DE1031866B - Arc extinguishing device for electrical switches - Google Patents

Description

GERMAN

The invention relates to an arc extinguishing device for electrical. Switch where the Interrupting arc is broken down into several partial arcs, the base points of which by means of a magnetic blown field be set in rotation.

In such known arc extinguishing devices, the arc is between a number driven in by metal plates lying transversely to the arc and into several partial arcs, accordingly the number of these plates, disassembled. The partial arcs are converted into a circular movement offset. As a result, the partial arcs with their cathode voltage drop chilled and extinguished. These partial arcs are extended during loading * 5 movement not. This device is only suitable for low voltages. At high voltages would have to a disproportionately large number of metal plates are used to form an arcing chamber of extraordinary size and weight that would be very uneconomical.

Another known device for extinguishing the arc, in which this in a circular Movement is displaced consists in the movement of its partial arcs in two on either side of the drawn arc provided chambers takes place under the action of two different magnetic fields. This should give the partial arcs a better opportunity to cool down obtain. The partial arcs also move between two metal plates and experience during this no change in length during this movement. In another design, the entire arc is drawn into a gap by blowing action, which forms a circular ring path in which it passes constant rotation comes to an end. This device is also not suitable for high voltages, because it is correspondingly large and expensive.

The subject of the invention is an arc extinguishing device which does justice to a far higher breaking capacity. With it, the switch-off arc is also broken down into partial arcs, which are moved on a circular path by means of a blown field. However, in contrast to the known arrangements, a change in length is imposed on the individual partial arcs during the circular movement and at the same time the best possible cooling is used, because the partial arcs brush past a relatively large surface during the rotation. At the same time, the extinguishing effect of a narrow gap can also be used in a simple manner. Such a switch is particularly characterized by the Licat arc erasing device
for electrical switches

Applicant:

Voigt & Haeffner Aktiengesellschaft,
Frankfurt / M., Hanauer Landstr. 142-172

Wilhelm Fust, Giessen / Lahn,
has been named as the inventor

relatively small arcing chamber, even if it is designed for a very high voltage. aside from that the arrangement is not complicated in structure, so that its manufacturing cost is in keep moderate limits. This factor is very important for such an arc extinguishing device should not be or not be significantly more expensive than the extinguishing systems currently in use low-oil switch.

According to the invention, the circular movement of the base points of each partial arc takes place in the circumferential direction on the outer surfaces of two ring-shaped parts, between which an insulating partition of such size and shape is arranged that each partial arc during rotation as a result of it different arch height given by the insulating partition is changed in length. The insulating partition protrudes here at the point at which the arc on the lateral surfaces of the annular Parts strikes and is broken down into partial arcs between these parts, only a little over the Outer surfaces and gives the arc a shape other than a straight line. The distance of the The outer edge of the insulating partition wall from the path of the arc roots increases after both Directions. Instead of the ring-shaped parts, disk-shaped parts can also be used.

In addition to an extension of the moving arc, there is close contact with the Isoliersos 530/301

partition wall, so that larger amounts of heat are withdrawn from the arc. The
ring-shaped parts in their sequence alternating from a solid ring and a coil,
the latter with an iron core as a blow magnet
works. The arc current flows through each of these coils, creating a blown field
that makes the arc rotate. Instead of
Coils with iron cores can also have permanent magnets
come into use: whereby the coils are replaced by solid rings on the outer surfaces of the rings by partial arcs. 20 or the coils 21 are located. This arch shape of the

Further features of the invention emerge from the description, which refers to a shown in the drawing Embodiment references. It shows

Figure 1 a switch with the 15 according to the invention is provided, the excitation of which by each Arc extinguishing device, partly in section, coil 21 flowing arc current takes place. At

surface of the rings 20 and the coils 21 protrudes. At the points at which the interruption arc strikes the rings 20 or the coils 21 and in Partial arcs are broken down, the insulating disk 23 protrudes less over the outer surface of the parts 20 and 21, respectively than in the other places of its scope. The partial arcs are created through this protrusion of the insulating partition 23 brought into an arc shape so that the foot points of each

Partial arcs in their formation have a special purpose, which is described below.

A magnetic core 26 is located within each of the coils 21

Figure 2 the arc extinguishing chamber according to the invention in section along lines II-II in Figure 1,

Figure 3 shows a part of the arc extinguishing chamber on an enlarged "scale,

Fig. 4 shows the blower coil in a diagram.

