DE19928079A1 - High-voltage (HV) circuit-breaker with arc-quenching gas outflow channel - Google Patents

Abstract

A high-voltage circuit-breaker has two opposite-facing mutually coaxial arc contact tips (12) between which an arc (8) is drawn, in the event of disconnection/switch-off, in an arcing space (9), the latter being at least partly surrounded by an insulating nozzle (5). An outflow channel (11) surrounded by a tube (6) is provided for the arc-quenching gas heated by the arc and flowing out to the constriction of the insulating nozzle. A non-return or check valve (12), which allows the heated arc- quenching gas to pass in the outflow direction, is provided in the outflow channel (11). The non-return or check valve (12) has at least one, especially two, hinge-mounted swivellable plates (13,14).

Description

The invention relates to high voltage power switch with two coaxially opposing lights arc contact pieces, between which, if necessary, in the event of a switch-off an arc is drawn an arc space, the Arc space at least partially by an insulating nozzle and there is an outflow channel surrounded by a tube for extinguishing gas heated by the arc downstream the constriction of the insulating nozzle is provided.

Such a high-voltage circuit breaker is an example known from DE-OS 29 47 957.

Such a high-voltage circuit breaker Arc contact pieces provided, at least of which one is drivable in the course of a switching movement and zwi if necessary, an arc is drawn in the event of a shutdown becomes.

The arcing contact pieces are usually permanent current contact pieces surrounding the in the on state Carry nominal current during a switch-off process ge in time before the arcing contact pieces be separated.

A drivable continuous current contact piece can do this with a drivable arcing contact piece.

With the drivable arcing contact piece can also an insulating nozzle connected, both when switched on  Arcing contact pieces at least partially surrounds and surrounds the arc chamber during the switch-off process.

The high voltage circuit breaker enclosure, in which the arcing contact pieces and the continuous current con is usually with an extinguishing gas, for example filled with sulfur hexafluoride.

To extinguish the arc or its arc in the event of a switch-off Backfire after a current zero crossing of the to be switched To prevent electricity, the arc with the quenching gas blow on.

For this purpose, for example, a boiler room is provided in the Flow heated quenching gas into the arc chamber can get one out there until the next zero current crossing switching AC to be stored. To the stream The extinguishing gas then flows from the boiler room to zero crossing back to the arc room for cooling or deioni induction.

In addition, a mechanical compression device can also be used be provided for the extinguishing gas, which in the course of Schaltbewe is actuated.

The extinguishing gas strives, on the one hand, from the arc room in the boiler room, on the other hand also from the arc room along the longitudinal axis of the high voltage circuit breaker for example, to flow out through the insulating nozzle.

The present invention lies in this context The task is based on the one hand, to freely discharge the extinguishing gas allow for an unnecessary increase in pressure in the arc chamber  prevent and an unwanted backflow of the extinguishing gas flows as well as an unwanted contamination of the arc room to prevent with contaminated extinguishing gas.

The object is achieved in that in the Outflow channel let the extinguishing gas through in the outflow direction the check valve is provided.

The outflow channel can be formed, for example, by a contact tube 1 , which carries a fixed continuous current contact piece and concentrically surrounds a pin-shaped arcing contact piece. The outflow opening of the insulating nozzle then opens into the contact tube, so that the extinguishing gas flowing out flows directly from the insulating nozzle into the outflow channel. For this purpose, for example, a sliding seal can be provided between the insulating nozzle and the tube.

The check valve can be used, for example, as a plate valve with a linearly movable, an opening in the closure position closing plate be formed.

An advantageous embodiment of the invention provides that the check valve at least one, in particular two in has a pivotable plate (s) mounted on a hinge.

Such a check valve is characterized by a very short opening time and a large opening cross-section out. This is particularly important because the pressure increase of the Extinguishing gas takes place very quickly and the extinguishing gas with very should flow out at high speed.

A further advantageous embodiment of the invention provides before that the plate (s) by a on the hinge  netes spring element pressed into the closed position will become.

Due to the spring loading described is a fast Closing the check valve in the event that the quenching gas has the tendency towards the arc room to flow back.

The invention can also be advantageously configured in this way be that the hinge with its pivot axis along a diameter of the outflow circular in cross section channel is arranged.

In this case, opening and closing is very quick the check valve, combined with an optimal flow guaranteed cross-section for the extinguishing gas.

