DE102012101417A1 - High current contact with arc base trap and switching device especially for the high current technology with such a high current contact - Google Patents

Abstract

The invention relates to a high current contact (2, 5, 20) for a switching device (1), in particular the high current technology. The high-current contact has a contact point (6, 7, 21) and an arc base point trap (16) located on at least one side (S) of the contact point. The arc base trap comprises a projection (22) extending away from the contact point (6, 7, 21) and tapering away in the direction away from the contact point (6, 7, 21). The invention further relates to a switching device (1) with such a high-current contact as a fixed contact (2) or switching contact (5). Due to the tapered projection, a switching arc (13) is fixed to the arc base trap. The high current contact is preferably a flat stamped part. The projection tapers in the direction of a Lorentz force (F), which is generated by a deletion magnet arrangement (9) and acts on the switching arc, and preferably has a tip (24).

Description

The invention relates to a high current contact, in particular for switching devices of the high-current technology and a switching device, in particular a contactor, for the high-current technology with such a high-current contact.

If a switching contact is disconnected from a fixed contact when a switching device is opened, a switching arc between the switching contact and the fixed contact already forms at low voltages by about 12 V. In the prior art, various design measures are taken to weaken or delete the switching arc. Thus, switching and fixed contact can be arranged in a hermetically sealed, filled with a gas quenching chamber.

By deletion magnets, the switching arc can be moved out of the region of the opening contacts. The deflected by the extinguishing magnet bow exerts a force on his foot and pulls him behind him. This goes so far that the base point and thus the arc moves out of the effective range of the magnets and then no longer positively influenced and in the worst case the arc root is pressed into the insulator surrounding the supply line. The temperature of the arc root corresponds to the boiling point of the metallic conductor. The base in direct contact with the insulator may degrade the insulator and the resulting gases adversely affect the further course of the switching event.

So far, bolt-shaped fixed contacts are used in high current applications, which are held in an insulator. From the end faces of the stud contacts, the switching arc can hardly jump off. However, the bolt shape severely restricts the freedoms available to the designer in designing the switching devices.

The invention is therefore an object of the invention to provide a high-current contact, which improves the creative freedom in the design of the switching device over the known bolt-shaped fixed contacts with good control of the arc.

This object is achieved for the above-mentioned high-current contact according to the invention that this is provided with a contact point and located on at least one side of the contact point arc base trap in the form of a away from the contact point away, tapering away in the direction away from the contact point projection ,

By the arc base trap the base of the switching arc is fixed, so that regardless of the rest of the design of the high-current contact an emigration of the switching arc is prevented. The switching arc burns much quieter. The fixation of the foot is achieved by the tapered away from the contact point projection in the example, a quenching magnetic field of a switching device presses the switching arc.

The solution according to the invention can be further improved by further optional configurations which are advantageous in each case and can be combined with one another as desired.

Thus, according to a first advantageous embodiment, the arc base point trap can form a tip at its end pointing away from the contact point. The top may be rounded or corner shaped. At the top of the arc base trap, the switching arc forced away by the quenching magnetic field is fixed. For this purpose, the tip preferably points in the direction of the Lorentz force exerted by the erasing magnetic field on the switching arc. The fixation is the stronger, the greater and more discontinuous the change of direction of the converging edges of the projection at the top. For example, the switching arc is more stably fixed on a pointed tip than on a curved or blunt tip.

Further, the arc root trap may taper toward a point-shaped area in the direction away from the pad. The taper can be straight, triangular, curved or acute-angled.

The high-current contact can be designed according to a further advantageous embodiment as a flat body, in particular as a stamped part, of a metal sheet. Compared to the known bolt-shaped fixed contacts increases in this embodiment, the variety of possible for the high current contact forms, without affecting the fixation of the switching arc. In addition, less material is needed and the design of the connections for the high current cables to the high current contact is structurally simpler. In particular, the design as a stamped part has the advantage that a variety of design measures at low material and manufacturing costs are possible. The high-current contact can be better adapted to geometric specifications in these embodiments, which result, for example, in special embodiments of the switching device, in which the high-current contact is installed.