The switch is driven by the switch rod 1, which moves the contact carrier 2 around its bearing point 3 counterclockwise when it is switched off. While the contact points 4, 5 and 6, 7 are opened, the break contact 9 is pressed with its horn contacts 10 and 11 against the fixed contacts 12 and 13, which are also horn-like. This pressing of the interruption contact 9

Metal plates 24, 25 are attached to each pole of the magnets 26 and have approximately the shape of the insulating partition 23 adapt and be enveloped by one of these. These plates 24 and 25 have the purpose to concentrate the lines of force in the intended places. The coils 21 are alternately in the opposite one Senses wrapped. Such a coil is shown in Figure 4. At the end of the first win

away. While the contact points 4, 5 and 6, 7 formation 27, a nose 28 is attached which is approximately in

the same plane of the start of the turn and in the circumferential direction slightly above the start of the turn reaches away. In front of the nose 28 there is a right-angled bend of the turn as a transition

to the mating contacts 12, 13, 30 30 to the middle turn 31. This turn 31

during the opening of the contact points 4, 5 and 6, 7, as well as the two outer ones, are in one plane takes place by a scissors joint 14, which up to a so no helical shape, and stands with a right not shown stop can be stretched. angled bend 32 with the outer turn 33 In the moment of reaching the stop in contact. This turn 33 has in turn is now also at high speed the lower 35 like the winding 27 a nose 34 which over the end Breaking contact 9 extends away from the fixed contacts 12 and the turn 33.

13 moved away. The resulting arc wanders the insulating partitions 23 as well as between

Rings 20 and coils 21 mounted on the horn-like extensions of the contacts are of 12 and 13 to the outside, 'which is enclosed by known means insulating covers 35, namely in the can be favored, because it is appropriate that 4 ° way that between the insulating partitions 23 and

the covers 35 a gap 36 is formed. This gap 36 is at the point where it is furthest is removed from the rings 20, through holes 37 in communication with the outside air. Furthermore, in the

the outward movement of the base points of the arc takes place at great speed.

By the scissors joint 14 is achieved that the
The breaking contact 9 taking over the breaking power does not also take over the Einsohalt power 45 covers 35 arc-shaped iron sheets 38 must, that is, not housed as the first contact when switching on, but only over the rings 20, ie is closed again. During the switch-on movement between the poles of two adjacent magnets 26 of the switching rod 1, the covers 35 are expediently folded up by means of a scissor hinge 14 to such an extent that screws 40 are first held together A holder of all in the Blaskammer comes, then the permanent contact 6 provided parts such as rings 20, coils 21, separating locks and only now or at the same time with walls 23 and magnets 26 takes place, the permanent contact 6 of the break contact 9 to the The operation of the device is as follows: the contacts 12 and 13 come to rest. The drawn arc 19, which runs along the horns

As already mentioned, the migration of the foot-like contacts 12, 13 can migrate outwards and

points of the between the contacts 12 and 13 ge pressed simultaneously up into the blow chamber

drawn arc are conveyed to the outside. is decomposed due to the rings 20 and coils 21,

In the exemplary embodiment, this is done by means of blower plates, which are expediently made of copper, in partial light

15. The arc travels upwards at the same time 22 arcs

and so gets into the blow chamber 16, where it is in part 60 arc shape. arc is disassembled. At the moment the arc struck

In the blowing chamber 16, an arc current flows alternately on the parts 20 and 21.

massive rings 20 and coils 21, which in the execution probably by the rings 20 and by the coil 21,

example consist of three turns. Between, however, as can be seen in Figure 4, only in the middle

these rings 20 and each of the outer turn 65 turn 31. That only the middle turn 31 passes through

the coils 21 produce the partial arcs. This will flow results from the fact that the foot points

Partial arcs are labeled 22 in Figures 2 and 3. of the partial arcs are based on the

Lugs 28 and 34 of the coil 21 are located between the rings 20 and the coils 21. Since the

Insulating partition 23 attached, the lugs 28 and 34 at each point at the end of the outer turn

of their circumference are attached over the circumference or the jacket 70, the outer turns 27 separate

or 33 initially for the generation of the blown field. The in the area between the plates 24 and 25 essentially parallel lines of force intersect each between a ring 20 and the outer turn of a coil 21 standing partial arcs 22, causing them in circular motion be moved. For this reason it is essential that the partial arcs are not straight ^ \ inig stand between the rings 20 and the coils 21, so that they are parallel to the lines of force were lying and a movement would not come about. According to the shape of the insulating partition 23, as can be seen in particular in Figure 2, each partial arc is inevitably lengthened by its arch height is increased. In Figure 2, the partial arc is shown in perspective at several points. The arc runs essentially in the radial direction. The further each partial arc 22 is removed from its point of origin, the greater is the length with which it is the lines of force of the blown field cuts. Therefore, with increasing elongation, there is intensive blowing or movement of each partial arc.

