DE642365C - Switch with arc extinguishing by compressed gas and multiple interruption - Google Patents

Description

RICH

ENTAMT

PATENT LETTERING

Vi 642365
CLASS 21 c GROUP 35 ίο

RT9532 VIIIbJ2ic Date of publication of the patent grant: i8. February

Frida Strauss née Ruppel in Frankfurt, Main Switch with arc extinguishing by compressed gas and multiple interruption

Addition to the patent 64p 300

'■ Patented in the German Empire on October 17, 1929

The main patent started on February 4, 19127. "

The main patent relates to a switch with arc quenching by pressurized gas, at arranged and several interruption points in a common switching chamber are separated from each other by partitions made of insulating material, which in the direction of the The compressed gas flow and prevent the partial arcs from striking together. . If one assigns such a switch,

to how this in itself is nubile, the insulating walls directly on the contact surfaces, the arcs are against these insulating walls driven, causing damage as a result of the great heat of the arc Insulating walls can enter. There is also the risk that existing in the arc. Metal particles settle on the insulating walls and in this way that Promote the emergence of so-called creepage distances.

In order to avoid these disadvantages, according to the invention the contacts are not direct arranged on the insulating walls, but in such a way that the compressed gas between the contacts and flows through the insulating walls and the latter is fully coated on both sides. In this way it lies between the arc on the one hand and the partitions on the other one cooling and one locking pressurized gas chichi: and thus holds the arc away from the insulating walls.

An expedient Ausfühmungsform of the new arrangement is obtained if you the Contacts connected by ribs or spacers to the partitions, whereby then the pressurized gas flows through the spaces thus formed and the partitions protects against the arc. In some cases it is enough if the partitions extend in the longitudinal direction only over a part of the switch room and special Pressurized gas jets that are either the same or higher than normal blowing own, disconnect the point of interruption. These pressurized gas jets are passed through the mentioned spaces and are expediently controlled in such a way that they occur even before the contact is separated insert.

In the drawing, Ausführungsbet are shown games of the invention.

Fig. Ι shows the contact arrangement of a pressure gas nozzle switch, in which the nozzle, -shaped fixed contact 4, which is carried by an insulating cylinder 5, the mating contacts surrounds concentrically. The pin contact ι, which has a tip 3 from difficult to evaporate Has material, is encased by an insulating tube 2 from the one. Power supply bolt 15 worn. The current short-circuit between contacts 1 and 4 becomes through two concentric contact rings 6 and 7

effected, which are connected to one another by ribs arranged within the space 8 are. The rings 6 and 7 are made of hard-to-vaporize material with several endings 10 distributed around the circumference. rial. The contact rings become dark an insulating cylinder 9 is moved and pulled down for disconnection. The cylinder 9 has one of the two contact rings such a distance that there is a compressed gas layer on both sides between him and the Makes contacts and keeps the arcing away from the insulating material. The blowing takes place both within the Iaolierrohres 9 and through the ring cross-section between the insulating tube 9 and envelope 5. The compressed gas exits between rings 6 and 7 to separate the arc. Here this separates ring-shaped Pressurized gas jet the tear-off electrodes from rings 6 and 7, so that they strike together of the arcs between the contacts 4 and 6 on the one hand and 7 and 3 on the other hand 'impossible is. After the interruption between contacts 1 and 4 has been completed, the contact piece ι be moved down to the voltage distance. The different blowing can get different pressure; if necessary, the rings 6 and 7 can be attached to two concentric tubes 9 in this way be that through the space between these tubes a special gas for arc separation can be fed. In this arrangement, the interruption is, as can be seen, a twofold.

In Fig. 2, a similar embodiment is drawn as in Fig. 1; however is Here an insulating cylinder 11 for the purpose of arc separation, which drives the contact rings 6 and 7 is used, extended into the nozzle space. To prevent the arc is blown against this insulating cylinder, which could possibly result in the destruction of this cylinder according to the invention, the ring contacts 6 and 7 mounted so that between the Insulating cylinder and the ring contacts, a jet of compressed gas hits the surface of the insulating cylinder coated. At the same time it is achieved that the ring contacts 6 and 7, the are connected to one another by the ribs 8, are fully inflated on all sides. Of the Contact 1 is designed here in the same way as in Fig. 1; on the other hand, the ab- .; rcjßkontakt 12 in the nozzle by the ribs V $ 3 "· connected to this, so that the Ko i] bar 12 with the heavily evaporating ^ ' Material existing endings 14 is fully coated by the pressurized gas. The insulating cylinder 11 is also used here to move the contact rings 6 and 7 downwards; likewise here, too, after the interruption has been completed, contact 1 can be set to voltage spacing be moved down. The blowing of the contacts and the insulating cylinder is indicated by arrows. The compressed gas jet through the insulating tube 11 can have different or the same pressure as the between the insulating tube 11 and the sheath 5. With the same pressure, these two can Pressurized gas jets can optionally be taken from different vessels. All tear-off points are also provided with endings made of material that does not evaporate easily.

Claims (3)

Patent claims: 1. Switch with arc extinguishing by compressed gas and multiple interruption, whose interruption points are arranged in a common switching chamber, according to patent 640 300, thereby characterized in that the contacts with respect to the insulating partitions, which separate the interruption points, are arranged in such a way that the pressurized gas completely sweeps the partition walls on both sides and keep the arcs away from the partitions. 2. Switch according to claim 1, characterized in that the contacts through Ribs or spacers are connected to the partitions. 3. Switch according to claim 1 and 2 with concentrically surrounding, annular Contacts, characterized in that the moving contact consists of a double ring (6, 7), the space in between (8), in which the partition (9 or 11) is located, from pressurized gas is flowed through. Where 1 sheet of drawings