DE1205605B - Compressed gas switch with a switching point located inside a hollow insulator - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. α .:

Number:
File number:
Registration date:
Display day:

HOIh

German class: 21c-35/10

A46811VIIId / 21c
August 10, 1964
November 25, 1965

The invention relates to a pressurized gas switch with one located inside a hollow insulator Switching point, which consists of a stationary and concentric to the hollow insulator a movable, nozzle-shaped extension on its contact-making side an umbrella-shaped extension having contact piece, the ring channel between the hollow insulator and the stationary Switching piece serves as a compressed gas supply to the switching point when switching off and the hollow insulator in the Area of the switching point is bulged.

It is known for gas switches, the switching point to be arranged within a hollow insulator forming the switching chamber, in which the extinguishing agent flows in from one side to switch off. Here it is favorable in and of itself that the Make the inner wall of the hollow insulator cylindrical in order to obtain good flow conditions. On the other hand, however, it is also desirable to have the arcing chamber insulator in the area of the switching point in the inner diameter to be kept large in order to create space for a nozzle screen of the one contact piece, through which the deflection of the extinguishing agent is favored, with this screen at the same time a deposit of metal particles splashing away largely on the inner surface of the hollow insulator prevented. The arcing chamber isolators are therefore already available with an extension in the area of Switching point designed to get the large inner diameter at the desired point without in doing so, however, make the insulator large in diameter over its entire length. In this way could the end fittings of the isolator, such. B. flanges and the like, are kept small, which is under among other things because of the internal pressure stress on the connection points is desirable. The two demands favorable flow conditions for the extinguishing agent supply and the largest possible inside diameter however, in the area of the switching point, they cannot easily be met at the same time, so that so far always an unsatisfactory compromise solution had to be chosen.

The invention is therefore based on the object of specifying a simple solution for this, in which the disadvantages of the known embodiments are avoided. According to the invention it is proposed that a protruding into the bulged part of the hollow insulator gas guide tube is provided which concentrically surrounds the stationary contact piece and extends to the vicinity of the contact-making end of the contact piece extends. In this way, it is possible to use compressed gas switches with this Compressed gas switch with a switching point located inside a hollow insulator

Applicant:

Public Company, Brown, Boveri & Cie.,
Baden (Switzerland)

Representative:

Dr.-Ing. E. Sommerfeld, patent attorney,

Munich 23, Dunantstr. 6th

Named as inventor:

Dipl.-Ing. Helmuth Schubert,

Dipl.-Ing. Janis Vitins, Wettingen (Switzerland)

Claimed priority:

Switzerland of July 24, 1964 (9703)

Device are provided to increase the switching capacity significantly, especially under certain difficult stresses, such as those. B. exist in phase opposition and distance short circuits.

With reference to the drawing, which shows an exemplary embodiment according to the invention, this is explained in more detail below:

Inside the hollow insulator designated 1, which is bulged in its central part, there is the stationary, nozzle-shaped contact piece 2 and the movable contact piece 3, which has the umbrella-shaped extension 3 α on the contacting side. The switching piece 2 is concentrically surrounded by the cylindrical gas pipe 4, which protrudes into the bulged part of the hollow insulator 1 and extends into the vicinity of the upper, contact-making end of the switching piece 2. The gas guide tube 4 can consist of metal and is firmly inserted into the lower cylindrical part of the hollow insulator 1. In certain cases, the gas pipe 4 can also consist of insulating material, if this is required by the internal electrical strength of the switching chamber. Furthermore, the gas pipe 4 may have radial bores 4 a, through which any precipitation, z. B. metal vapor,

^: 509 739/312

in the space between gas pipe 4 and hollow insulator 1 can be avoided. In that of the extinguishing agent supply The annular channel 5 used can finally be a conical, made of perforated sheet metal known compensating grid 6 can be arranged to equalize the flow of compressed gas. This Compensating grid 6 can be brought up close to the switching point in an advantageous manner, whereby its effect is significantly increased.

The mode of operation of the arrangement is as follows: To switch off, pressurized gas is allowed to flow in through the annular channel 5. As indicated by the arrows, the pressurized gas flows through the compensating grating 6 and passes between the opening contact pieces 2, 3, wherein it is redirected by the umbrella-shaped extension 3 a and 3 escapes through the interior of the contact pieces 2 to the outside. The movable contact piece 3 α is brought into the illustrated switch-off position by the incoming pressurized gas. For this purpose, it has a drive piston of a known type, not shown. The switching arc that forms between the separating contact pieces 2, 3 is blown in a known manner in opposite directions into the interior of the contact pieces and extinguished. A small part of the compressed gas passes through the radial bores Aa of the gas guide tube 4 and removes any metal vapor deposits from the space between parts 1 and 4. In the selected embodiment, it is a power switching point that opens only briefly during the switch-off, which is connected to an electrically in Series lying voltage switching point interacts in a known manner. The power switching point closes again after a short time, e.g. B. under the action of a closing spring, not shown, as soon as the supply of pressurized gas ceases and the voltage switching point has taken over the isolation of the switched off switch.

The invention is not restricted to the exemplary embodiment shown. So z. B. the fixed Switching piece 2 be designed as a full switching pin (single blowing).

Claims (1)

Patent claims: 1. Compressed gas switch with a switching point located within a hollow insulator, which a stationary and a movable one arranged concentrically to the hollow insulator nozzle-shaped, having an umbrella-shaped extension on its contact-making side Switching piece consists, the ring channel between the hollow insulator and the fixed switching piece serves as a compressed gas supply to the switching point when switching off and the hollow insulator in the Area of the switching point is bulged, characterized in that a into the a bulged part of the hollow insulator protruding cylindrical gas guide tube is provided, which concentrically surrounds the fixed contact and extends to the vicinity of the contact-making Extends the end of the contact piece. 2. Compressed gas switch according to claim 1, characterized in that the gas guide tube made of metal consists. 4. Compressed gas switch according to claim 1, characterized in that between the fixed Switching piece and the gas pipe known per se means for equalizing the Compressed gas flow are arranged. 5. Compressed gas switch according to claim 1, characterized in that the gas guide tube has radial bores (4 a). Considered publications:
German patent specifications No. 606 982, 607 703.
353, 675 371, 659 675, 969 871;
German interpretative document No. 1 011 035. 1 sheet of drawings 509 739/312 11.65 © Bundesdruckerei Berlin