DE684513C - High voltage fuse with melting chamber and expansion chamber - Google Patents

Description

High voltage fuse with melting chamber and expansion chamber known Inventions have dealt with those occurring in high voltage fuses Melting and switching gases through special construction elements for rapid expansion, for cooling, for absorption * or for spatial separation. this was attempted to be achieved by the most varied of means, through exhaust from the protection, through absorption by chemical substances, through assigned cavities etc. Attempts have also been made to assign an expansion space to the melting space, which consisted of a 1 m long tube, which was in connection with the open air. All these devices have shown to be deficient and inadequate.

The invention goes completely the same way around the switching gases to master, d. H. in order to achieve a complete expansion, the Liclitbogen range to clean of the switching gases and thus to design an isolator all around at the same time a possible influence of the .outside the switching element lying live Parts to be made impossible by the expansion space adjoining the melting chamber is a vacuum chamber.

The function of this chamber is as follows. If during the shutdown process Arcs and switching gases occur and thus pressure is created, the access opens from the melting chamber to the vacuum chamber automatically either through a valve or valve safety cap @O. Ä. And sucks the switching gases in connection with the existing negative pressure or without extinguishing agent in itself and is thereby capable of significant expansion to accelerate around at the same time to achieve a cooling, which by special structural design # of the chamber can still be increased. By varying The vacuum and volume of the chamber are capable of removing any amount of shut-off gases and therefore to master any disconnection power. The shutdown process goes , so in a space completely closed off from the environment in front of you, and it there is no possibility of any influence on the environment; mainly however, the shutdown process itself is accelerated and promoted.

Fig. I shows the structure of a vacuum chamber on a high-voltage fuse. i and a are the contacts of the high voltage fuse, 3 the tube of the fuse, q. a spring, 5 and 6 the melting element, 7 a contact plate, 8 the melting chamber, 9 the valve cover separating the vacuum chamber and the fuse, i o the housing the vacuum chamber, i i the safety valve that may be assigned to a vacuum chamber, i z the vacuum space itself.

The invention is not restricted to this exemplary embodiment.

After the melting element has melted, the valve opens upwards described type. This is the difference between u the vacuum <the chamber - and that prevailing in the security. Overpressure to effect, d. h, from .the melting chamber 8.,. the switching gases and possibly coolants are sucked off. Valve g can be arranged so; that as long as the overpressure in the self :; rüngsröhre is present, opens or opens freely into the vacuum chamber when overpressure occurs moved into it. Here, too, the figure only shows an arbitrary example.

Claims (2)

PATENT CLAIMS: i. High voltage fuse with melting chamber and expansion chamber, characterized in that the expansion space adjoining the melting chamber A vacuum chamber is in which the occurring during and after switching off Gases are sucked in. 2. High-voltage fuse according to claim i, characterized in that that .the closure of the vacuum chamber against the melting chamber was only correct with one bie -:.:; Pressure of the switching gases is opened. , 3. High-voltage fuse according to claim i -and 2; characterized in that the opening of the closure of the vacuum chamber compared to the melting chamber when the fuse is triggered by mechanical control is effected. q .. high-voltage fuse according to claim T; characterized; that another expansion space is arranged between the vacuum chamber and the melting chamber in which there is no negative pressure.