DE320959C - Spark gap arrangement for electrical oscillating circuits - Google Patents

Description

Spark gap arrangement for electrical oscillating circuits. The invention relates to a spark gap arrangement for generating electrical oscillations, and although of the type in which a plurality of discharge surfaces in series with one another are switched so that a multiple-row spark gap is distorted.

To find the relationship between the number of unloading routes and the Increasing voltage in the multiple series spark gap is the distance between to reduce two adjacent areas. But the decrease is practical limited. If a high vacuum is needed between the discharge surfaces, to increase the mentioned ratio as much as possible for a given voltage, so the route finally becomes permanently conductive, according to the Warburg phenomenon.

The invention now aims to make the vacuum spark gap continuously conductive to prevent. This can be achieved by using the vacuum series spark gap is connected in series with an ordinary spark gap.

In the drawing, FIG. 1 shows a plan of the spark gap arrangement according to the invention, Figure 2 shows a cross section through a single spark gap, from which the evacuated series spark gap is formed, the "in series finite one ordinary spark gap is switched, Fig. 3 is a plan view of Fig. 2, Fig. ¢ a longitudinal section through a multiple spark gap consisting of a number of Unloading lines lying in a row (FIG. 2), FIG. 5 is a vertical section by a further embodiment of a multiple spark gap, and FIG. 6 shows a Spark gap that is the case with a multiple row spark gap that has not been evacuated can be used, connected in series with the evacuated spark gap will.

The arrangement shown in Fig. X contains a vacuum series spark gap a and an ordinary series spark gap b. The same are connected to one another in series with a capacitor c and the primary winding d of a transformer. The capacitor c is connected to a current source with the interposition of inductive resistors f, f . The primary winding d of the transformer is coupled to the secondary winding g of the same: one end of the secondary winding is connected to the air wire h, while the other is grounded at i. The terminals j and h of the series spark gap a are connected to an interrupt key L with a resistor in and connected in series.

The multiple series spark gap a consists of a number of spark gaps according to the vacuum principle, while the multiple spark gap b consists of a number of There are spark gaps that are hermetically sealed but not evacuated. These Device is particularly useful for relatively low voltages. For a 15,000 volt system, e.g. B. with direct current can the vacuum spark gap a include forty spark gaps in a row and the airtight one Spark gap b ten spark gaps in series.

* The spark gap is shown in Figs. It consists of two lid-shaped metal electrodes za and o, suitably made of copper, which are at a suitable distance from each other and are separated from each other by a ring of insulating and non-flammable material, such as. B. glass, quartz, soapstone, porcelain o. The like. The electrodes n and o, and the ring p together form a closed container that is airtight, z. B. with black lead or with a mixture of powdered quartz and Na-. tronsylicat is sealed. A pipe q is soldered to the disk and is connected to a vacuum pump. It goes into the interior of the spark gap formed by parts, o and p, in which the vacuum is created and maintained by an air pump. The spark gap can be placed in an oil bath for the purpose of cooling the electrodes, with cooling taking place through the outer wall of the electrodes.

In the case of the spark gap explained, as a result of the pressure difference, that rules inside and outside, the discharge solely in the evacuated one Space between electrodes n and o instead.

The electrodes za and o can be kept at any desired distance from one another, e.g. B. 0.5 cm, e.g. B, for low voltages of 500 volts, since the breakdown voltage as far as desired by evacuation. of the interior of the container, which forms the spark gap, can be reduced, namely by the pressure which corresponds to the critical discharge pressure or the maximum of the conductivity of the gas in the spark gap. The breakdown voltage, at which the capacitance discharges, is then very slightly greater than the potential in the spark gap during discharge.

Fig. D. represents a series spark gap ilar made up of a number. of spark gaps, which are explained above. These spark gaps are both electrically and pneumatically connected in series. The pipes q between two neighboring spark gaps are not only used to connect the interiors used by two neighboring spark gaps, but also as an electrical connection between two lid-shaped electrodes that lead to the opposite spark gaps belong.

This type of construction can be used in conjunction with electromagnetic vibrating fields are needed. z. B. in the manner as in the patent 252526 is explained. In this case, the length of the edges of the lid-shaped Electrodes n and o to the length of the tubes q through which the lids connect are added together when determining the length of the required conductor becomes, according to the increasing potential of the electromagnetic field, which the breakdown through the spark gap resistance, as in the aforementioned explanation is dealt with, causes.

According to the embodiment shown in Fig. 5, the lid-shaped Electrodes of two adjacent spark gaps are made from one piece, the pipes in between are omitted. The connection between Two adjacent spark gaps simply become bleak through an opening by openings r provided in the bottoms.

However, the construction shown in FIG. 4 is that in FIG. 5 to be preferred, since the same direct cooling of the discharge surfaces allowed, which is extremely important when the energy used is very large.

The spark gap shown in FIG. 6 consists of two concentric ones Electrodes s and t. The discharge takes place in the cylindrical space ai, which hermetically sealed by means of an insulating, non-flammable ring v is, - on which a rubber ring x and another insulating ring y are placed. These are on a separate part t ,. placed on the electrode t and by means of Screws z with the interposition of washers z, held, the Rubber ring causes the airtight seal of the annular space u. It should be noted be that the hermetically sealed spark gap shown in i Fig. 6 can also be used as a vacuum spark gap.

Claims (1)

PATENT REQUESTS: e.g. Spark gap arrangement for electrical oscillation circuits, characterized in that a vacuum Spark gaps with fixed electrodes composed of series spark gaps in series with an ordinary one Spark gap is switched, for the purpose of the permanent'- conductive of the vacuum spark gaps to prevent. a. Arrangement according to claim i, characterized in that the usual Spark gap is also designed as a series spark gap. 3rd oscillation circuit with a spark gap arrangement according to claim i, characterized in that the prayer key connected in series with a resistor in parallel with the vacuum series spark gap is.