DE1203856B - Arrangement for compressed air switches - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

HOIh

German class: 21 c - 35/10

Number: 1203 856

File number: A 48595 VIII d / 21 c

Filing date: March 10, 1965

Opening day: October 28, 1965

In the case of compressed air switches with a main and an auxiliary switching point in a container filled with compressed air it is known to open an opening between the container and a directly at the auxiliary switching point to be arranged within the container delimited space. The intent is to have a Extinguishing the arc at the auxiliary switching point by means of a stream of air without doing any To have to arrange additional blown air valve next to that of the main switching point. The pressure drop, which occurs in the container if, during an interruption, compressed air through the blown air valve of the main switching point flows out, namely causes a flow of compressed air from the delimited space to the container through said opening. The extinguishing effect achieved with these agents is, however, rather poor. You can set the deletion conditions of a main switching point that were already in place during the deletion process is exposed to very strong blown air, improve considerably by the fact that the invention The main switching point provides the auxiliary switching point with a similar arrangement as before. The received However, improvement of the extinguishing effect of the main switching point is not based on the fact that the blown air flow against the main switching point is much stronger, but on the fact that the compressed air that has accumulated in the demarcated space, a strong cooling effect on those from the remaining container has incoming air. This is of great importance when breaking high Flow because the air on the inflow side of a nozzle contact of the main switching point from the arc is heated to high temperatures. Whether an interruption succeeds depends, among other things, on it whether the air surrounding the arc has had enough time before the current crosses zero to cool down so that the dielectric strength of the air is high enough to prevent the recurring Withstand tension. It is therefore particularly advantageous that, according to the invention, a main switching point is combined with an associated outflow opening with an arrangement that consists of an in arranged in the immediate vicinity of the outflow opening through the nozzle contact of the main switching point there is a narrow opening through which a space delimited from the rest of the container with the container in Connection. The air in the demarcated space is therefore not allowed to pass through when there is an interruption direct irradiation of the arc heats up and remains cold during the switching process In contrast to the air directly surrounding the arc. If there is an interruption, the air is out of the Arrangement for compressed air switches

Applicant:

Allmänna Svenska Elektriska Aktiebolaget,

Västeräs (Sweden)

Representative:

Dipl.-Ing. H.Missling, patent attorney,

Giessen, Bismarckstrasse. 43

Named as inventor:

Haakon Forwald, Ludvika (Sweden)

Claimed priority:

Sweden, March 12, 1964 (3065)

The enclosed space is sucked towards the arc and has a cooling effect on the one flowing there hot air. This increases the dielectric strength of the air blowing into the switching point.

An embodiment of the invention is shown schematically in the drawing. In this designated 1 a container constantly filled with compressed air, which is connected through a line 2 to a compressed air source communicates. A power switching point is arranged in the container, which is in the open position is shown. The power switching point has a moving contact 3 and a fixed nozzle contact 4. A blown air valve (not shown) is arranged on the outflow side of the nozzle contact, by which the container 1 can be placed in contact with the free air via the nozzle in contact 4. 5 is an arcing contact firmly connected to the nozzle contact 4. The moving contact is surrounded by a sleeve 6 which encloses a space 7 delimited in the container 1. Between the Sleeve 6 and the movable contact 3 is a narrow opening 8 in the immediate vicinity of the switching point arranged around the movable contact 3.

In the event of an interruption, the movable contact 3 changes from the closed to the one shown in the figure open position drawn. At the same time, the blow valve is on the outflow side of the nozzle contact 4 open. A strong stream of compressed air is introduced against the arc, which is between the arcing contact 5 and the movable contact 3 forms. When the current is in the arc

509 719/288

goes to zero, the air speed through the nozzle increases and its static pressure decreases simultaneously. In connection with the general pressure drop in the container 1, this results in a pressure difference between the space 7 and container 1 and causes cold air in larger quantities from Space 7 flows through the opening 8 against the nozzle and cools down on the hot air flowing there works.

Claims (2)

Claims: IO 1. Arrangement with compressed air switches, in which the power switching point in a constantly container filled with compressed air and one of the two contacts of the exhibition: - place is designed as a nozzle contact through which the air is released in the event of an interruption process flows out of the container, characterized in that in the container (1) a space (7) which is delimited from the rest of the container (1), the with the rest of the space of the container through a relatively narrow opening (8) in connection Stands, is arranged such that the opening (8) of the delimited space (7) in the immediate Close to the outflow opening through the nozzle contact (4). 2. Arrangement for compressed air switches according to claim 1, characterized in that the narrow Opening (8) is arranged concentrically to the mating contact of the nozzle contact. 1 sheet of drawings 509 719/288 10. 65 © Bundesdruckerei Berlin