The projection of the arc base trap may be in the plane of the flat body and / or, for example, at a planar contact point, in the Extend at the level of the contact point. The contact point may extend in this embodiment, at least over a part or even over the entire projection, so that the Schaltlichtbogenfußpunkt must travel only small distances on the Lichtbogenfußpunktfalle before it is fixed to the projection.

The contact point can be thickened by material application, for example by welding, against the surrounding areas of the high-current contact. The material supply of the thickening leads to an extension of the operating time even with many switching cycles and allows a correspondingly high number of melting operations of the load contact surface by the switching arc.

The high-current contact can be made as an elongate strip, for example, of a sheet metal material.

The high current contact need not be configured as a body extending along a rectilinear axis, but may have a complicated space structure, as required by the particular application. Thus, the high current contact may have an example curved and / or stepped and / or folded structure. Due to the arc base trap, the remainder of the high current contact has no influence on the movements of the base of the switching arc away from the projection.

The arc base trap or its projection can be formed by a tongue-shaped region of the high-current contact. Such a tongue-shaped region can be produced inexpensively, in particular in the form of a punched tongue.

In a further embodiment, the remaining high-current contact may extend around the arc base point trap or the projection. In this embodiment, the projection can be separated from the rest of the high-current contact, for example, by an opening in the high-current contact. The opening serves as insulation which prevents skipping of the switching arc from the projection to opposite areas of the high current contact.

The distance of the projection or the arc base trap from the rest of the high current contact may be at least one sheet thickness, in particular when a stamped part is used as a high current contact.

In order to achieve compact dimensions, the arc base trap or its projection can be surrounded on at least three sides by the rest of the high-current contact. In particular, the arc base trap can be completely surrounded by the rest of the high-current contact, that is to say be arranged in the middle of the high-current contact.

The arc base trap or its projection is spaced according to a further advantageous embodiment on at least three sides of the rest of the high current contact. The spacing on the at least three sides prevents skipping of the switching arc. A connection to at least one remaining side between the arc base trap and the other high-current contact in the form of, for example, a material bridge ensures that the switching arc can move from the contact point to the projection free of obstacles. In order to prevent unnecessarily long paths of the switching arc from the contact point to the projection, in a development, the material bridge between the projection and the rest of the high current contact along a line between the contact point and the projection, in particular the tip of the projection lie.

In operation, it is to be expected that the switching arc moves in the direction of the Lorentz force along the edges of the projection under the effect of the Lorentz force generated by the erasing magnetic field. So that the switching arc can reach the edges of the projection at any point in a direct way, it is advantageous if the material bridge between the projection and the remaining high current contact corresponds in width to at least the width of the projection. In this embodiment, it is avoided that the projection has constricted areas or undercuts, which hinder the movement of the switching arc along the tapered edges of the projection.

The contact pad may be provided at a proximal end and a connection portion for connecting a cable may be provided at a distal end of the high current contact opposite the proximal end. The arc base point trap can taper in a further embodiment in the direction of the connection area. This embodiment is particularly advantageous when the high-current contact is to be installed in a switching device in which two opposing high-current contacts are installed. In such an installation situation is advantageous if the resulting arcs when opening the contact bridge are pushed away from each other and fixed at an increased distance by the Lichtbogenfußpunktfallen.

In order to guide the load current past the arc base point trap from the contact point to the connection region, the load current path can be guided laterally next to the arc base trap or its projection. The load current path can be separated from the projection through the opening be. The total load cross section of the load current path preferably corresponds approximately to the largest load cross section of the projection in order to achieve a uniform line resistance along the load current path.

