DE1206988B - High-voltage gas switch - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. α .:

HOIh

German KI .: 21c - 35/10

Number: 1 206 988

File number: C 28012 VIII d / 21 c

Filing date: September 25, 1962

Opening day: December 16, 1965

The invention relates to a high-voltage pressure gas switch, consisting of power, resistance and Continuous current switching point, which are all electrically connected in parallel, with the resistance and the power switching point are blown by a gaseous medium and the continuous current switching point is opened before the power switching point.

Compressed gas switches are known, in which the power and resistance switching point in a common, pressurized containers are arranged. Such switches have the disadvantage that their continuous current is limited with regard to the construction of the power switching point. True it is also known to use an electrical switch for a higher continuous current, that the power switching point is connected in parallel with a continuous current switching point, but this is missing Switches, in turn, have the option of potential control using a resistance switching point with associated switching resistor. Such switches are sometimes quite complex and cumbersome constructions. So z. B. a switch is known in which the power and continuous current switching point are arranged on different sides of a support column. In another known embodiment a continuous current switching point is arranged outside the power switching point. Here stands the continuous current switching point is never operationally under higher pressure, which is why its dielectric strength is limited. Furthermore, through the spatially separated arrangement requires a relatively complicated drive for the various switching points. Finally, it is also known to combine power and continuous current switching points in one To arrange free jet nozzle. On the one hand, these switches lack the resistance switching point, on the other hand the contacts are not arranged in a container that is permanently under gas pressure during operation. Their area of application is therefore on low voltages and low breaking capacities limited.

The disadvantages described above are eliminated according to the invention that in addition to Power and resistance switching point also the continuous current switching point in a known manner in one is arranged in the on and off position permanently under pressure container. the Consequences are extremely small dimensions of the entire switch despite high continuous currents and high switching capacity. This makes it possible to use part of the insulating, but at the same time pressure-tight To dispense with housing feedthroughs. Fer high voltage compressed gas switch

Applicant:

Continental Elektroindustrie Aktiengesellschaft

Voigt & Haeffner,

Frankfurt / M., Hanauer Landstr. 142-172

Named as inventor:

Richard Schulz, Friedberg (Hess.)

ner can by the common arrangement within a pressurized medium a achieve high dielectric strength with small contact opening paths. This property is also special if there are several interruption lines within a common container suitable for keeping the overall dimensions of the device small. Last but not least, the compact The design of pneumatic contact drives has the advantage of short control lines and thus shorter ones Proper times of the counter.

In a particularly advantageous embodiment of the invention, all of the fixed contacts form Switching points are a structural unit and are attached to a common contact carrier, whereby the individual switching points can be grouped in a star shape around the contact unit. This does not apply a whole range of components as well as complex assembly and adjustment work. In particular, the elimination some of the expensive and delicate bushing insulators are advantageous.

In the drawing, an embodiment according to the invention is shown. The F i g. 1 1 to 3 show a longitudinal section, a side view and a top view.

1 with the pressurized gas reservoir is referred to, which receives all switching points and resistors. the Power switching point 2 has a nozzle-shaped contact 4, which is connected to the blow valve (not shown) is united. The resistance switching point 3 has a movable contact piece 5, which is at the end a hollow body 6 is attached. This hollow body encloses the low-resistance resistors 7. Power and resistance switching points 2 and 3 lie in the axis of the container 1.

Should the switch be suitable for high switching capacity with a high continuous current at the same time, without the Excessive technical effort will be the

■ 509 758/312

fixed counter-contact pieces 8, 9 and 17 of the power, resistance and parallel switching point 2, 3 and 18 jointly mounted on a hollow insulator 19. This lies in one axis with the bushing insulator 10, the conductor of which is used for power supply. The hollow insulator 19 accommodates in its interior the parallel switching point 18 with the fixed contact 17 and the movable switching pin 20, which is electrically connected in parallel to the power switching point and is always opened or closed in front of it. The electrical connection of the stationary contact pieces 8, 9 and 17 to the current conductor of the bushing insulator 10 takes place via a plug-in device 21. This contact arrangement results in a simple and straight current conduction through the switch according to the invention.

The hollow insulator 19 is under the same pressure inside and outside and is against the free atmosphere completed by a metallic flange 22. Since the implementation 10 at its in the Be ao container protruding end is sealed gas-tight, none of the insulators is affected by internal pressure Bursting claimed.

The movable switching pin 20 of the parallel switching point, like the movable switching elements «5 the power and auxiliary switching point in the exemplary embodiment pneumatically via a common valve actuated. The control air for the parallel switching point is routed via lines 14 and 23.

The switch with the additional parallel switching point can be designed as a double switching element. In Figs. 2 and 3, this particular design is shown.

Claims (6)

Claims: 35 1.High-voltage pressure gas switch, consisting of power, resistance and continuous current switching parts, all of which are electrically connected in parallel, the resistance and the Power switching point are blown by a gaseous medium and the continuous current switching point is opened before the power switching point, characterized in that in addition to the Power (2) and resistance switching point (3) also the continuous current switching point (18) in one in a known manner in the on and off position permanently under overpressure container (1) is arranged. 2. High-voltage pressure gas switch according to claim 1, characterized in that the fixed Contacts (8, 9, 17) of all switching points (2, 3, 18) form a structural unit and on one common contact carrier (19) are attached and that the movable contacts. (4, 5, 20) are grouped in a star shape around the contact unit (8, 9, 17). 3. High-voltage pressure gas switch according to claims 1 and 2, characterized in that that the axis of the hollow insulator (19) coincides with that of the feed-through (10). 4. High-voltage pressure gas switch according to claims 1 to 3, characterized in that the fixed switching pieces (8, 9, 18) of all switching points are electrically connected to the conductor of the bushing (10) via a plug device (21). 5. High-voltage pressure gas switch according to claims 1 to 3, characterized in that the fixed counter-contact (17) and the movable switching element (20) of the parallel switching point (18) are arranged in the interior of the hollow insulator (19). 6. High-voltage pressure gas switch according to claims 1 to 5, characterized in that the movable contact piece (20) of the parallel switching point is actuated pneumatically. Considered publications: German patent specifications No. 567 936, 603 926,
817, 713 817, 960 739; German Auslegeschrift No. 1041567,
817. 1 sheet of drawings 509 758/312 12.65 © Bundesdruckerei Berlin