DE1540144B1 - Symmetrically constructed double extinguishing chamber for alternating current switchgear - Google Patents

Description

The invention relates to a symmetrically constructed double arcing chamber for AC switching devices with magnetic blowing by means of one or more Permanent magnet pairs, which are spaced opposite one another and parallel to the longitudinal center plane of the chamber and are arranged symmetrically to the chamber transverse center line.

They are arcing chambers for electrical switching devices with a permanent magnetic blow field known, which consists of two or more isolated parts made of permanent magnet material, preferably magnetoceramic material, with a permeability of about 1 (German publication 1015 893).

There is also an arc chamber for electrical switching devices Permanent blow magnets known on both sides of the arc chamber of the arcing chamber opposed to each other in pairs and a magnetic one directed transversely to the arc path Generate field, with the entire blown magnetic field divided into several individual fields in this way is that the size and / or direction of the transverse magnetization is along that of the movable Repeatedly change the switching contact in the arc chamber of the arcing chamber (German interpretation document 1074 699).

In a further known arc extinguishing device for electrical Switch with several arcs that are perpendicular to the one to be extinguished, parallel to one another arranged insulating plates with diagonally against the direction of movement of the arc running and obliquely upward slots, these are arranged in such a way that that on each one plate with a slot directed to the right a plate with a left-facing slot and vice versa follows, so that for the arc a zigzag path is formed (German Patent 597181).

These known devices have the disadvantage that they are insufficient are, an arc that occurs when a high current is switched off, effective to be deleted during a half period.

The invention has the task of providing a symmetrically constructed Double arcing chamber for exchangeable. power switchgear with magnetic blowing of the entrance described type with a higher switching capacity than that of the previously known to create corresponding extinguishing chambers.

The object is achieved according to the invention in that several, each consisting of a pair of insulating partitions and a plate-shaped pair of permanent magnets existing packages transverse to the longitudinal plane of the chamber and symmetrical to the transverse central plane of the chamber, are also arranged parallel to one another, but offset from one another in such a way that that they form a meandering gap, its transverse to the chamber longitudinal center plane lying areas of - each generated by a cooperating pair of permanent magnets - Magnetic fields are penetrated.

In the following, the invention is intended to be based on several exemplary embodiments and will be described in more detail with reference to the accompanying drawings. It shows FIG. 1 shows a longitudinal section along the line F-F in FIG. 2, the one embodiment of arcing chambers, comprising two compartments, each of which is conveniently located arranged and supported permanent magnet groups, F i g. 2 a section according to the line D-D of F i g.1 and 4, F i g. 3 and 4 in detail two plan views in the section of the extinguishing chamber according to FIGS. 1 and 2, namely FIG. 3 the cut according to the line G-G and F i g. 4 shows the section along the line E-E from FIG. 2, F i G. 5 the upper compartment of the chamber according to Figs. 1 and 2, of which only the electrical ones and magnetic parts are shown moved apart.

In FIGS. 1 and 2, a chamber is shown which has a larger number contains of pairs of magnets for each department and in which a multitude of elementary Permanent magnets are provided, each of which is preferably equipped with a return circuit are, so this type both because of the large number and the arrangement of the magnet pairs as well as because of the strength of the fields generated by them to interrupt very strong arcs is particularly suitable.

The perforated chamber has a shell made of insulating material with end walls 43 and side walls 44, which together with the insulating transverse walls 59, the permanent magnet groups 45-46, 55-56, 57-58 and 47-48, 53-54, 57'-58 ' Wear, which form the lower and the upper compartment of the chamber. The arrangement of the magnets and the design of the insulating inserts 59 'is such that a channel 50 for the passage of the movable contact 42 is formed in the central part of the chamber as soon as it separates from the fixed contact 41.

This type of arcing chamber has in every part except those mentioned above Permanent magnet pairs along the arc, two further permanent magnet pairs 45-46 resp. 47-48, which are in the separation zone of the movable contact 42 from the fixed contact 41 are arranged and have the task of a strong transverse to the direction of contact movement generate a moving magnetic field that causes the arc to move rapidly, which forms itself at the moment of contact separation and against the interior of the one or another chamber department is directed, depending on the polarity of the current half-wave, which is going through the arc at this moment. These magnets are against the direct Effect of the arc that develops near the pole faces by means of Insulating plates 64 (shown hatched in F i g.1) protected.

About the strength of the magnetic field formed by the aforementioned pairs of magnets To keep them as large as possible, two return circuits are provided for these magnets, which consist of elements 39 and 49, which are made of a material with good magnetic Permeability are formed and include the outermost part of the chamber to the to close the magnetic circuits of the magnet pairs 45-46 or 47-48 backwards.

Aligned with the fixed contact 41 are two conductive plates 51-52 arranged electrically to the fixed contact in any suitable manner are connected, and represent the two guide horns for the arc roots, which can easily move along one or the other conductive plate.

The other pairs of magnets 53-54 (Fig. 3) and 55-56 are elementary permanent magnets, of which the former in the lower section and the latter in the upper section Department are arranged, as from the cross-sectional image according to F i g. 2 can be seen.