The invention relates, as mentioned above, also a switching device of the high-current technology, which has at least one high-current contact in one of the embodiments described above. Furthermore, the switching device can have at least one erasing magnet arrangement with a magnetization direction which corresponds to a Lorentz force directed in the direction of the arc base point trap to a switching arc ending in the load contact area. By such a deletion magnet arrangement of the switching arc is urged with its base in the direction of the arc base trap and fixed in the tapered shape of the projection.

The erasing magnet arrangement may in particular extend in a U-shape around at least a portion of the high-current contact. It is particularly advantageous if the deletion magnet arrangement overlaps the arc base trap, so that at this point there is a homogeneous, non-weakened deletion magnetic field which securely fixes the switching arc in the arc base trap with the aid of an unattenuated Lorentz force.

The high-current contact can, at least in sections, be surrounded, in particular encapsulated, by an insulating material, for example plastic, in order additionally to weaken the switching arc or to prevent it from jumping off the contact point. In particular, for this purpose, the high current contact in the interior of the switching device can be wrapped up to the contact point with the insulating material. A housing made of an arc-resistant material such as ceramic can be dispensed with, because the arc root is kept away from the housing walls thanks to the arc base trap.

According to a further advantageous embodiment may be located between the Lichtbogenfußpunktfalle and the other areas of the high current contact insulating material. If, for example, the arc base trap is made by punching out an opening, then this opening can be filled with the insulating material. Of course, this also applies to an opening formed by another manufacturing method in high-current contact. The filling can take place in the course of the encapsulation of the high-current contact.

The switching device may further comprise a housing from which protrudes a connection region of the high-current contact for connection of a high-current line. In this embodiment can be dispensed with additional current-carrying elements in the switching device, because the load current to be switched is passed through the high-current contact from the contact point directly to the connection area to be connected lines.

The housing may cover at least one, preferably in the direction of the Lorentz force the projection opposite, the region of the Lichtbogenfußpunktfalle at least partially bypassing opening. The housing may preferably be made of a particular arc-resistant insulating material. Covering the opening makes it difficult for the switching arc to jump off the projection across the opening. The cover preferably takes place at the side facing away from the contact point, in the direction of the Lorentz force side facing the Lichtbogenfußpunktfalle, opposite the tip, if one is present. Since the erasing magnetic field and thus the Lorentz force become weaker with increasing distance from the contact point, the housing section covering the opening engages as a further safety measure.

In this case, the housing can protrude in particular into a connecting line between a switching contact moved away from the contact point or its switching contact point of the switching device and an area of the high-current contact opposite the arc base trap in the direction of the Lorentz force. In this embodiment, the possible path of the switching arc is blocked in the interior of the switching device by the additional insulating material of the housing. This leads to the fact that the emergence of a switching arc is difficult.

Finally, the housing can cover a load cross-section of the high-current contact located in the load current path on at least one side opposite the projection. The load current path indicates the path that the load current takes through the high current contact. In order to avoid a change in the load cross-section after prolonged operation due to arc-induced burnup, the load current path is additionally isolated in this embodiment. In particular, the housing can protrude into a connecting line between the switching contact moved away from the fixed contact and the at least one load cross section. Thus, the electrical resistance is increased along the possible paths of the switching arc due to the housing material present here.

If a plurality of high-current contacts are installed opposite one another in the switching device, then the projections each taper in directions pointing away from one another. In this way, the switching arcs are fixed in the greatest possible distance from each other.

In the following the invention is explained in more detail by way of example with reference to the accompanying drawings. The combination of features respectively shown in the exemplary embodiments can be adapted to the particular application in accordance with the above statements on the different configurations.

Show it:

1 a schematic and perspective sectional view through a switching device as a first embodiment of the invention;

2 a schematic and perspective plan view of a high current contact as a further embodiment of the invention;

3 a schematic and perspective sectional view of another embodiment of the invention.

First, the structure of a switching device according to the invention 1 based on 1 explained.

The switching device 1 is used in particular for switching high currents, with which large electrical power is transmitted. The currents of these currents can be well over 100 A, for example, over 1000 A to 2000 A. The voltages to be switched may exceed 400V.

