DE591598C - Electric switch with arc extinguishing by a flowing, gaseous medium - Google Patents

Description

There are already electrical switches known in which the extinguishing process by flowing Pressurized gas is influenced. The compressed gas is either in a fixed between Contacts applying arc blown without any special guide devices or the contacts themselves are used to guide the gas flow. In the known designs of this type Usually the fixed electrode envelops the movable contact. When separating contacts the arc is then blown into the tubular covering electrode and extinguished. A nozzle-shaped extension the tubular electrode has proven to be particularly useful.

^N It has been suggested even with compressed gas switches to arrange an insulating wall in the arc path which have undergone working with pressurized containers

is flushed and has an opening through which one contact moves.

With these arrangements, however, in order to achieve effective arc extinction, the gas have as high a speed as possible. To this high speed too you have to apply a very high pressure, and this in turn means at the large exit cross-section resulting from the nozzle shape of the contacts high air consumption and relatively strong noise generation. These disadvantages too avoid is the object of the invention.

The invention thus relates to an electrical switch with arc quenching by a flowing, gaseous medium, wherein according to the invention movable insulating walls are moved through the arc path into a space formed by fixed insulating walls in such a way that they draw the arc into these spaces, and the. Air caused by the penetration ^{1 of} the movable. Isolation wall is displaced from the room, which causes blowing of the arc.

It is useful here to have an arrangement in which the movable walls are between two Fixed insulating walls provided with openings for the moving contact piece to pass through be guided. These walls then form the space into which the arc is drawn and at the same time they prevent the arc gases from going in any direction can evade the advancing moving walls.

This arrangement has the advantage that the arc at one point of its path where In contrast to the base points, relatively few ions are present through pure mechanical means concentrated in a certain narrowly delimited space and so narrowed that only very small residues of ions and arc gases remain, the can be blown away with a minimum of extinguishing gas. As a result, that suffices the moving wall creates airflow to extinguish the arc and it will no special compressed gas generation system is required.

In the drawing, embodiments of the invention are shown, namely the Fig. Ι and 3 show the elevation of the new switch ^s in the on or off state, while Fig. 2 shows a part of the switch in plan. Figs. 4 to 6 show the arc extinguishing device in various intermediate positions during the shutdown process. Finally, further details are shown in Figs. 7 and 8.

As can be seen from Fig. 1 to 3, the fixed contacts 2 and 3 are fixed in a housing 1 made of insulating material, which are connected to one another by a movable contact piece 4. Between the contacts 2 and 3 _(walls 5 are disposed of insulating material, which are joined together to form a closed body with an approximately rectangular cross section, as can be seen from the plan view of fig. 2. The walls each have a passage opening 6 for the contact 4. Another wall 8 is movably guided between the walls and fills the entire cross-section of the cavity formed by the walls 5. The wall 8 has longitudinal grooves 11 only at those points where the openings 6 are located, the width of which is approximately the width of the Openings 6. The wall 8 is held by a pawl, not shown, against a spring force 9 so that the openings 6 are free Wall 8 brought down by the spring 9 into the position shown in Fig. 3.

The deletion process itself is considered in more detail using Figs. 4 and 5. Fig. 4 shows how the wall 8 starts moving as soon as

the contact piece 4 has released the openings 6. The wall 8 penetrates into the between the contacts 2 and 4 drawn arc under the effect of thermal lift or any additional magnetic blowing upwards. Of the The gas strand of the arc is drawn from the front edge of the wall 8 into that of the walls 5 formed chamber 10 drawn into it.

In Fig. 5 it is shown how with progressive penetration of the wall 8 in the Chamber 10, the air located in this is compressed and its exit through the grooves located in the wall 8 ii and the openings 6 forces. When the wall 8 is fitted in a good sealing manner in their leadership, the grooves 11 and openings 6 form the only way for the escaping air and the arc gases. The one through the advance the wall 8 from the chamber 10 displaced air must therefore through the channels 11 and the Slots 6 carry the arc gases with them. The gases are then passed through the Channels 12 (Fig. 1 and 3) led to the outside; so that the gases have sufficient cooling can learn, the exhaust ducts in a known manner with a bundle of thin metal plates 13 where the hot arc gases deionize.

