DE183914C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 183914'- CLASS 21 c. GROUP

Electrode gap.

Patented in the German Empire on March 27, 1906.

The present invention relates to a spark gap with a large electrode spacing, the resistance of which is reduced by a special arrangement of the electrodes. The arrangement of the electrodes to achieve ⁷ "this purpose" is chosen so that between-

'see the same' creeping discharges

may occur.

Creeping discharges are caused by the formation of partial capacitors between electrodes of different voltages, which correspond to a voltage applied to the electrodes Insulating material, dielectric, are brought.

The formation of the partial capacitors creates pre-discharges that affect every discharge go ahead, favors, and these facilitate the main discharge over those previously formed Partial capacitors goes.

Will be the most expedient sheet-like insulation material on the electrodes on the opposite side with a metallic coating, the The effect is reinforced by the metallic coating being an occupancy of a capacitor represents, the other occupancy of which form the electrodes, with the charges on the Coating between the electrodes is caused by stationary induction.

A further strengthening of the effect can finally be achieved if the Coating is electrically connected to one electrode. In this case Charges of opposite sign to the coating on the unoccupied side of the insulating material or dielectric induced.

An example application of this method on a spark gap to the contactor against increases in voltage, FIGS. 1, 2 and 3 show a view and two floor plans.

Two insulators a, b, which carry the two unloading parts c, d , are attached to a traverse /. These discharge parts are arranged on the insulators so as to be able to change the spark gap e. The dielectric / ″ is attached to both discharge parts c and d , which in the present embodiment bears assignment g , which can be in conductive connection with discharge part c.

The dielectric does not need to be below, but can also be attached next to the spark gap. One electrode, e.g. B. d, is connected to the line, the other c to earth or another line with which compensation is to be brought about, connected. The electrodes expediently form sheet-like metal parts which carry sheet-like extensions i diverging upwards. The arc is driven upwards by the rising air column.

The dielectric has suitable projections k which prevent accidental flashover of the voltage. These approaches can also be attached to the side of the dielectric facing the spark gap, in which arrangement they

also prevent the air from escaping sideways during discharge, in order to avoid the aforementioned To bring about the heat effect of the arc the safer.

This device allows a relatively large distance between the discharge parts Voltage resp. Current equalization during the transition initiated by this discharge of the machine current because of the large distance between the discharge parts, even if the spark gap is not preceded by a resistor is, only reach a small amount and will certainly tear off.

Claims (1)

Patent claim: Device for reducing the resistance of spark gaps with large electrode spacing, characterized in that the electrodes of the Spark gap rest on a common plate-shaped insulating body, which is used to reinforce the effect on the the opposite side of the electrodes with a metallic, possibly with the one electrode can be provided with a conductive connection. 1 sheet of drawings.