The switching device 1 has at least one, after 2 for example, two opposing fixed contacts 2 on.

A housing 3 the switching device 1 surrounds a housing interior 4 in which at least one relative to the at least one fixed contact 2 movable switching contact 5 is arranged. The switching contact 5 is through an in 1 for the sake of simplicity, not shown actuator means movably driven and of the in 1 shown open position in an in 1 not shown closed position transferable.

The switching contact 5 is with at least one switching contact point 6 provided in the closed position against a fixed contact point 7 of the fixed contact 2 is moved. The number of switching contact points 6 preferably corresponds to the number of fixed contact points 7 , so that each switching contact point is assigned a fixed contact point. In the closed state flows due to the contacting of switching and fixed contact points a load current along a in 1 by a dashed line indicated load current paths 8th between the fixed contact 2 and the switching contact 5 ,

The switching contact 5 can, as in the illustrated embodiment, be configured as a switching bridge, at both ends of which in each case a switching contact point 6 located. The switching contact points 6 then can each assigned the fixed contact points 7 be two fixed contacts. In the closed position, the two switching contact points 6 to the two fixed contact points 7 driven, so that over the switching contact 5 an electrical connection between the two fixed contacts 2 is made. The load current path 8th then runs from the one fixed contact 2 via the switching contact 5 to the other fixed contact 2 ,

From this configuration modifications are possible. For example, two parallel switching bridges with a total of four switching contact points 6 to be available. Each high current contact 2 can then with two fixed contact points 7 be equipped, or there may be a total of two pairs of opposing high-current contacts 2 to be available.

Every fixed contact 2 may be a deletion magnet arrangement 9 be assigned. The erasing magnet arrangement 9 can be U-shaped with thighs 10 be configured and the fixed contact points 7 overlap. Between the thighs 10 of which in 1 due to the sectional view only one can be seen, each of the fixed contact extends 2 , in particular its fixed contact point 7 , The thigh 10 can respect the fixed contact 2 opposite permanent magnets 11 have, between them and thus in the region of the respective fixed contact 2 , in particular its fixed contact point 7 to create a homogeneous magnetic field. To achieve this, are each the antipoles of the permanent magnets 11 across from. The thigh 10 are through a bottom part 12 integrally connected to each other, so that a yoke-shaped conductive structure for the magnetic flux is formed.

The direction M of the extinguishing magnet arrangement 9 generated magnetic field is oriented so that on a switching arc 13 due to the high energy of the load current when disconnecting switching and fixed contacts 8th arises, a Lorentz force F acts, by which the switching arc is deflected in a predetermined direction. In the embodiment of 1 becomes the switching arc 13 by the Lorentz force F in each case in the direction of the housing 3 that is, from the inside 4 the switching device 1 looked outward distracted. The two at the switch / fixed contact point pairs 6 . 7 each resulting switching arcs 13 are moved by the respective deletion magnet arrangement, that is, away from one another. As 1 shows, it can be a foot point 14 of the switching arc 13 the respective contact point 6 . 7 leave and walk over the high current contact.

The housing 3 is preferably made of an insulator material, for example a plastic.

The fixed contact 2 and optionally also the switching contact 5 can, preferably down to the contact points 6 . 7 , also coated with an insulator material, in particular be overmoulded. This causes additional isolation, which is a migration of the foot 14 from the contact points 6 . 7 difficult.

The contact points 6 . 7 are thickened, for example by a welded-on material application. In the closed position, a uniform, flat contact between the contact points 6 . 7 To reach the contact points are preferably flat.

The fixed contact 2 can be from the inside 4 of the housing 3 preferably extend to the outside throughout. Outside the case 3 can the fixed contact 2 a connection area 15 have, on which a line, not shown, directly or indirectly, for example via screw terminals, can be connected.

