DE1172755B - Compressed air switch with main and auxiliary switching chambers - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Class: H 02 c

German class: 21 c - 35/10

Number: 1 172 755

File number: A 25070 VIII d / 21 c

Filing date: June 9, 1956

Opening day: June 25, 1964

The invention relates to a compressed air switch with main switching chambers and with in the off position of the main switch under compressed air auxiliary switching chambers for switching auxiliary impedances.

Compressed air switches are known in which a secondary path is connected in parallel to the main switching chamber which consists of an auxiliary impedance and an auxiliary switching point in series with it. The auxiliary switching point is housed in a switching chamber, which is already open before opening the auxiliary switching point is filled with compressed air so that the contact separation at the auxiliary switching point in static compressed air takes place. As a result, the breaking capacity of the auxiliary switching point is proportionate low, so that only relatively high-resistance auxiliary impedances in the secondary path to the main switching chamber can be used. The use of auxiliary impedances with lower resistance values, However, such as are desired, for example, to reduce switching overvoltages, requires a corresponding one more powerful auxiliary switching point. This can be achieved by blowing compressed air will. For this purpose, statements have become known, which make it possible to generate a strong air flow at the switching point during switch-off and to keep the switching path under compressed air in the switch-off position. But there are special ones Valve arrangements (exhaust valves) are required, which are open during switching off, in order to allow the outflow to allow the compressed air, which then close again so that the compressed air can remain in the switching chamber. However, these arrangements are complicated and expensive and therefore result in auxiliary switching points blown with compressed air an unjustifiable expense for auxiliary impedances.

A pressurized gas switch has also become known in which the switch-off arc is blown transversely and longitudinally at the main switching point. For longitudinal blowing, there is an additional space below the actual switching chamber, into which the movable switching pin retracts when it is switched off, thereby exposing an opening through which the extinguishing gas can flow into the additional space. In the switch-off position, however, this space is again depressurized, since the extinguishing gas flows back into the open via the opening mentioned, so that the opened switching path is only under atmospheric pressure. This has the disadvantage of an undesirably large contact distance for the open switching path, so that such a compressed air switch with main and
Auxiliary switchgear

Applicant:

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

Representative:

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

Munich 23, Dunantstr. 6th

Named as inventor:

Dipl.-Ing. Ivan Chaury, Baden (Switzerland)

Claimed priority:

Switzerland of May 30, 1956 (33 764)

Arrangement with auxiliary switching chambers would lead to prohibitively large dimensions.

Another known compressed air switch amV, whose main switching point is designed as a double nozzle contact, has the same disadvantages, with one nozzle tube being assigned an air storage space which, when switched off, is temporarily filled with switching air through the nozzle tube and is emptied again in the same way in the switched-off position. In this version, too, the open switching path is under atmospheric pressure.
The invention is based on the object of specifying a simple and space-saving solution for increasing the breaking capacity in auxiliary switching chambers. It is characterized by the following features:

a) Use of a single opening attached to each auxiliary switching chamber Air chamber, the opening through the outside of the air chamber in the auxiliary switching chamber located movable auxiliary contact piece can be locked;

b) the partition between the air chamber and the auxiliary switching chamber forms the fixed switching element and has the opening.

In this way one arrives at an auxiliary switching chamber with small dimensions, in which can achieve a considerable increase in the switch-off capacity without the need for additional exhaust valves are needed. Another advantageous option

, ■. ... 409 627/338

design is possible because the auxiliary switching chamber with the auxiliary impedance assigned to it forms a structural unit in that the air chamber is provided inside the body containing the auxiliary impedances.

The drawing shows an exemplary embodiment on the basis of which the concept of the invention is explained in more detail will. An auxiliary switching chamber with an attached air chamber is shown, in which the Air chamber is located within a resistance body. Here, 1 denotes a hollow insulator, in which the cylindrical resistor 2 is installed. The latter is on the ring 6 with the fixed contact 4 connected. The interior of the resistor 2 is designed as a cavity 3. That fixed switching piece 4 is located at the upper end of space 3 and is designed as a partition, which closes off the space 3 from the auxiliary switching chamber above, with its movable Switching piece 5 closes off the nozzle-shaped opening of the fixed switching piece 4 in the position shown. At the lower end, the space 3 is closed by the sealing piston 7 and the sealing rings. The external connection can be made at the screw 9. The movable contact piece 5 is for its actuation with a drive device of a known type, not shown in detail tied together.

The mode of operation of the arrangement is now as follows: In the position shown is the Auxiliary switching chamber in the switched-on state, the interior of the hollow insulator 1 and the space 3 are depressurized. To switch it off, compressed air is let into the hollow insulator 1, with the action being applied the drive device, not shown, connected to the movable contact piece 5 the contact piece 5 is moved upwards. The resulting between the contact pieces 4.5 is thereby Arc from the now released opening in the fixed contact 4 into the Blow the incoming compressed air into room 3 and extinguish it. The room 3 fills with compressed air for so long until the same pressure prevails in it as in the hollow insulator 1. This state remains as long as the contact pieces 4.5 are in the switch-off position. To switch on, the hollow insulator 1 vented again, whereby the space 3 also empties through the opening in the fixed contact piece 4, before the movable contact piece 5 is brought back into the position shown by its drive device will. The current path formed from the auxiliary switching point 4, 5 and the resistor 2 is as already mentioned, the main switching chamber of the compressed air switch connected in parallel, the interaction of main and auxiliary switching points is generally provided so that both switching points open and close almost at the same time when switching off or on.

The new arrangement can also be used in an equally advantageous manner for the application, known per se, in which the auxiliary switching point is itself is in the open state as long as the main switching point is switched on. Since during the switch-on position the main switching point is the secondary path formed from auxiliary switching point and auxiliary impedance is bridged by the main switching point, there is practically no potential difference across the open auxiliary switching point so that it is not necessary to keep the auxiliary switching point under compressed air during this time to keep. The mode of operation of the auxiliary switching point is then such that the one with the movable Switching piece S connected drive device acts in a manner known per se in a pulse-like manner by approximating at the same time as the main switching point opens, the auxiliary switching point 4.5 closes before the space 3 fills with compressed air. After a short given by the drive device Time moves the movable contact piece 5 into the off position, with the blowing of the Arc and the filling of the space 3 takes place as described above. When switching on the main switching point the movable contact piece 5 remains at rest, while the hollow insulator 1 and the Vent room 3.

Claims (2)

Patent claims: 1. Compressed air switch with main switching chambers and with the compressed air switch in the off position auxiliary switching chambers under compressed air for switching auxiliary impedances, characterized by the following features: a) Use of a single opening attached to each auxiliary switching chamber provided air chamber, the opening through the outside of the air chamber The movable auxiliary contact located in the auxiliary switching chamber can be locked; b) the partition between the air chamber and the auxiliary switching chamber forms the fixed auxiliary switching piece and has the opening. 2. Compressed air switch according to claim 1, characterized in that the air chamber inside the body containing the auxiliary impedances is provided. Considered publications:
German patent specifications No. 601144, 674 652. 1 sheet of drawings 409 627/338 6.64 θ Bundesdruckerei Berlin