DE675895C - DC tap changer with arc extinguishing by compressed gas - Google Patents

Description

DC on-load tap-changer with arc extinguishing by compressed gas Die Equipment for arc quenching of alternating current switches by means of compressed gas cannot easily be transferred to direct current switches, because with direct current Current and voltage usually remain constant and zero crossings, as with alternating current, does not take place. Thus, with direct current, the erase conditions are other and heavier, d. H. the gas flow must be stronger and last longer than with alternating current. Compressed air is particularly suitable for extinguishing switching arcs on electrically powered vehicles, because the setup is much easier is than the previously used magnetic blow and also because on vehicles Compressed air is mostly available anyway.

The extinguishability of the direct current arc, ns by means of compressed gas bending the contact opening point is in itself and also for electrically powered vehicles well-known, both the blowing from a foreign source of compressed gas, whereby the compressed air is controlled by the drive element of the movable switching contact, as well as arrangements in which the compressed air is simultaneously operated with the switch, preferably with switching off, is first generated. It is also known to use compressed air blowing to let reinsert already before the opening movement of the switching contacts, whereby the deletion process is shortened considerably. It is also known, the compressed air to let flow out of its own nozzle, which is immediately in front of the opening point of the contacts flows out.

The previous types of DC switches with compressed air spark extinguishing with control of the air valve either by lever linkage *. or by special Electromagnets were on tap changers with many stacked on top of or next to each other Individual switches too intricate and therefore practically useless.

According to the invention, therefore, not only the individual Switch contacts, but also the valves for their Compressed air blowing controlled by cam disks that sit on your common drive shaft.

In the drawing, an implementation> .ingsbeispiel is shown for the invention, namely: Fig. shows a step switch with cam, control and Fig. His Cross-section through ,. this switch after the line X-X.

Zn Fig. I means a the fixed and b the movable switch contact of an individual switch. The nozzle d, to which compressed air is fed from L via the valve, opens out below the contact point.

The movable contact b sits on a guided in the insulating terminal wall m. and against the spring .o displaceable pin in which at j the cam lever h is articulated. The Fedeno is stronger than the spring p, which presses the air valve e into the closed position. The cam disk t, which is also used for the switching lever drive and the valve control, is provided with two cams, one of which, through which the valve lever u is pivoted, comes into contact with the role of this lever earlier than the second cam with the role of the switching lever h ; As a result, compressed air first flows over contacts a, b, and only afterwards: contact b moves to the right. Instead of accommodating both cams on the same disk, it is also possible to use separate cam disks, which may be mutually adjustable. You can also make the cams adjustable on each individual disc.

As indicated in FIG. Z, several switches according to FIG. I are flatter Execution of a step switch next to or on top of each other: built and made by its common camshaft w driven like a shift drum. The individual switching points are expediently separated from each other by insulating spark walls v, and the Nozzle d can easily be provided by insulating pieces riveted between two walls v z are formed.

The invention is of course also applicable to tap changers Main and auxiliary contacts can be used, with compressed gas @ b @ e blowing only in the Burn-off contacts.

Claims (1)

PATENT SPRAY: i. Direct current tap changer with arc quenching through a nozzle, pressurized gas, controlled by the drive element of the tap contacts, in such a way that the pressurized gas blowing starts shortly before the relevant tap contact opens. 'g @ ekem @ records that besides the drive. . of the switching contacts, the pressure gas valves are also controlled by cam disks, which are located on a common drive shaft. z. Step switch according to claim i, characterized in that .the cam disks assigned to the valves and switching contacts are adjustable with respect to one another. 3. Step switch according to claim i, characterized in that the valve and switch are controlled by means of a single disc with cams offset from one another. q .. Step switch according to claim 3, characterized in that the cams, which are assigned to the valve and switching contact, are adjustable to one another. 5. Step switch according to claim i, characterized in that two nozzle walls are formed by the insulating spark walls arranged between the individual switching elements. 6. Tap selector switch according to claim 5, characterized in that the nozzle is composed of two radio walls and two insulators mounted therebetween is formed.