DE1438863B2 - SURGE ARRESTERS - Google Patents

Description

The invention relates to a surge arrester in which the quenching spark gap and the voltage-dependent resistor are located within a gas-tight sealed vessel.

A surge arrester for low-voltage networks is known from the German Auslegeschrift 1 146 182, in which the quenching spark gap and the voltage-dependent resistance are in one breathable sealed housing, which consists of transparent insulating material, so as a display after a solder joint has melted in the event of excess temperature, the detection of the change in position of the installed Parts from the outside is made possible. It is also known for evacuated or noble gas-filled Extinguishing spark gaps (German Auslegeschrift 1106 408 and 1 075 726) to train them so that an insulating ring-shaped or cylindrical housing part through appropriately shaped metallic parts, which form the electrodes, is closed at the front. Also the connection of an electrode to one metallic exhaust tube (German patent specification 930 400) and the spacing and centering of Electrodes of an extinguishing spark gap by means of insulating washers (US Pat. No. 2,365,518) are known.

The invention is based on the object of a solution that is simple to manufacture and space-saving indicate, in which, in addition, a relatively easy one without high demands on manufacturing accuracy Adjustment of the response voltage in each case, e.g. B. to certain regulations or customer requests, possible is. According to the invention, this object is made better known through the joint application of the following, some of which are known Features solved in a surge arrester of the type mentioned at the beginning:

a) the vessel is made of metal and has a flat bottom, which is the disc-shaped Resistance is applied over a large area inside,

b) the electrodes of the quenching spark gap are centered in the vessel by means of an insulating washer and spaced from one another by means of an insulating washer, one electrode being the resistor and the other electrode is connected to a metallic exhaust tube,

c) the exhaust tube is passed through the lid of the vessel in an insulated manner and as a connecting piece educated.

An exemplary embodiment of the invention is explained in more detail with reference to the drawing, namely shows the figure shows a surge arrester in longitudinal section.

The arrester consists of an extinguishing spark gap formed by electrodes 1, 2 and insulating washer 3, together with a voltage-dependent resistor 4 in a can-like metal vessel 5 are arranged. This vessel is sealed gas-tight by means of a circular cover 6. In the middle of the lid 6 is. a pressure glass implementation 7 installed, which is used to seal a The exhaust tube 8 is made of metal and extends into the space 9 between the electrodes 1, 2 extends.

The procedure for producing the arrester is as follows: First, the resistor 4 is put together with the lower electrode 2 and the centering insulating washer 10 and the insulating washer 3, which determines the striking distance of the quenching spark gap, is inserted into the metal vessel. then the upper electrode 1 is installed together with the exhaust tube 8 and the clamping cover 6, whereupon the latter is soldered to the vessel 5. A reduction then takes place via the pump ram 8 the pressure inside the vessel, to a value that corresponds to the desired response voltage

ίο corresponds to the arrester, for example a negative pressure, which is expediently between 100 and 400 mm Hg, whereupon the exhaust tube 8 is compressed and sealed above the cover.
Finally, a connecting cable or cable lug 11 is inserted into the open end of the pump stem 8 and is pressed together with the stem by means of pliers.

In addition to the very simple and space-saving construction and also simple production method of the

so arrester there is still the very essential advantage, that the tolerance problem of the striking distance of the quenching spark gap is largely eliminated, and through the possibility of increasing the response voltage simply by reducing the pressure in the discharge vessel to be able to adjust. This is particularly important in connection with arresters with a relative low response voltage, at which the distance of the spark gap must be very small and so far this has only been achieved with a very precise and correspondingly expensive processing method could be. The arrester described can now be used for low response voltages larger throw distances can be provided and small deviations of a manufacturing nature can be done without can also be compensated for by setting the negative pressure during manufacture of the arrester. The arrester according to the invention is advantageous for protecting regulating windings in transformers, Choke coils and the like. Suitable, because it is due to its design easily in the boiler to protective apparatus can be installed.

Claims (1)

Claim: Surge arrester, in which the quenching spark gap and the voltage-dependent resistance are located inside a gas-tight vessel, marked This is the combination of the following, partly known features: