NO127132B - - Google Patents

Description

Arc extinguishing device.

It has previously been proposed to contribute to extinguishing the arc that forms between two circuit-breaker contacts at the moment they are separated,

by means of a ferromagnetic eye which is bent into a U-shape and which symmetrically surrounds the contact pieces and whose branches and cross-pieces are parallel to the separation direction of the contacts, i.e. with the arc at the moment it occurs between them.

The gaze causes a channeling of the magnetic induction caused by the current, i.e. partly the arc itself, except between

.the branches of the U, from the side facing away from the cross-piece in this,' and the magnetic field that exists between the branches pushes light

the arc against the cross-piece of the U-shaped tin, which may be sufficient to extinguish this arc by simple extension or division in a suitable device.

However, this is not the case if the arc is ignited in the plane of symmetry for the U-shaped eye. In this case, for the same reason as above, i.e. due to the channeling effect of the gaze, there will be a component of the force which seeks to push the arc towards the nearest branch. All this takes place as if the arc were attracted to its "image" in a mirror whose reflecting surface is the inside of the branch. The force of attraction towards the branch increases as the arc approaches it, and when the current finally passes through the branch, a part of the arc will appear at each contact perpendicular to the branch. If an insulating housing is inserted between the U-shaped tin and the contacts, this attraction is a well-known reason for damage to the insulating material that makes up this arc extinguishing housing. In fact, the arc is then struck violently against the wall of the house and the parts of the arc that are perpendicular to the branch are not exposed to the magnetic force that presses it against the cross-piece.

When the U-shaped eye is inside the house, the arc that is thrown towards this eye will be able to split. and all that remains are the two parts of the arc which are perpendicular to the branch and which, for the same reason, do not move towards the cross-section so that they can damage the house. The arc can even last and the current is not interrupted.

It is also known that in order to promote the extinguishing of an arc which moves while remaining substantially parallel to itself, it is possible to divide the arc by means of transverse extinguishing elements which are insulating or preferably conductive and ferromagnetic and which the arc gradually fashions.

The present invention concerns an arc extinguishing device which, in order to ensure the displacement of the arc, comprises a largely U-shaped element of ferromagnetic material, but without the drawbacks mentioned.

This U-shaped element will, during the separation of the contact pieces, lead the arc to contact with extinguishing wings that lie across the path for the arc.

The invention thus relates to an arc extinguishing device, which around two contacts, one of which is fixed and the other movable, comprises a flat ferromagnetic largely U-shaped element whose branches and cross-section surround the contacts in all the positions they can take, as the planes through the branches and the plane through the cross-piece are parallel to the separation direction for the contacts, whereby the special feature of the device according to the invention is that the branches in this element are bent parallel in a U-shape in the direction of the cross-piece in a plane perpendicular to the plane of the first U, with the bent parts of the branches lying opposite the fixed contact which includes a projection which is directed towards the cross-piece of the U-shaped element which, with two adjacent branch parts, not only surrounds the movable contact in all its positions, but also an extinguishing part as in the the smallest is parallel to the cross-piece and which is arranged between this cross-piece and. , the movable contact.

It should be noted that it is previously known to arrange slits across the arc path, in the U-shaped tins that serve to extinguish these arcs. In this known arrangement, however, the bottom of the U-beam is not interrupted between the branches which are limited by the slits, while the slits only have the task of dividing the arc and ■ allowing the hot gases from this arc to cool off and escape.

It is also known to U-bend the branches of a magnetic arc extinguishing element which is itself U-shaped. In contrast to the present invention, however, the three U's are bent in the same plane and this plane is parallel to the arc path, so that the effect achieved is completely different.

With reference to the attached drawings, it will now be described, as an example, how the device according to the invention can. ■•. • be brought to fruition..'■•..■>•.■-. Fig. 1 shows a longitudinal section, partially schematic of an arc extinguishing device according to the invention, the section corresponding to the line I-1 in fig. 2.

Fig. 2 shows a section along the line II-II in fig. 1.

Fig. 3 shows a schematic diagram of the extinguishing of an arc which occurs symmetrically between the contact pieces. Fig. -shows schematically- in perspective the path of the current when the arc moves in the lateral direction on the contact pieces and is divided into two parts. Fig. 5a shows the fixed contact seen from below and the part of the magnetic element that surrounds it. Fig. 5b shows a corresponding drawing in another embodiment of the device. Fig. 6 shows the device seen from above, i.e. turned upside down in relation to the two previous drawings, of the movable contact and of the part of the magnetic element that surrounds it.

The last three figures should show the path of the arc when it is ignited

in the lateral direction.

The device shown in fig. 1 and 2 is a device for light-arc refraction, and of which only half and the middle part are shown in detail in fig. 1.

This device is enclosed in an insulating housing 1, which comprises

a liner 2 for the slide support 3 for the contact bridge for the movable contact.

Each contact bridge consists of a slightly V-shaped conductor k which carries a contact set 5 of precious metal at each o end. The edge of each end of the conductor h is reinforced by means of a profile 22 of refractory metal, e.g. stainless steel.

In its middle part, the conductor h- is enclosed in the V-shaped groove

3a in the carrier 3. The conductor h is exposed at its ends to pressure from a spring 6 which is likewise V-shaped and whose middle part is pressed against a sharp corner by means of the spring 8 which, at its other end, rests against the carrier 3-

The fixed contacts that interact with this contact bridge are two C-shaped conductive elements 9, of which only one is shown in fig. 1,

and which is fixed in the bottom of the housing 1 by means of the screw 12 which is accessible through the hole 13 in the element 9« The element l^t- which forms the connection clamp is fixed in the housing by means of the screw 11..

The C-shaped element 9 comprises the fixed contact set 15 of noble metal and a thicker projection 16, the surface 16a of which faces the movable contact 5? lies in the same plane as the surface of the contact set 15.

The two contacts, the fixed one and the movable one, are surrounded by a plate 17 of ferromagnetic material, which is bent into a U-shape so that it has a bottom 17a which is perpendicular to the longitudinal direction of the front. the contact pieces, and two branches which are each divided by means of a slot 18, which extends from the bottom towards the free end of the branches. Each of these is thus shaped like a flat U and can be considered, fig. <*>f, seen from the bottom 17a, which is omboyed in its own plane in a branch 17b that goes out from the bottom and a branch 17c that goes back towards it. The branches 17c lie approximately at the same height as the fixed contact set 15 and the projection 16, while the branches 17b and the base 17a surround the space in which the movable contact set vmoves. Preferably, and as shown in Fig. 1, the slot 18 slopes

upwards in the direction towards the bottom 17a.

The space between the end of the movable contact and the bottom 17a is

divided by means of wings 20, which are parallel to each other and to the bottom 17a. These blades are appropriately conductive and of ferromagnetic material and toothed at the edge in a manner known per se, as shown at 20a in fig.2...

These wings can be replaced by similarly known spoon-shaped organs. A hole 21 in the housing also corresponds to each wing 20.

The device that has just been described works in the following way.

In the back and forth movement of the carrier 3 in the direction of the double arrow in fig. 1, the contacts are opened and closed. As the wedge 7, when the contacts are closed, can move freely at the end of the spring 8, the pressures on the two contacts in the same bridge are equalised. The contact pressure is transmitted through the spring 6.

Because the movable part formed by the conductor h and the spring 6 is so light, and also because of the friction of the curved ends 6a of this spring against the outside of the conductor k, the bump is

the movable contact when closing is considerably reduced.

During the opening of the contacts, the conductor h is removed from the fixed contacts when the hollow part 3a in the carrier 3? pulls the conductor h with it by coming into contact with its middle part. At this moment, an arc occurs between the fixed contact and the movable contact during the separation.

It should first be noted that due to the arrangement of the fixed and the movable contacts in parallel to each other, which ensures a simultaneous break, the arc will have an easy moment to evade in the direction towards the bottom 17a.

If the arc occurs in the middle plane corresponding to the fault line I-1 in Tig. 2, the U-shape of the ferromagnetic element 17 will highlight this tendency. The magnetic field produced by the current and the arc around it is actually, on three sides, channeled by means of the ferromagnetic element 17. The field will therefore affect the arc only on the side facing the bottom 17a, and consequently affect this arc in the direction towards the bottom whatever the direction of the current.

The result of this is shown in fig. 3- The arc that is ignited at 26a between the contact sets 5 and 15 moves first on the contact sets themselves, position 26b, and then along the profile 22 and the projection 16, position ■ 26c...

Whenever the arc approaches a ferromagnetic vane 20, it is attracted to it by the "mirror image effect", - ie, due to the channeling of the magnetic field by means of this vane,

which means that the field is only active at the wing.

The arc therefore eventually attaches itself firmly to all the plates 20

from the one closest to the moving contact, positions 26c-26e and finally it hooks. fixed on the bottom 17a, position 26f, develops and extinguishes.-

The initial arc'26a can also be ignited from one or the other side of the middle plane. In this case, in addition to the attraction towards the bottom 17a, it is also, and increasingly, more rapidly, attracted by the nearest branch.

The situation shown in fig. V where, for clarity, the distances between the elements are exaggerated. The initial arc d-separates, fig. k; in two arcs, namely one, 26A, between the fixed contact -and branch 17c of the leg, and another arc

26B between the movable contact and the branch 17b of the same leg.

