DE1178133B - Loeschkammer for electrical load and power disconnectors - Google Patents

Description

Quenching chamber for electrical load and circuit breakers The invention relates to an arcing chamber for electrical load and circuit breakers that from two parallel walls arranged at a short distance from one another from one to delete the between a fixed auxiliary contact piece and a movable auxiliary disconnector drawn arc gas-emitting material consists.

In the case of disconnectors of this type, this is caused by a high-current arc Gas development generated from the walls of the extinguishing chamber is often very considerable. To the exit of the auxiliary cutting knife from the slot of the flat quenching chamber is the conductive gas cloud directed towards the pivot point of the auxiliary disconnector. The isolating distance of the switch is ionized by the conductive switching gases. In order to but there is the risk of re-ignition of the arc and the resulting consequences given.

You can ignite back after separating the switch contacts Avoid increasing the dimensions of the circuit breaker. In many cases this will Measure due to the increased space requirement not to be carried out, apart of the fact that it is not economically justifiable.

With the invention a way is shown like the above mentioned shortcomings can be avoided in the known disconnectors. According to the invention is a Side wall of the quenching chamber at the end facing the separating distance opposite the other side wall shortened. The tried and tested shortening of one chamber wall should be at most a tenth of the length of the .Seitenwand. The quenching chamber according to the invention is particularly characterized in that after the exit of the auxiliary cut-off knife from the flat quenching chamber as a result of the shortened side wall is deflected out of their direction. This becomes a contamination the isolating distance effectively avoided by the ionized switching gases. The danger the flashback is thus eliminated.

In the drawing, an embodiment according to the invention is shown, namely the FIG. 1 the previously usual extinguishing chamber training again, while F i g. 2 shows the Flachlö.schkammer designed according to the invention.

The well-known flat arcing chamber has two side walls of equal length 1 and 2 and the separation point marked 3. The one with a separation of the auxiliary contact pieces generated as a result of the arc burning between them from the chamber walls With this chamber design, the gas cloud emerges vertically downwards and can pass through Ionization of the isolating gap lead to a re-ignition of the arc: This danger is eliminated in the chamber according to the invention that the gas cloud through the shortening of one side wall 4 according to FIG. 2 at a certain angle is deflected to the plane given by the chamber. This distraction depends on the essentially on the size of the shortening of one side wall.

As tests have shown, with a three-pole switch-disconnector three identically designed flat arcing chambers can be used. The risk of a phase flashover between the middle and the corresponding neighboring pole does not exist because the Gas cloud emerging from the chamber of the center pole on the live parts of the neighboring pole can be passed. It has been shown that the measure according to the invention, the breaking capacity of a load or power disconnector can be increased considerably.

Claims (2)

Claims: 1. arcing chamber for electrical load and circuit breakers, the two parallel ones arranged at a short distance from one another Walls consists, this of one to delete the between a fixed auxiliary contact piece and an auxiliary movable disconnector of drawn arc gas emitting material are made, characterized in that a side wall of the arcing chamber on the the end facing the separating distance is shortened compared to the other side wall. 2. extinguishing chamber according to claim 1, characterized in that the shortening of the one Chamber wall is no more than a tenth of its length.