The magnets are along the channel 50 according to the path of the movable one Contact 42 arranged and should be in the middle of the arcing chamber that this contact crossed, transverse fields of the same polarity as that of the pairs of magnets 45-46 and 47-48 to favor the shifting of the arc in the same direction. The polarities of the magnets are as usual with the letter N for the north pole and S for the South Pole. The magnet pairs can be wholly or partly with appropriate inference circuits must be provided.

Each section of this extinguishing chamber contains further pairs of elementary magnets 57 and 58 and 57 'and 58' (Figs. 1 and 4). These pairs of magnets are held by the transverse walls 59 as well as carried by the longitudinal walls 44, the former walls being shaped and are arranged (see Fig. 2 and 4) that there are between them column 61, the along with the passages provided parallel to the side walls 44 of the chamber form a maze (indicated in FIG. 4 with dashed line 62) so that a rapid and strong lengthening of the arc is effected during this moves towards the inside of the arcing chamber.

The elementary permanent magnet pairs 57-58 and 57'-58 ', which together with the return circuits 63 are supported by the transverse walls 59 and longitudinal walls 44, have the task of generating magnetic fields across the columns 61, which are already Movement carried out by the arc against the interior of the respective arcing chamber department still amplify.

The line 62 in FIG. 1 shows an instantaneous position in a longitudinal section of the arc forming between contacts 41 and 42, while the line 62 according to FIG. 4 the course of the arc practically at the same instant, but seen in plan from above, reproduces.

The longitudinal walls 44 of the chamber should preferably be covered with panels 60 which, like the transverse walls 59, are made of an arc-resistant insulating material are made. As already indicated, the sequential arrangement the cross-wall pairs in each chamber compartment in such a way that a funnel-shaped opening as clearly shown in FIG. 2 is formed, alternately after right and left, so that a labyrinth path for the arc between the plates arises if this is forced into the corridor under the action of the permanent magnets will.

To achieve the greatest performance of the continuous; magnets 57-58 and 57'-58 ', return circuits 63 are provided for each pair of magnets, which are wholly or partially made of appropriately shaped and curved plates with good magnetic permeability and insulating properties. Materials of this type can, as is known, be alkaline metalloid oxides associated with ferrites or suitable magnetic sintered ferrites.

Understanding the design and operation of the embodiment according to the F i g. 1 to 4 is illustrated by the perspective illustration in FIG. 5 relieved. F i g. Figure 5 shows in an exploded position the elements of the upper part the arcing chamber shown in Figs. 1 and 2. In this figure are for reasons For clarity, the walls, the panels and the insulating bearing and protective insert pieces the various components of the department are not shown, d. H. there are here only the electrical and magnetic parts of this arcing chamber section shown with the exception of the magnet pairs along the formation zone of the arc.

The corresponding components are given the same reference numerals as provided in FIGS. 1 to 4. So designate z. B. the reference numerals 41 and 42 den fixed and movable contact of the electrical circuit device into which the extinguishing chamber is to be installed; at 51 is the one belonging to the upper division Denotes plate electrically connected to the fixed contact 41 and one which forms the horns for the rapid displacement of the arc roots. It is also at 65 the electrical connection between the fixed contact 41 and the Plate 51 indicated. At 45 is one of the two magnets of the upper chamber division which are located near the opening zone of the contacts, the other magnet 46 is shown hatched because in FIG. 5 only part of the upper chamber division forming components appears. This figure shows the various components which, together with the walls not shown here, determine the course of the arch, clearly visible. These components, as already mentioned, are at a greater distance of each other as shown in reality, each consist of an elementary magnet pair 57-57 or 58-58, which are in the different sections of the gap 61, i.e. in the Labyrinth for the arc, create magnetic fields that cause the arc to move accelerate towards the interior of the chamber department. Each pair of magnets is with one Inference circuit 63 is provided, and the figure shows both the shape and the arrangement the magnet pairs 57-58 and the return circuit components 63 for the magnetic River clearly visible; In this case, too, the conclusion should preferably be complete or partly from a magnetic material with a high specific resistance exist.

The line 62 shows schematically one of the instantaneous positions which the arc forming at contact opening 41 and 42 assumes - shown in the figure as a current half-wave between contacts 42 and 41. The arch root 62, which was lingering on the contact 41 at the moment of opening, is here already noticeably displaced along the plate 51, which is connected to the contact 41 by a connecting line 65.

The in F i g. 1 to 4 shown arcing chamber works as follows. Each time the contacts are opened, the movable contact 42 separates from the fixed 41 by passing through the channel 50 located in the center of the chamber. In these moments immediately preceding the opening of the contact, the current of the circuit to be interrupted is already exposed to the action of the magnetic field generated by the magnets 45-46 and 47-48, which is directed transversely to the direction of contact movement, and the current is already against the upper edges of the conductive contacts moved, provided that the current half-wave (see Fig. 1) is directed from contact 42 to contact 41. When the contact is opened, the arc root that is being formed is already in the vicinity of the guide horn 51 and begins to move along it without any delay under the action of the same permanent magnetic field formed by the magnets 45-46.