In a designed as a flat body, in particular strip-shaped fixed contact 2 as he is in 1 is exemplified, in contrast to, for example, a bolt-shaped fixed contact disadvantageous that the base 14 of the switching arc 13 is in danger of being uncontrolled over a large area of fixed contact 2 to move. In the course of these movements could be the switching arc 13 leave the magnetic field generated by the erasing magnet assembly, whereupon with an even more uncontrolled movement of the switching arc 13 would be expected.

To avoid this, the fixed contact 2 with an arc base trap 16 provided by a in the operation of the switching device 1 resulting switching arc 13 is fixed in its position. Due to the arc base trap 16 is it possible, even flat fixed contacts 2 to use.

2 shows an example of a high current contact 20 , for example, as a fixed contact 2 or switching contact 5 in a switching device 1 can be used.

The high current contact 20 is preferably a flat, made of sheet metal, in particular strip-shaped stamped part. He can with a contact point 21 Be provided as the switching contact point 6 or as a fixed contact point 7 can serve. The contact point 21 is thickened by material application, such as welding or soldering. To the contact point 21 closes on at least one side of the arc base trap 16 at. With regard to the switching device of 1 lies the arc base trap 16 on the side D of the contact point 21 in which the magnetic field of the erasing magnet arrangement 9 generated, on the switching arc 13 acting Lorentz force F points. When installed, the erasing magnet arrangement 9 ( 1 ) the contact point 21 overlap or be arranged at their height, so that at the contact point 21 a strong Lorentz force F works.

The contact point 21 can trap over part or all of the arc base 16 extend.

The arc base trap 16 has a tongue-shaped projection in particular 22 on, moving away from the contact point 21 rejuvenated. In particular, the width of the projection increases in the plane of the contact point 21 towards the contact point 21 or in the direction of the Lorentz force. Is the high current contact 21 in a switching device 1 installed, the projection tapers 22 in the direction of the Lorentz force F. In the embodiment of 2 the edges run 23 of the projection 22 straight to each other and form at the end E of the projection 22 a peak 24 , The summit 24 preferably points from the contact point 21 path. The lead 22 may have an overall triangular or triangular-like contour and in the plane of the contact point 21 lie.

In alternative embodiments, the tip 24 also by a curved area and not like in 2 be formed by a corner.

The greater the change of direction of the edges 23 in the area of the top 24 is, the more is expected that the location of the foot 14 a switching arc 13 in the region of the tip in its position due to the magnetic field of the extinguishing magnet arrangement 9 remains fixed.

It is assumed that in operation the foot 14 a switching arc a path 25 as he exemplifies in 2 is shown. Under the action of the magnetic field of the erasing magnet assembly, the base point moves 14 in the time average with a direction determined by the Lorentz force F. He is at one point on an edge 23 along which he continues to move in the direction of the Lorentz force until he reaches the top 24 reached. At the top 24 can the switching arc 23 do not follow the Lorentz force F. Another movement along the edges 23 from the top 24 out, would be directed against the Lorentz force. The variations in the position of the foot point 14 should increase, the duller the tip 24 is. Slight movements of the foot point 14 in the area of the top 24 may be desired to burn off due to the switching arc 13 over a larger area of the edges 23 or the top 24 to distribute.

The lead 22 can in the production of the contact 20 also be produced as a stamped part in the course of the punching process. To prevent the switching arc 13 in its movement along the edge 23 or at the top 24 on a the lead 22 opposite area 26 One is the arc base trap 16 on at least three sides S ₁ , S ₂ , S ₃ surrounding opening 27 provided, which can also be punched out. In the embodiment as a stamped part is the projection 22 So designed as a punching tongue. The one from the top 24 or the end E of the projection 22 opposite section 26 ' of the area 26 can be a straight edge 23 ' have, at the right angles, two more edges 23 '' the opening 27 connect. The high current contact 2 For example, the arc base point trap may be surrounded on at least the three sides S ₁ , S ₂ , S ₃ , preferably on all sides.

To the size of the high current contact 20 compact is the arc base trap 16 preferably arranged in the middle of the high-current contact.

