DE1085591B - Fire chamber for electrical fluid flow switches - Google Patents

Description

The invention relates to electrical oil switches in which the arc is flushed on all sides with pressurized oil is, namely switches with arcing chambers in which the pressurized oil is mainly perpendicular to the arc is pressed through a channel surrounding it in the shape of a ring, and in particular such switches which the vapor pressure generated by the arc in the chamber affects a differential piston, the drives the extinguishing stream of oil against the arc. In the known switches of the type described the ring channel, which is closed by the moving contact when the switch is switched on, becomes bounded by walls made of insulating materials, and the hot oil gases generated by the arc flow along a surface made of insulating materials. Because they are so exposed to the attack of the hot oil gases is, so it comes to the deposition of carbon and metal particles on the surface mentioned, which these makes it partially electrically conductive. This in turn gives rise to re-ignition or even to develop of arcing when the switch is turned on.

The disadvantages of the known switches are avoided in that the channel surrounding the arc is arranged in the quenching chamber according to the invention in such a way that it is delimited by the preferably flat end faces of the hollow fixed contact and a body made of insulating material which is arranged near the fixed contact and has a bore in which the movable contact of the L ^T ninterruption point is guided with a small amount of play.

It is known to provide the arcing chamber of a switch with outlet channels, some of which between the fixed contact of the switch and walls made of insulation material in the arcing chamber get lost. In these known expansion type switches, the oil flows when extinguishing out of the quenching chamber through said channels, while in the case of the switch according to the invention on the other hand the gases generated by the arc actuate a piston that presses the extinguishing oil into the extinguishing chamber. Due to the arrangement of the annular channel according to the invention, the deposits mentioned are on the wall parts made of insulating materials prevented. The extinguishing effect occurs immediately after separation of the two contacts, and you get a very short arcing time. Nevertheless, the supply of the Extinguishing agent only slowly and not abruptly, as is the case when the sewer is suddenly exposed is when the extinguishing agent is already under high pressure and suddenly pressed against the arc will. This also avoids the high overvoltages that otherwise often occur and the course of the interruption disturb.

Fire chamber for electric
Liquid flow switch

Applicant:

Allmänna Svenska Elektriska
Aktiebolaget, Västeräs (Sweden)

Representative: Dipl.-Ing. H. Missling, patent attorney,
Giessen, Bismarckstrasse. 43

Claimed priority:
Sweden 11 February 1955

Haakon Forwald, Ludvika (Sweden),
has been named as the inventor

To avoid any attack by the hot arc gases on the surface of the insulating material Exclude body is further according to the invention in the quenching chamber an additional, the arc surrounding, annular channel arranged on one side of the fixed contact of the interruption point facing away from the end face of the body of insulating material surrounding the movable contact limited and is supplied to the pressure oil in the same way as the first-mentioned channel.

In this way, an oil flow is obtained through the annular gap between the movable contact and the one surrounding it Body made of insulation material. This flow prevents the gases generated from passing through the Can flow in the annular gap or attack the surface of the insulation body. Simultaneously with this will be prevents uncontrollable pressure drops on the low-pressure side of the differential piston.

The chamber can be equipped with a replaceable spark contact that can be used against the Channel of the hollow fixed contact is directed and optionally protrudes into the cavity of this contact. In the event of an interruption, the arc is caught by the spark contact and shortened in the process. The burn-up is limited to this contact.

In the drawing, an example embodiment of the arcing chamber is shown in section. It consists of a housing 1 made of metal with a central part 2. This part carries a solid hollow contact of segments 4, which springs from 3 against the

^: "009 567/244

movable contact 15 are pressed and a bracket 11 to which an arcing contact 10 is attached is. In the central part 2, one or more spring-loaded valves are also arranged, which control the pressure in limit the low pressure chamber 6 of the extinguishing chamber.

The contact 15 goes through a cover 18 made of insulating material, which is fastened in the lower part of the housing 1 is. A part 7 is attached to the upper part of the housing 1, it has two concentric cylindrical ones Parts 21 and 22 which mainly extend inside the housing 1. The lower end of the The cylindrical part 22 is closed by the central part 2. In the cylinder 22 are openings 23, through which the oil can flow from the high-pressure chamber 20 into the chamber 19. One trained like a mug Differential piston 8 is movably arranged in the cylindrical parts 21 and 22, it separates the Low pressure chamber from the high pressure chamber and is supported by a coil spring 9 in its lower Position held.

A sleeve 14 made of insulating material sits in the bore of the cover-like part 13, which is between the bottom 18 and the part 2 is arranged and forms with these parts oil channels 12 and 17 through which the oil above and below the sleeve 14 can be fed to the arc channel. Between the sleeve 14 and the movable contact 15 remains an annular gap 16.

If the circuit breaker is triggered, the movable contact 15 leaves the mating contact 4. Through a vapor pressure is generated in the resulting arc, which acts on the large lower surface of the piston 8 acts and the oil in the high-pressure space 20 at high pressure through the openings 23 into the space 19 and presses further into the annular channels 12 and 17. Oil flows mainly vertically through the annular channel 12 against the arc, through the annular channel 17, oil is pressed into the annular gap 16, so that the hot Arc gases are prevented from escaping through the annular gap. The inner surface the sleeve 14 is thus completely protected against the attack of the hot gases.

Claims (2)

Patent claims: 1. Arcing chamber for electrical liquid flow switches, in which the arc occurs a ring channel surrounding this a quenching, from the outside inward directed oil flow under high pressure, mainly directed perpendicular to the arc, characterized in that, that the annular channel (12) from the preferably flat end faces of the hollow solid Contact (4) and an insulating body (13) is limited in which with little play (16) of the movable Contact (15) of the interruption point is performed. 2. extinguishing chamber according to claim 1, characterized in that the between the movable Contact and the insulating body formed annular gap (16) with a second, parallel to the first switched oil supply channel (17) is connected. Considered publications:
German Patent Nos. 921 521, 906 348;
British Patent No. 740,787;
U.S. Patent No. 2,106,531. 1 sheet of drawings