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Horn spark gap with a deion chamber

A spark gap and deionization technology, applied in spark gaps, overvoltage arresters using spark gaps, circuits, etc., can solve problems such as cyclic interference, and achieve the effect of saving space

Active Publication Date: 2014-07-09
デーンエスエープルスツェオーカーゲー
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

But this purposeful circulation is disturbed when the arc travels the area until the deionization chamber is no longer shielded at the sides by the angled electrodes from the return flow

Method used

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  • Horn spark gap with a deion chamber
  • Horn spark gap with a deion chamber
  • Horn spark gap with a deion chamber

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Embodiment Construction

[0038] figure 1 One of the half shells is shown, which is designed as an injection-molded part with an outer insulating material sheet 23 , for example in the form of a vulcanized fiberboard. A ferromagnetic insert 21 can also be seen as a ferromagnetic plate-like part, which is covered by an inner vulcanized fiber plate 20 .

[0039] In the illustration of the half-shells 22 , there can also be seen profiles which are adapted to the contour of the ferromagnetic insert 21 , which also applies to the inner vulcanized fiberboard 20 .

[0040] Holes visible in the outer vulcanized fiberboards receive rivets that connect the two half-shells of the housing and the elements located therein.

[0041] in accordance with figure 2 The basic structure of an angular spark gap module can be seen in the illustration in , the arc chamber of which is influenced by two electrodes 1 and 2 .

[0042] Electrode 1 is designed as a long electrode and electrode 2 as a short electrode.

[0043] ...

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Abstract

The invention relates to a horn spark gap with a deion chamber (8) with a non-blowout design having a multi-part insulating housing as supporting and accommodating body for the horn electrodes (1, 2) and the deion chamber (8) and means for conducting the arc-induced gas flow, wherein the insulating housing is divided in the plane spanned by the horn electrodes and forms a first and a second half-shell. According to the invention, the horn electrodes (1, 2) have an asymmetrical form. The arc running region (11) between the electrodes is delimited in the direction of the deion chamber by a plate-shaped insulating material (20), wherein the plate-shaped insulating material (20) is inserted into a respective first shaped portion of the respective half-shell in a form-fitting manner. Furthermore, the first shaped portions accommodate a ferromagnetic deposit (21) of the arc running region (11).

Description

technical field [0001] The invention relates to an angular spark gap with a deionization chamber in a non-exhaust construction, comprising a multi-part housing of insulating material as support and receiver for the angular electrode and the deionization chamber As well as guiding means for the gas flow caused by the arc, the insulating material housing is split in the plane formed by the angular electrodes and forms a first and a second half shell. Background technique [0002] Angular spark gaps are known from EP1914850B1 and EP1829176B1, in which the degassing effect of ionized gases is reduced. [0003] According to EP1914850B1, the horn electrodes are made of inexpensive materials in order to reduce the cost of producing such spark gaps. [0004] Furthermore, EP1829176B1 discloses a device for extending a separation path in the event of overload. [0005] Furthermore, solutions with angular spark gaps and non-hermetic packaging are known, in which self-magnetic fields ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01T4/14
CPCH01T4/14
Inventor S·希尔U·施特朗费尔德A·埃尔哈特S·施里特
Owner デーンエスエープルスツェオーカーゲー
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