EP1005057A2 - Arc extinguishing device - Google Patents

Abstract

The arrangement has light arc guide rails (9-1) connected to the contacts (2-4) to carry the light arc away from the contacts to quenching coils (15-17) at the ends remote from the contacts with movable ferromagnetic metal cores (19-21). A short circuit bridge (25) connected to the other side of the coils from the contacts short circuits the cores when these are displaced by the magnetic fields induced by the coils when the light arc reaches them.

Description

Technical field

The invention relates to a device for deleting itself between contacts of a switchgear, a transformer or Busbars and Like. Forming arc.

In switchgear, transformer housings and. Like. Can unwanted arcs can be initiated in different ways under certain circumstances to destroy the corresponding system, but also to Endanger human life.

State of the art

From DE 39 12 726 A1 it is already known to use arcs when This causes opening of current-carrying contact pieces of switches delete that the corresponding contacts with expanding Arc guideways (burnout horns) are provided along which the arc due to its own magnetic field Contacts moved away. The arc is used when such Burning horns first expanded and then into one of several Sheet metal existing extinguishing chamber and there by division into Partial arcs extinguished.

A disadvantage of such known devices is, inter alia, that the arc must first be expanded before it actual quenching chamber is supplied. It can, in particular in switchgear, transformers and. Like. That in a housing are arranged, to damage and thus to a reduction the service life of the housing.

DE 43 45 170 A1 also describes a device for extinguishing known from arcs in switchgear, in which after training an arc this first with a photosensitive and a light-insensitive (e.g. magnetic) sensor is detected. The Sensor signals then activate an energy store that is stored in a Induction coil of a short circuiter generates a high current. As a result of Forces caused by the induction current in vacuum cup-shaped metal parts, a metallic short circuit generated that bridges the arc.

One disadvantage of this known device is that relatively complex and fault-prone sensor arrangement as well as the additional required energy storage, which is usually a Capacitor battery is.

DE 297 15 775 U1 is also one of DE 43 45 170 A1 corresponding device known, but not a separate Energy storage needed. Rather, they activate the arc Detecting sensors when an arc occurs a thyristors comprehensive circuit device which is in series with the induction coil of the short circuiter is switched. The one made of thyristors and induction coil existing series connection is directly to the busbars connected so that when an arc occurs corresponding short-circuit current first through the thyristors and Induction coil flows. The current-carrying induction coil then causes again a corresponding metallic short circuit that the Arc bridged.

Presentation of the invention

The present invention has for its object a Specify device of the type mentioned, with which a between the contacts of a switchgear, a transformer or Busbars and Like. Forming arc in a simple manner can be deleted quickly and safely.

This object is achieved by the features of Claim 1 solved. The subclaims give particularly advantageous Embodiments of the invention again.

The invention is essentially based on the idea that Electric arc with the help of a metallic short circuit bridge bridge and thereby quickly extinguish it. Here is the triggering of the short circuit by the arc itself initiated.

This invention is implemented by a device with Arc guide rails, which are the contacts, one of which is the respective Arc goes out, connects with quenching coils. The quenching coils are After reaching the arc, electricity flows through and generate one magnetic field each, which is then in the corresponding coil magnetizable metal core moves until the Short-circuit bridge contacted and thus the arc electrically shorts.

So that the arc moves along the Arc runner has the shortest possible length, it has proven to be proven to be advantageous, the distance of the arc rail in the running direction of the arc. This also increases the risk of Flashbacks that widen in known Arc running tracks occur frequently, significantly reduced.

In an advantageous embodiment of the invention, the Arc rails themselves on their facing the short circuit bridge Ends are coil-shaped so that separate quenching coils are not required can.

To ensure quick and good contact between the metal core and to ensure the short-circuit bridge, it has proven to be advantageous proven if the metal core is made of a ferromagnetic first Partial core and a second partial core made of copper put together. The first part of the core should be a quick shift of the entire metal core cause as soon as the quenching coil of electricity is flowed through, while the second core as the contact part Ensures connection with the short-circuit bridge.

Brief description of the drawings

Fig.1

die Vorderansicht einer mit den drei Einspeisungskontakten eines 3-Phasen-Transformators verbundenen erfindungsgemäßen Vorrichtung mit entsprechenden Löschspulen;

Fig.2

die Seitenansicht der in Fig.1 dargestellten Vorrichtung und

Fig.3

eine vergrößerte Ansicht einer Löschspule.

Further details and advantages of the invention are explained below with reference to exemplary embodiments shown in figures. Show it:

Fig. 1

the front view of a device connected to the three feed contacts of a 3-phase transformer according to the invention with corresponding quenching coils;

Fig. 2

the side view of the device shown in Fig.1 and

Fig. 3

an enlarged view of a quenching coil.