Because of the opening 27 is the lead 22 in at least one direction, after 1 this is at least the direction predetermined by the Lorentz force, of the other areas, in particular the opposite area 26 , High current contact spaced. This distance is preferably at least one material thickness 28 of the high current contact 20 ,

The lead 22 is over a material bridge 29 with the remaining high current contact 20 connected. The material bridge is, in the plane of the contact point 21 and in the direction transverse to the Lorentz force F, at least as wide as the projection 22 , As a result, there are no undercuts to the way of the foot 14 over the arc base trap 16 hinder.

At least one side of the arc base trap 16 , beyond the opening 27 , the load current path can 8th run. For this purpose, the high current contact 20 laterally next to the arc base trap 16 at least one load cross-section 30 on. In the illustrated embodiment are load cross sections 30 on both sides S ₂ , S ₃ of the opening 27 surrounded arc base trap available. The entire load cross section 30 of the load current path 8th is preferably always at least as large as the load cross-section of the projection 22 at its widest point, here at the material bridge 29 ,

The high current contact may be in the form of a metal strip, at its one, proximal, end 31 the contact point 21 and at its opposite, distal end 32 are the connection area 15 pacified. The connection area 15 can an insertion opening 33 in which a screw for a clamping connection (not shown) is receivable. The insertion opening 33 is in the production of the high current contact 20 also punched out as a stamped part.

Although the arc base trap 16 in the form of the tapered projection 22 already an excellent fixation of the switching arc 13 especially at a tip 24 further measures can further improve this effect. This is briefly referred to below with reference to 3 explains in which a switching device 1 for the sake of clarity without switching contact 5 and only with a deletion magnet arrangement 9 is shown.

As 3 shows is the area around the arc base trap 22 with an insulating material 39 filled. Not shown is the high current contact 20 except for the contact point 21 , here the hard contact 7 , preferably with the same insulating material 39 is coated. The coating can be done in a simple manner by encapsulation.

The housing 3 covers with an area 40 who after 3 Part of a side wall of the housing, preferably the part of the load current path 8th (see. 2 ), which is opposite the arc base trap 16 runs. In the present embodiment, this is the at least one load cross-section 30 or the lead 22 opposite area 26 ,

Further, at least part of the arc base point trap 16 surrounding opening 27 (see also 1 ) from the housing 3 covered. The housing 3 protrudes in particular into a connecting line between that of the associated fixed contact point 7 moving away switching contact point 6 (see. 1 ) and the area 26 , thereby skipping the switching arc from the arc base point trap 16 in the opposite area 26 is made even more difficult. A housing area 42 protrudes counter to the direction of the Lorentz force in the direction of the arc base trap 16 in front. The one in the direction of the Lorentz force of the top 24 opposite section 26 ' is like the load cross section 30 , specially protected. Thus, the area remains 26 for one of the switch contact point 5 outgoing switching arc 13 (see. 1 ) invisible.

LIST OF REFERENCE NUMBERS

1

switching device

2

fixed contact

3

casing

4

Housing interior

5

switching contact

6

Switching contact point

7

Fixed contact point

8th

Load current path

9

Extinguishing magnet arrangement

10

Leg of the extinguishing magnet arrangement

11

Permanent magnet of the extinguishing magnet arrangement

12

Bottom part of the extinguishing magnet arrangement

13

Switching arc

14

nadir

15

terminal area

16

Lichtbogenfußpunktfalle

20

High-current contact

21

contact point

22

head Start

23

Edges of the projection

23 '

the edge opposite the projection

23 ''

Edge perpendicular to the edge 23

24

Tip of the tab

25

Path of the foot of a switching arc

26

the region of the high current contact opposite the projection

26 '

the top 24 opposite part of the area 26

27

opening

28

Material thickness of the high current contact

29

material bridge

30

Last section

31

proximal end

32

distal end

33

Through opening

39

Insulator

40

Area of the housing

41

Connecting line between switching contact and area 26

42

projecting housing area

e

End of the projection

F

Lorentz force

M

magnetization direction

S

Side of the arc base trap

S ₁ , S ₂ , S ₃

 Side of the contact point

Claims (15)