In any case, a check valve forms a certain one increased flow resistance in the outflow channel. This one can generate a small backlog of the extinguishing gas when it flows out a pressure wave migrating back to the arc chamber is lower Intensity can result. This backward pressure wave can affect the extinguishing behavior of the arc in the arc positively influence the area.

In the following, the invention is illustrated by means of an embodiment shown in a drawing and then described ben.

It shows

Fig. 1 is a view of the check valve,

Fig. 2 shows schematically in longitudinal section a part of an interrupter unit of a high voltage circuit breaker,

Fig. 3 shows the arrangement of FIG. 2 with the check valve open.

In FIG. 2, a part of an interrupter unit is a high-voltage circuit breaker having a first arcing contact 1 and a second arcing contact piece 2 is shown, of which the first arcing contact piece 1 in Ausschaltfall in the direction of arrow 3 by a not nä forth illustrated switch drive can be driven.

With the first drivable arcing contact 1 , which is designed as a tulip contact piece, a drivable permanent current contact piece 4 and an insulating nozzle 5 are connected.

The second arcing contact piece 2 is formed as a contact pin and surrounded by a fixed continuous current contact piece 6 .

The continuous current contact 6 is formed as a contact tube, which surrounds the contact pin 2 concentric, wherein the contact pin 2 by means of one or more webs is secured in the contact tube. 7

The interrupter unit is shown in FIG. 2 in an intermediate position between the switched-on state and the switched-off state, the continuous current contact pieces 4 , 6 and the arcing contact pieces 1 , 2 already being separated from one another. The second arcing contact piece 2 closes the constriction of the nozzle 5 and between the arcing contact pieces 1 , 2 an arc 8 burns in the arcing space 9 .

There he is heated and expanded by the action of the arc 8 extinguishing gas, which partially flows out through a channel 10 into a boiler room, not shown, and from there flows back to the arc chamber 9 when the current to be switched is zero.

Once the second arcing contact piece 2 in the form of clock pins Kon the nozzle constriction releasing, extinguishing gas can also flow through the bleed passage 11 and from there to a further issue volume Expan.

In the outflow channel 11 , which is surrounded by the contact tube 6 , a check valve 12 is provided, which has two plates 13 , 14 .

Each of the plates 13 , 14 is pivotally attached to a hinge 15 and loaded by a spring 16 such that they close the outflow channel 11 together in the rest position. For this purpose, the inside of the discharge passage 11 a from block 17, which serves as a stop for the plates 13, 14th

The spring 16 is designed as a helical spring, the ends of which win 18 , 19 rest resiliently on the plates 13 , 14 . In Fig. 3, the check valve 12 is shown in the open position, the plat th 13 , 14 are pivoted against the force of the spring 16 around the hinge 15 by the quenching gas flow and the discharge channel 11 ben largely free. The extinguishing gas can flow unhindered through the outflow channel 11 , but is braked in the event of a backflow if the plates 13 , 14 in this case are brought back into their closed position by the extinguishing gas flowing back and by the spring 16 .

Claims (4)

1. High-voltage circuit breaker with two mutually coaxially opposed arcing contact pieces (12), between which, if appropriate, Ausschaltfall in an arcing area (9), an arc (8) is pulled, said arc chamber (9) we nigstens partly of an insulating nozzle (5) is surrounded and wherein an outflow channel ( 11 ) surrounded by a tube ( 6 ) for quenching gas heated by the arc ( 8 ) is provided downstream of the narrow point of the insulating nozzle, characterized in that in the outflow channel ( 11 ) a check valve ( 12 ) which allows the quenching gas to flow in the outflow direction ) is provided. 2. High-voltage circuit breaker according to claim 1, characterized in that the check valve ( 12 ) has at least one, in particular two, in a hinge ( 15 ) mounted, pivotable plate (s) ( 13 , 14 ). 3. High-voltage circuit breaker according to claim 2, characterized in that the plate (s) ( 13 , 14 ) is / are pressed into the closed position by a spring element ( 16 ) arranged on the hinge ( 15 ). 4. High-voltage circuit breaker according to claim 2 or 3, characterized in that the hinge ( 15 ) is arranged with its pivot axis along a diameter of the cross-sectionally circular outflow channel ( 11 ).