DE637075C - Oil switch with small oil quantity for high performance - Google Patents

Description

In oil switch construction, the use of extinguishing chambers with diSerential pumping equipment has become more popular well proven. The arc is extinguished automatically by the flow of liquid in the pumping device depending on the gas pressure in the vicinity of the arc extinguishing liquid drives into the arc.

The present invention is intended to work in this way that has already become known Extinguishing chambers transferred to a high-performance switch with a low oil content will.

This is where the well-known structure of the extinguishing chamber in the oil switch arises

- Current entry insulators with fixed pole contact and rod entry from above with pole separation downwards

- Maintained in redesigning the switch, difficulties a. It would the switch dimensions and thus also the oil filling are large, which is the case with a low-oil switch should be avoided. If you introduce the rods to the movable pole from below, so the necessity arises for the switching spindle penetrating the lower switch cover, to create a good seal that • guarantees permanent tightness. this is a difficult task to solve.

The present invention is intended to avoid these disadvantages. To this The purpose is an arcing chamber that carries one of the switching contacts and one through the Arc gases driven differential pump piston surrounding the switch pin contains, with a downwardly directed outlet opening for the switch pin in a cylinder housing arranged so that the arcing chamber in the housing for the purpose of separating the switching contacts slides upwards, while the contact pin remains in the rest position. This makes it possible to use the extinguishing chamber as well for the low-oil switch will be able to use in which they are for high-oil switch has proven itself without a pin guide with the required oil-tight penetration of the S'chalterboden to have to accept. The spindle guide for the arcing chamber sits in the upper cover of the switch housing and as with the usual oil switches does not need to close absolutely tight, as there is air on both sides of the seal, for which compensation is permissible.

The figure shows an exemplary embodiment for the subject matter of the invention. An extinguishing chamber b is movably arranged in an insulating cylinder α. The hollow cylinder bears at its two ends metallic closure covers c and d, which as

*) From the patent payer the following has been indicated as the inventor:

Cesar e Cippitelli in Frankfurt a. M.

Serve power supply and current discharge. The adjusting spindle e is guided and sealed in the upper cover c. The lower closure cover d carries the switching pin /, which S is firmly connected to the cover. When switched on, the pin / contact with the pole g of the movable arcing chamber b. In the latter, a pump device is installed in a known manner, which consists of the differential piston h arranged around the pole pin f and a counter spring i . Spring-loaded safety valves ^ are arranged in the upper cover c , which allow gases to flow out when there is an overpressure in the housing. The drilled plate / is attached to the central guide hub of the upper housing cover c and serves to separate the liquid. The wall arm m has a mounting ring n made of metal, which firmly encloses and carries the insulating cylinder α of the circuit breaker. The drive of the switch via the lever 0 can take place at will. It is advisable to use three single-pole switches

assembled side by side to form a mobile unit.

The switch-off and extinguishing process takes place as follows with this switch: If the pole separation is caused by pulling up the arcing chamber b , then the piston b follows first until an arc occurs between the switching poles f and g and the extinguishing liquid evaporates. At this point in time, the bottom of the pump piston h is at the height of the tip of the switching pin f and forms an annular gap with it for the extinguishing agent flow overflowing. The evaporation of part of the extinguishing

''"The increase in pressure generated by the liquid is transferred to the outer annular surface of the differential piston h, so that it is pressed downward against the spring tension i.

.. But it cannot start moving because the lower cover of the quenching chamber b is continuously moved upwards at the same time , displacing liquid around the contact pin and spraying it into the arc, which cools it down and extinguishes it when the current crosses zero is brought. In the upper chamber wall of the pole contact g there may be openings which allow any gases to escape in a throttled manner, while the actual liquid vapors are condensed by the cooling liquid injected into the upper space of the extinguishing chamber. When the quenching chamber has almost reached its upper end position, the contact pin / quenching chamber has left &, so that a sudden pressure equalization can then take place between the interior of the quenching chamber and the switch room surrounding the quenching chamber.

The outer extinguishing chamber wall b is not tightly closed in the switch housing α , but there is an annular gap outside the extinguishing chamber wall, which allows liquid to pass from one side of the extinguishing chamber to the other when the extinguishing chamber moves in the switch cylinder. Rather, the guidance itself only takes place at individual points on the circumference of the chamber.

Claims (1)

Claim: Oil switch with small amount of oil for high performance with one in the switch housing built-in arcing chamber, which has a differential pump piston that is driven by the arc gases and encloses the switching pin contains, characterized in that the quenching chamber, which is at her upper cover which carries a (movable) switch contact, in the switch housing for the purpose of separating the contacts with outlet opening directed below for the switch pin fixed in the room slides up. 1 sheet of drawings