1 and 2, 1 is a device according to the invention designated. This is one with the three infeed contacts 2-4 For reasons of clarity connected transformer, not shown, the respective connection between the transformer and the Infeed contacts 2-4 take place via an electrically insulated line 5 (Fig.2). In addition, the feed contacts 2-4 of the transformer connected to the power rails 6-8 of a high-voltage network.

The device 1 according to the invention comprises three made of copper existing arc guide rails 9-11, the first end of each 12-14 connected to the feed contacts 2-4 and the second end 15-17 is coil-shaped and thus the function of an arcing coil owns.

The mutual distance 18 of the arc guide rails 9-11 is in a middle area between contacts 2-4 and the quenching coils 15-17 by leaps and bounds to about half the distance he was in the area of Has feed contacts, reduced.

There is an axial one within each of the three quenching coils 15-17 Slidable metal core 19-21 arranged, each in a Isolierstoffbuchse 22 (Fig.3) is guided and the contacts 2-4 facing end of a first partial core 23 made of iron and its opposite end made of a second partial core 24 made of copper consists. The second partial core 24 is at the end of each Quenching coil 15-17 arranged contact disc 28 with the quenching coil electrically connected.

On the side of the three quenching coils facing away from contacts 2-4 15-17 there is e.g. short-circuit bridge 25 made of copper, whose distance 27 from the respective metal core 19-21 is selected in such a way that it is in the intended use of the switchgear etc. no arcing occurs.

The mode of operation of the invention is discussed below:

Occurs, for example, between the two feed contacts 2, 3 an arc 26 (Fig.1), this initially migrates due to its magnetic own field along the two arc tracks 9, 10 from its point of origin towards the quenching coils 15, 16. The reduction in the distance between the arc guide rails 9, 10 spatially limits the extent of the arc.

The arc 26 then migrates over the turns of the Quenching coils 15, 16, so that current flows through them, so that builds up a magnetic field inside the respective coil 15, 16. This Magnetic field pulls the first partial core 23 of the respective metal core 19, 20 abruptly in the middle of the corresponding coil 15, 16 and moves thus the second partial core 24 made of copper in the direction on the short circuit bridge 25 until it reaches the bridge and the arc 26 is electrically short-circuited and goes out.

The invention is of course not based on the above described embodiment limited. For example Reduction of the spatial limitation of the arc's distance Arc tracks are not abruptly reduced from one another, but can also change continuously.

Furthermore, there is no need for the contacts of the switchgear etc. are contact parts of a certain shape or form. Much more areas of the switchgear etc. are generally referred to below, between which, experience has shown that it is easy to form arcs comes and as quickly as possible by means of the device according to the invention should be deleted.

Reference list

1

contraption

2-4

Infeed contacts, contacts

5

management

6-8

Busbars

9-11

Arc guide rails

12-14

first end

15-17

second end, quenching coil, coil

18th

distance

19-21

Metal core

22

Insulation bushing

23

first partial core

24th

second partial core

25th

Short circuit bridge

26

Electric arc

27

distance

28

Contact washer

Claims (6)

Device for extinguishing an arc (26) forming between contacts (2-4) of a switchgear, a transformer or busbars, with the features: a) the device (1) comprises arc guides (9-11) connected to the contacts (2-4), along which the arc (26) moves away from the contacts (2-4); b) the arc guide rails (9-11) are each connected at their ends facing away from the contacts (2-4) to a quenching coil (15-17) which contains an axially displaceable, at least partially ferromagnetic metal core (19-21); c) a short-circuit bridge (25) is arranged on the side of the quenching coil (15-17) facing away from the contacts (2-4); d) the metal cores (19-21) arranged in the quenching coils (15-17) are designed such that they are generated by the magnetic fields which are generated within the quenching coils (15-17) when the respective arc (26) reaches them, in the direction of the short-circuit bridge (25), so that the contacts (2-4) are electrically short-circuited via the short-circuit bridge (25). Apparatus according to claim 1, characterized in that the distance (18) between adjacent arc guide rails (9-11) decreases from their contact-side to their coil-side end. Device according to claim 1 or 2, characterized in that the arc running rails (9-11) consist of copper. Device according to one of claims 1 to 3, characterized in that the respective metal core (19-21) consists of a first ferromagnetic partial core (23) and a second partial core (24) made of copper and facing the short-circuit bridge (25). Device according to one of claims 1 to 4, characterized in that the arc tracks (9-11) are coil-shaped at their ends facing the short-circuit bridge (25) and form the quenching coils (15-17). Device according to one of claims 1 to 5, characterized in that the device (1) is arranged within a housing surrounding the contacts (2-4).

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