektroden |
DE102008049458A1 (de) | 2007-10-15 | 2009-04-30 | Dehn + Söhne Gmbh + Co. Kg | Funkenstreckenanordnung für höhere Bemessungsspannungen |
DE102008049471A1 (de) | 2007-10-15 | 2009-11-12 | Dehn + Söhne Gmbh + Co. Kg | Funkenstreckenanordnung für höhere Bemessungsspannungen |
DE102011102937B4 (de) | 2010-08-17 | 2017-03-02 | DEHN + SÖHNE GmbH + Co. KG. | Anordnung zur Zündung von Funkenstrecken |
DE102011102864A1 (de) * | 2010-10-22 | 2012-04-26 | Dehn + Söhne GmbH | Funkenstrecke mit mehreren in Reihe geschalteten, in Stapelanordnung befindlichen Einzelfunkenstrecken |
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DE327016C (de) * | 1919-03-16 | 1920-10-06 | Bbc Brown Boveri & Cie | Aus mehreren Elementen bestehender UEberspannungsableiter nach dem Durchschlagsprinzip |
CH215001A (de) * | 1940-06-11 | 1941-05-31 | Bbc Brown Boveri & Cie | Uberspannungsableiter für Hoch- und Höchstspannungen. |
GB877694A (en) * | 1958-10-20 | 1961-09-20 | Ass Elect Ind | Improvements relating to protective devices for electrical equipment |
CH449106A (de) * | 1966-07-19 | 1967-12-31 | Bbc Brown Boveri & Cie | Uberspannungsableiter |
DE2934238C2 (de) * | 1979-08-24 | 1982-02-18 | Dehn + Söhne GmbH + Co KG, 8500 Nürnberg | Funkenstrecke |
DE2934236C2 (de) * | 1979-08-24 | 1983-02-24 | Aeg-Telefunken Ag, 1000 Berlin Und 6000 Frankfurt | Überspannungsableiter mit Funkenstrecke |
DE3016265C2 (de) * | 1980-04-26 | 1984-05-17 | ANT Nachrichtentechnik GmbH, 7150 Backnang | Überspannungsableiter mit Funkenstrecke |
DE3914624A1 (de) * | 1989-05-03 | 1990-11-08 | Dehn & Soehne | Anordnung mit zumindest zwei funkenstrecken fuer die begrenzung von ueberspannungen |
-
1992
- 1992-11-28 DE DE4240138A patent/DE4240138C2/de not_active Expired - Fee Related
-
1993
- 1993-10-27 ES ES93117367T patent/ES2083815T3/es not_active Expired - Lifetime
- 1993-10-27 EP EP93117367A patent/EP0600222B1/fr not_active Expired - Lifetime
- 1993-10-27 DK DK93117367.8T patent/DK0600222T3/da active
- 1993-10-27 DE DE59301256T patent/DE59301256D1/de not_active Expired - Lifetime
- 1993-10-27 AT AT93117367T patent/ATE132303T1/de not_active IP Right Cessation
- 1993-11-26 US US08/157,286 patent/US5450274A/en not_active Expired - Fee Related
- 1993-11-29 ZA ZA938909A patent/ZA938909B/xx unknown
Also Published As
Publication number | Publication date |
---|---|
EP0600222A1 (fr) | 1994-06-08 |
DE4240138A1 (de) | 1994-06-01 |
DE4240138C2 (de) | 1995-05-24 |
ZA938909B (en) | 1994-08-02 |
ATE132303T1 (de) | 1996-01-15 |
US5450274A (en) | 1995-09-12 |
DE59301256D1 (de) | 1996-02-08 |
DK0600222T3 (da) | 1996-01-29 |
ES2083815T3 (es) | 1996-04-16 |
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