Each partial arc is in constant contact with the surface during the rapid circular movement the insulating partitions 23, so that a certain amount of heat is extracted. However, essential for the deletion is its great extension, which it receives from the shape of the partitions 23. Also has one of the covers 35 narrow gap 36 formed has an influence on the extinguishing of the arc. To achieve, The coils are responsible for the fact that the lines of force do not run in the same direction over the entire arcing chamber 21 alternately wound in opposite directions, so that two adjacent fields are opposite Have direction. The partial arcs therefore do not all run in the same direction, but rather move corresponding to the turns 27 and 33 of the coils 21 in opposite directions. As in 4 indicated by arrows, the base point of the arc runs from the nose 28 in a clockwise direction, while the base point of the arc at the turn 33 from the nose 34 in the counterclockwise direction wanders.

To avoid that when skipping the foot point of the arc from the end of the first turn back to the beginning of the first turn Where there is a burn, the arrangement is made so that the nose 28 and 34 on The end of the outer turns 27 and 33 is attached and in the circumferential direction over the beginning or the end of the turns 27 and 33 respectively reach away. The circulating arc therefore runs on the Nose 28 and 34 on, without generating a burn on the windings. If only the middle one at first Turn 31 is switched on to generate the blown field, so after the further movement of the Partial arcs gradually flowed through every three turns of the current and for the force field like that Made usable for a long time until the arcs run up again on the noses 28 and 34 and thus again in each case turn off the first turn. In general, the arcs will not rotate evenly, rather, they will circle irregularly among themselves, which is an advantage in terms of the extinguishing effect. Around also affect the distances of the arc from the blown field to the outside of the field between the Metal plates 24 and 25 lie, i. H. those parts of the arc whose base points are on the rings 20 revolve, plates 38 have been provided which cause part of the lines of force to be deflected and cut the arcs at these points.

Claims (12)

Patent claims: 1. Arc extinguishing device for electrical switches, in which the interrupting arc in several partial arcs are broken down, the base points of which by means of a magnetic blown field in Rotation are offset, characterized in that the base points of each partial arc on the Circumferential surfaces of two ring-shaped parts (20, 21), between which an insulating partition (23) is arranged of such a size and shape that each partial arc during the orbital movement due to its different arch height given by the insulating partition (23) in the length is changed. 2. Arrangement according to claim 1, characterized in that the insulating partition (23) on the point at which the arc strikes the outer surfaces of the parts (20, 21), only slightly above this protrudes, while the distance between the outer edge of the insulating partition wall in both directions (23) increases in size from the path of the arc roots. 3. Arrangement according to claim 1 and 2, characterized in that the annular parts (20, 21) alternating in their sequence of a solid ring (20) and a coil (21) exist, the latter, provided with an iron core, acting as a blowing magnet (26). 4. Arrangement according to claim 1 to 3, characterized in that the windings of two adjacent Blow coils (21) run in the opposite direction. 5. Arrangement according to claim 1 to 4, characterized in that the turns (27, 31, 33) of the blowing coil (21) are designed so that the arc base points are always on the outermost turn (27, 33) run. 6. Arrangement according to claim 5, characterized in that at the end of each outer turn (27, 33) of the blowing coil (21) has a nose (28, 34) attached before the transition to the next turn which extends over the beginning of the outer turn and to which the arc crosses. 7. Arrangement according to claim 1 and 2, characterized in that the blowing field by permanent magnets is produced. 8. Arrangement according to claim 1 and 2, characterized in that the insulating partition (23) each partial arc is surrounded by an insulating cover (35) that thereby a Narrow gap (36) is created in which the arc wanders. 9. Arrangement according to claim 1 to 8, characterized in that the gap (36) at the of the The path of the arc at the furthest point with the outside space through openings (37) is in connection. 10. Arrangement according to claim 1 to 9, characterized in that within the insulating partitions (23) Blower plates (24, 25) are arranged, which are directly connected to the core of the blow magnet (26) are connected. 11. Arrangement according to claim 1 to 10, characterized in that between two adjacent Blow magnets (26) iron sheets (38) are housed in the insulating covers (35). 12. Arrangement according to claim 1 to 11, characterized in that the insulating covers (35) and the insulating partition walls (23) consist of plate-shaped structures that by being lined up next to one another the annular parts (20, 21), Blower plates (24, 25) and magnetic cores (26) are held without special fastening means. Considered publications: German Patent Specifications No. 822 691, 928 635. 1 sheet of drawings