Fig. 6 shows the position of the wall 8 after completion of the extinguishing process. The gutters 11 and the wall 8 itself are assumed to be conically shaped, in such a way that the Cross-section of the gutters gradually widened downwards. The one available for the arc standing room is then constantly narrowed by the movement of the wall. When the bevels on the moving wall 8 are shorter than the depth of the chamber 10, then stands finally no room at all for the arc at the end of the movement of the wall 8 more available. This effect is increased by the fact that the fixed Walls 5 have corresponding projections, which in the grooves 11 in the end position the wall 8 are fitted. This also increases the insulating capacity of the interruption section, since there are any remaining sections in the channels Gas residues are immediately deionized by cooling on the walls. A re-ignition of the arc is as a result locked out.

In order to increase the creepage distances even more, the movable wall 8 can be used, as in Fig. 7 is shown, provided on its front edge with incisions 12, which in the end position engage in corresponding projections 13 of the fixed walls.

In order to increase the amount of air displaced by the movement of the wall 8, one can increase the cross section of the wall and the compression space 10 formed by the walls 5. You will make the arrangement so that at the openings 6 the distance of the walls 5 is smallest, but is widened in the other places. The extension can then take the form of a cylinder with a circular cross-section, as in Fig. 8 is shown. The cylinders, like the cylinders, cannot be in front of the openings 6 lying parts of the wall 8 in the embodiment of Fig. 2 are made of metal to a to enable better editing.

Claims (11)

Patent claims: i. Electrical switch with arc extinguishing by a flowing, gaseous Medium, characterized by the arrangement of movable and fixed insulating walls, such that when switched off one movable insulating wall (8) each through the arc path into one through fixed insulating walls (5) formed space (10) is moved into it, thereby draws the interruption arc into this space (10) and at the same time the air displaced by it from the space (10) creates a blowout of the arc causes. 2. Switch according to claim i, characterized by arranging the insulating walls in such a way that the air flow blowing the arc is opposite to the direction of movement the movable wall (8) runs. 3. Switch according to claim 1 and 2, characterized in that the through the fixed walls (5) formed space (10) only against the entry side of the movable Wall (8) is open. 4. Switch according to claim 1 to 3, characterized in that the fixed Insulating walls extend beyond the arc path and have openings (6) are provided for the passage of the moving contact piece (4). 5. Switch according to claim 1 to 4, characterized in that the movable Wall (8) has longitudinal grooves (11) whose Width corresponds approximately to the width of the passage openings (6). 6. Switch according to claim 1 to 5, characterized in that the movable Wall (8) is conically shaped that the one available for the arc Space is narrowed by the movement of the wall. 7. Switch according to claim 1 to 6, characterized in that the fixed Walls (5) are adapted to the shape of the movable wall so that at the end of the movement the walls fit tightly together. 8. Switch according to claim 6 and 7, characterized in that the bevel begins at such a point, which in the switch-off position below the passage openings (6) (Fig. 6). 9. Switch according to claim 1 to 8, characterized characterized in that the distance between the fixed walls (5) is widened laterally from the arc path in such a way that that despite the small distance between the fixed walls (5) at the Lichtbpgenstelle A sufficient amount of air is expelled to extinguish the arc (Fig. 8). 10. Switch according to claim 9, characterized in that the cross section of the Intermediate space (10) is cylindrical in shape at the enlarged points (Fig. 8). 11. Switch according to claim 1 to 10, characterized in that the movable wall (8) has notches on its end face (12) is provided, which in the end position in corresponding projections (13) of the fixed walls (5) engage (Fig. 7). 1 sheet of drawings