High current contact ( 2 . 5 . 20 ) in particular for a switching device ( 1 ) of high current technology, with a contact point ( 6 . 7 . 21 ) and with an arc base point trap located on at least one side (S) of the contact point ( 16 ), who leave the contact point ( 6 . 7 . 21 ) extending away in the direction away from the contact point ( 22 ) having. High current contact ( 2 ) according to claim 1, wherein the arc base point trap ( 16 ) at one of the contact points ( 21 ) end pointing away (E) a peak (E) 24 ). High current contact ( 2 . 5 . 20 ) according to claim 1 or 2, wherein the high current contact ( 2 . 5 . 20 ) is designed as a flat body. High current contact ( 2 . 5 . 20 ) according to one of claims 1 to 3, wherein the high-current contact ( 2 . 5 . 20 ) is a stamped part of a metal sheet. High current contact ( 2 . 5 . 20 ) according to one of claims 1 to 4, wherein the projection ( 22 ) is tongue-shaped. High current contact ( 2 . 5 . 20 ) according to one of claims 1 to 5, wherein the arc base point trap ( 16 ) on at least three sides (S ₁ , S ₂ , S ₃ ) from the remaining high current contact ( 2 . 5 . 20 ) is spaced. High current contact ( 2 . 5 . 20 ) according to one of claims 1 to 6, wherein the contact point ( 6 . 7 . 21 ) at a proximal end ( 31 ) and a connection area ( 15 ) for connecting a conductor to the high-current contact ( 2 . 5 . 20 ) at a proximal end opposite distal end ( 32 ) and wherein the arc base point trap ( 16 ) in the direction of the connection area ( 15 ) rejuvenated. High current contact ( 2 . 5 . 20 ) according to one of claims 1 to 7, wherein the load current path ( 8th ), through which the arc base point trap ( 16 ) with a distal end ( 32 ) of the high current contact ( 2 . 5 . 20 ) is electrically conductively connected, laterally next to the arc base trap ( 16 ) runs. Switching device ( 1 ), in particular the high-current technology, with at least one high-current contact ( 2 . 5 . 20 ) according to one of claims 1 to 8 and at least one erasing magnet arrangement ( 9 ) with a magnetization direction (M) of one of the contact point ( 6 . 7 . 21 ) to the arc base trap ( 16 ) directed Lorentz force (F) on one at the contact point ( 6 . 7 . 21 ) switching arc ( 13 ) corresponds. Switching device ( 1 ) according to claim 9, wherein said at least one high current contact ( 2 . 5 . 20 ) is surrounded by an insulating material. Switching device ( 1 ) according to claim 9 or 10, wherein the high current contact ( 2 . 5 . 20 ) internally ( 4 ) of the switching device ( 1 ) except for the contact point ( 6 . 7 . 21 ) with an insulating material ( 39 ) is wrapped. Switching device ( 1 ) according to one of claims 9 to 11, wherein between the arc base point trap ( 16 ) and the area opposite the arc base trap ( 26 ) of the high current contact ( 2 . 5 . 20 ) Insulating material ( 39 ) is located. Switching device ( 1 ) according to one of claims 9 to 12, wherein the switching device ( 1 ) a housing ( 3 ), from which a connection area ( 15 ) of the high current contact ( 2 . 5 . 20 ) for connecting a conductor protrudes. Switching device ( 1 ) according to one of claims 9 to 13, wherein at least a part of the arc base point trap ( 16 ) at least partially surrounding opening ( 27 ) of the high current contact ( 2 . 5 . 20 ) from the housing ( 3 ) is covered. Switching device ( 1 ) according to one of claims 9 to 14, wherein the load current path ( 8th ) at least in one of the arc base trap ( 16 ) opposite area ( 26 ) from the housing ( 3 ) is covered.

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