This movement forces the arc to touch the sloping one Edges of the transverse plate pairs 59 and, by bending along the plates, into the Column 61 where it is exposed to the magnetic fields transverse to these columns 61 are generated by the permanent magnets 57 and 58. The effect of these fields extends obviously affects most of the arc and causes a rapid one Extension of the arc in the area formed by the gaps 61 and the plate edges 59 formed maze. This also results in cooling and vigorous deionization of the arc achieved, thus when passing through the natural zero point goes out.

An analogous mode of operation, but with a downward movement of the arc, ie against the other arcing chamber division, takes place when the current half-wave flows in the opposite direction, ie from contact 41 to contact 42, when the contacts are opened.

In the considerations made when describing the mode of operation of the Extinguishing chambers according to fig. 1 to 4 were employed, it was assumed that that when the contacts open, current half-waves are present with a sufficient duration, around the arc the deepest penetration into the interior of the two chamber compartments to allow before the passage of the arc current through the natural Zero point. If instead the opening of the contacts in the decaying phase of the Instantaneous stream takes place, therefore in an instant near the passage through the natural zero point, it might have the effect on the arc of one described Chamber Department exercised may not be of sufficient duration to be deleted cause. In the invention, however, an effective erasure is then different from the other Division of the same chamber is reached, which takes effect on the subsequent half-wave is during which an arc ignition takes place and which inevitably a sufficient one Has duration to attract the arc and into the interior of the second compartment to force, at the same time the movable contact shifts further and reached a sufficiently large distance from the fixed contact, so that reignition of the arc is certainly avoided after its interruption.

Of course, the design of the extinguishing chamber according to FIG. 1 to 4 also instead of two, as previously provided, z. B. have four compartments, or even more, but the polarity of the magnetic fields of each compartment must be reversed from the previous one by arranging the permanent magnet pairs 53-54, 55-56 and 57'-58 ', 57-58 accordingly .

In all of the described embodiments, the arrangement is the Divisions in such a way that the chamber has a direct effect on the total length of the arc is achieved without leaving any undissolved parts of the same. Of course, chambers according to the invention can also have an electrical circuit in all points be equipped in the simultaneous or successive contact separation occur, so that effective and safe work is guaranteed in any case is.

The arcing chambers can handle arcs of very different power be built, from fairly low to very high strengths, since under Use of suitable materials and, with the arrangement according to the invention, the magnetic fields, which are formed by the permanent magnets of the chamber and act on the arc, can reach a considerable strength, so that in the passage of the arc upstream zone magnetic inductions in the order of magnitude of, for example 0.1 weavers / m2 or more can be caused. Understandably so strong fields have a strong and very rapid effect even on large arcs Exercise strength in such a way that a quick and definitive erasure occurs.

The extinguishing chamber can be surrounded by air or with a suitable container be provided to the above-cited electrical and magnetic elements of the Chamber that can also be immersed in the insulating liquid in turn, can also contribute to the extinguishing of the arc. You can do it or the various pairs of compartments that make up the chamber into one Atmosphere of z. B. sulfur hexafluoride or selenium hexafluoride or in a Mixture of these gases with air, furthermore in an atmosphere of sulfur-trifluoromethyl-pentafluorine or the like or in hydrogen both at atmospheric pressure and with a suitable one immerse in higher pressure. On the other hand, the extinguishing chamber can also be converted into a suitable one Insulating fluid such as water or transformer oil or liquid sulfur hexafluoride or the like.

The electrical and magnetic components of an arcing chamber can also be enclosed by a container that allows the formation and maintenance of a vacuum allowed and in which the other components of an extinguishing chamber described above can be accommodated.

Claims (2)

Claims: 1. Symmetrically constructed double quenching chamber for AC switching devices with magnetic blowing by means of one or more permanent magnet pairs, which are arranged at a distance from each other parallel to the chamber longitudinal center plane and symmetrically to the chamber transverse center plane, thereby gauged nz eichn et that several, each consisting of a pair of insulating partitions (59) and a plate-shaped permanent magnet pair (57, 58; 57 ', 58') consisting of packages transversely to the chamber longitudinal center plane and symmetrically to the chamber transverse center plane, further parallel to one another, but offset from one another in such a way that they form a meandering gap; whose areas lying transversely to the chamber longitudinal center plane are penetrated by magnetic fields generated in each case by a cooperating pair of permanent magnets (57-57, 58-58, 57'-57 ', 58'-58). 2. Double arcing chamber according to claim 1, characterized in that in each section in addition to said permanent magnet pairs (57-57, 58-58, 57'-57 ', 58'-58') one more each Magnet pair (45-4G, 47-48) is arranged in the direction of the separation of the two contacts (41, 42) is attached, and that two horns designed as guide plates (51, 52) with the fixed contact (41) are electrically connected.