DE967621C - Permanent magnet blower arrangement effective in both directions of current for arc chambers of direct current switching devices - Google Patents

Description

ISSUED NOVEMBER 28, 1957

It is known that in DC switching devices, the blown field in the arc chamber by permanent magnets to create. Especially when using, high-performance permanent magnets a compact design and the arc! is safely extinguished even with small currents. Such switching devices always require a very specific field direction of the permanent magnets corresponding polarity. If the polarity is incorrect, the arc would, in the wrong direction, for example blown in the direction of the gearbox. But it is annoying to have such devices all the time having to polish in a certain way. Also, such devices would not be used anywhere the. let where the direct current changes direction during operation.

The invention is based on a permanent magnet blower assembly for arc chambers, of DC switching devices, to be created in both Current directions is working properly. According to the invention, the blow poles are like this> arranged that the blown field in the area of the switching contacts, so * at least where the arc arises, diverges transversely to the connecting line of these contacts and in subsequent, Divide, the chambers run in opposite directions. Depending on the direction of the current, the Arc, seen in the direction of the contact connection line, one way or the other, side in blown an adjoining part of the chamber with the correct blown field. Easiest there one, the interior of the arc chamber, again in the direction of the said connecting line

70 »781/13

seen, U-shape, in the unbranched part of the switching contacts are arranged, while in, a the branched wall dividing the parts is a blow pole on one side and on the other. the outer, chamber walls Blowpole of the other. Polarity lie. These blowpoles are usually made of magnetically well-conducting sheet metal. Which can be done without difficulty can shape so that the desired Feddr divergence occurs in the area of the switch contact, how this is to be explained in more detail using an example shown in the drawing.

Fig. Ι shows a. Arc chamber in section along the plane CD in FIG. 2;

FIG. 2 shows the same chamber in section according to 5 of the plane AB in FIG. 1.

ι are the two switching contacts whose connecting line is denoted by EF. When switching, the contacts are moved in the direction EF . For the purpose of directing the arc, they have horn-like extensions 2 and are arranged in the unbranched part 3 of a chamber lined with arc-proof material 4 which, as shown in FIG. 1, has a U-shape. The branched parts 5, 6 are separated by a wall 7 which contains a magnetically conductive piece of sheet metal 8. On the outer walls of the chamber magnetically conductive sheets 9, 10 are arranged, which have window-like cutouts. The cutouts are so large that, if the chamber walls are thought to be transparent, the upper edges of the contact pieces 1 would just be visible within the window. The sheets 8 and 10 have tabs 13 projecting over the side walls 12 (FIG. 2) of the chamber, between which hollow cylindrical short permanent magnets 14 with the one indicated in FIG. Polarity are pinched. The parts are held together by clamping bolts 15 penetrating through the cylinder cavities. With the specified polarity of the permanent magnets and especially when the edge 16 of the partition 8 is sufficiently far away from the adjacent edge of the window 11, a occurs in the area of the contact pieces 1. strongly diverging blow field, which in .Fig. 1 is indicated by faint lines provided with arrows. The divergence can be further improved by pulling the lateral pole plates at least at the contact point in a semicircular manner under the contact pieces, see FIG. 3.

Partition walls 17 protrude into the unbranched parts 5, 6 of the chamber in a manner known per se Made of ceramic building material with wedge-shaped cutouts 18, which have the purpose. Electric arc to extend. You can see with the upper part of the chamber from a coherent ceramic; Piece.

Depending on the direction of the current, when the contacts are separated, the arc is in the direction of the arrow or 60 from the unbranched, part 3 of the chamber in one or the other branched part 5, blown and deleted there in a known manner.

Claims (6)

PATENT CLAIMS: 1. In both current directions, effective permanent magnet blowing arrangement for arc chambers of direct current switching devices, characterized by an arrangement of the blowing poles such that the blowing field in the area of the switching contacts (1 ) diverges transversely to their connection ^ - line (EF) and adjoining parts (5, 6) the Chamber interspersed in opposite directions 2. Arrangement according to claim 1, characterized in that the interior of the chamber, seen in the direction of the Konitaktverbindungslinie (EF) , has a U-shape, in the unbranched part (3) 'the switching contacts (1) are arranged · while in a separating the branched parts (5, 6). Wall (7) has a blow pole (8) of one polarity and blow poles (9, 10) of the other polarity on the outer chamber walls. 3. Arrangement according to claim 1 and 2, characterized characterized in that the blow pole parts (9, 10) on. the. outer chamber walls; each one Windows (11) that extend up to the point of origin of the arc extends, and that the switch contacts (1) facing TreiMiwandrand (16) within this window line lies. 4. Arrangement according to claim 1 to 3, characterized in that the in the partition (7) and parts (8 to 10) of the magnet arrangement lying on the outer walls and forming the blow poles on the chamber walls protruding tabs (13), between, which. Permanent magnets (14) sit. 5. Arrangement according to claim 1 to 4, characterized in that the permanent magnets (14) Bores, have, that of non-magnetic clamping bolts (15) to hold the Magnetic arrangement penetrated are. 6. Arrangement according to claim 1 to 5, characterized in that the Blaspolbleche (9, 10, Fig. 3) around the contact point (1) in the area the unbranched, chamber (3) curved around are. Considered publications: Djeutjsche Patent Specifications No. 715 615, 893 824. 1 sheet of drawings © 609 6577339 10.56 (709781/13, 11.57)