The feet for these arc counter-contacts are then connected through a current flow 27 which follows the end of the slot 18, a flow which acts on the two arcs 26A, 26B so that they are pushed in the direction of the bottom 17a. This effect is all the more powerful because the flatter the current conductor, i.e. the branches 17b, 17c, and the closer to it are the fixed and movable contacts that conduct current to and from.

Lyhuen 26A, fig. 5a will thus move along the branch 17c and

from the edge of the projection 16.to the position 26^.

Due to the fact that the slot 18 slopes upwards, the pitch will also

of the arcs towards the wings 20 and the bottom 17a are highlighted..

It should be noted that the stromsloyfen 2? which ensures the desired effect, is achieved by there being no electrical connection between the two branches 17c. If this connection had existed, between the legs for the arcs 26A and 26B, a circuit would be completed through each of the legs, something. which would clearly seek to nullify the effect achieved by means of stroms.loyfene 27.

As shown in fig. 5b, however, the ends of the branches 17c may not be parallel, but directed towards each other as shown at 30. In other words, the division of the plate from which the element 17 is formed may be such that it does not include the entire suppression of the bottom between the branches 17c, provided that the bottom at this location is effectively interrupted. Such a break, which is sufficient to interrupt the electrical circuit, may be so small that it has a small reluctance and will consequently emphasize the magnetic action of the U-shaped element. Incidentally, it should be noted that the bottom, 17a in this U-shaped element can also have a narrow break without any disadvantage for the effect. The U-shaped element will then be formed by two. compiled. parts.

In the case shown in fig. 5b, the arc will move, as shown in fig. 5b, between positions 26A and 26^o. I.one or the other, case, fig. 6, the initial arc 26B will partly hook on the edge of the movable contact, then on the profile 22 and partly move along the branch 17b so that the arc will, in turn, hit the different wings 20 during a striking movement or rotation, this time from the side, undress them and extinguish...

Whether the arcs go directly towards the bottom of the housing or laterally and during division, they have one of their ends hooked on the edge of the movable contact. Because it is so light, the dressing of the .edge is difficult..The profile 22 of a metal which is ... more resistant to burning than copper-containing metals and which is placed to edge the end of the movable contact, prevents damage during the passage of the arc. With its downward-facing part 22a, the profile also protects the solder that connects the contact set 5 of noble metal with the conductor •+ and with its upward-directed edge 22b it protects the end of the spring 6 in a static area, for the arc before it goes out..

Because the fixed contact is so large, it can resist the burning from the arcs better than the movable contact. By the fact that the contact set 15 is immersed in the surface of the fixed contact, a jump is avoided when the arc passes from the contact set to the projection, a jump that would entail a delay in the displacement of the arc and make it more difficult to remove the heat, and thus cause the formation of contaminants of metal from the contact set 15 on the projection 16. Such contamination would slow down the displacement of the arc and cause local heating which would become increasingly worse.

Finally, as shown, the housings 1 can comprise a wall 32 which protects the contact springs 8 against heating and splashes of metal caused by the electric arc.

Claims (6)

1. Arc extinguishing device, which surrounds two contacts, one of which is fixed and the other movable, comprises a flat ferromagnetic largely U-shaped element whose branches and cross-section surround the contacts in all the positions they can take, as the planes through the branches and the plane through the cross-piece are parallel to the direction of separation for the contacts, characterized by the fact that the branches in this element are bent parallel in the U-fbrm-i' direction to the cross-piece in a plane perpendicular to the plane of the first U, with the bent parts (17c) of the branches lying opposite the fixed contact (9,15) which includes a projection (16) which is directed towards the cross-piece of the U-shaped element which, with two adjacent branch parts (17b), not only surrounds the movable contact (*+, 5) in all its positions, but also an extinguishing part (20) which is at least parallel to the cross piece and which is arranged between this cross piece (17a) and the movable contact. 2. Device as set forth in claim 1, characterized in that the ferromagnetic part is a tin (17) which has been cut out and bent, the bending back to a U-shape being achieved by a longitudinal slot being taken out in the tin ( 18) and by at least partially removing that part of the cross piece that connects the branches on one side of the slot. 3. Device as stated in claim 1, characterized by the slit (18) which parts of each of the branches are slanted and directed upwards in the direction in which the movable 'contact' differs from the fixed contact. k. Device as stated in claim 1, characterized in that the surface of the fixed contact set (15) is -extended with the surface -of the projection <16).. 5. Device as stated in claim k, characterized in that the surfaces of the contact set and of the projection lie in the same plate. 6. Device as stated in claim 1, characterized in that the U-shaped ferro-magnetic element (17) is divided into two parts which essentially lie symmetrically in relation to each other.'