DE494333C - Vacuum lightning arrester - Google Patents

Description

Empty air lightning arrester In low-current signal systems, in particular telephone systems, glow light tubes are generally used to protect against high voltages induced in them, which respond at around 300 volts and compensate for the high voltages. Because of the low pressure that such glow tubes contain, they are commonly referred to as air-discharge lightning arresters.

Such lightning rods usually consist of one airtight at both ends closed, evacuated glass tube, which the two close opposite Contains electrodes. This leads through each end of the tube in an airtight seal one lead wire each, which also serves to hold its electrode. A metal cap is firmly attached to each end of this tube, with which the Feed wire and thus the electrode in question is connected in a well-conducting manner. the Caps are used to insert the lightning rod between the retaining springs of its carrying apparatus.

The general form of a lightning arrester described above is shown in figures. But there are also embodiments of the air discharge lightning arrester, where the lead wires of the two electrodes are next to each other through a glass foot are passed through to the two contacts of a small bulb socket. For the invention described below is perfect the external shape of the lightning rod irrelevant. So z. B. instead of cylindrical contact caps also those with Make knife contact.

Fig. Z and 2 show two well-known forms of lightning rods in which the two electrodes b enclosed by a glass tube a through lead wires c, which pass through glass feet d and melted into them are. Outside the tube a, the lead wires c are each with a contact cap e conductively connected.

In both figures, for example, the electrodes consist of square ones or round metal or carbon plates that face each other with their broad side. The main discharge takes place in the one between the electrodes Space f.

Thorough experiments have now shown that lightning rods, where the electrodes not with their broad side, but with their narrow edge face each other, compared to the known air discharge lightning arresters essential Have advantages.

In the known lightning rods, the wide area of the plate electrodes lies perpendicular to the direction of the discharge direction. In the arrangement according to the invention of the electrodes according to Fig. 3 and q. on the other hand, the broad areas of the two electrodes run the direction of discharge parallel. The direction of discharge is that between the to understand the connecting path lying on the narrow edge surfaces of the two electrodes, the in the embodiment according to Fig. 3 and q. in the longitudinal central axis of the lightning rod. Fig.q. differs from Fig. 3 only in that that the lightning arrester cartridge about its axis by go ° against the position according to Fig. 3 is rotated.

The advantages of the inventive arrangement of the electrodes are in that this is the same size as in the known arrangement in which the Electrodes face each other with their broad sides, and the same discharge voltage have a much larger discharge current. This is explained by that the discharge occurs at the point where the breakdown voltage is practically necessary (depending on the application s50 to 400 volts) required gas pressure of the tube is now evenly distributed over both side surfaces of each of the two electrodes and not only as in the known arrangement mainly within the between the two parallel opposite surfaces of the electrodes located discharge space takes place. In addition, it has also been found that the discharge voltage, the depends on the spacing of the electrodes from one another, in the case of the electrodes according to the invention Arrangement changes considerably with the same change in the distance between the electrodes changed less than with the known electrode arrangement according to Fig. z and a. From this there is the advantage that differences in the mutual distance between the two electrodes, as they are unavoidable during manufacture, with the arrangement according to the invention also result in less large irregularities in the discharge voltage.

Claims (1)

Claim: Air discharge lightning arresters, the two electrodes of which are designed as metal or carbon plates, characterized in that the electrodes (b) face one another with their narrow edge surfaces in such a way that the direction of discharge runs parallel to the broad surfaces of both electrodes.