DE747669C - Double nozzle switch with arc extinguishing by a flowing medium - Google Patents

Description

Double nozzle switch with arc extinguishing by a flowing medium There are known switches in which the arc is caused by an extinguishing agent flow is driven in two discharge nozzles running in opposite directions. The lighthogen base points are brought into the by the extinguishing agent supplied from the outside Nozzles torn in, the arc forms a loop and mainly burns in the center axis of the nozzles, where the arc is also perforated.

The invention aims at a switch of this type in the extinguishing effect can be increased .. For this purpose, a double nozzle switch with arc extinguishing by a medium flowing through the nozzles in the opposite direction, which is carried by flows outside the quenching space and the arc on its flow paths. of the Interruption point on the double nozzle, outside the switching axis horizontal, stationary extinguishing poles drives, according to the invention in the nozzle axis Rod-shaped built-in body made of arc-proof, carried by the extinguishing poles Insulating material provided between the outlet nozzles near the point of interruption has a plate-shaped enlarged diameter.

It is known per se in the nozzle-shaped outflow space of the hollow contacts Installments that are also shaped according to flow curves are to be provided. These well-known Internals are attached for a different purpose. It will be through, you one Prevents excessive elongation of the arc. Or it is about the attachment of internals between nozzle-shaped hollow electrodes. The equipped with this Known extinguishing devices are arc formers, but not finite switches moving contacts. In these known hollow electrodes, the skin is used Use: the electrodes to guide the pressure gas flow and to avoid Vortex formation between the two nozzle openings. The internals are attached perpendicular to the nozzle to the wall surrounding the nozzles, and .the fastening webs of the guide part lying in the nozzle axis the arc. fixed in place so that the arc always hits the same spot of the built-in part made of insulating soff is pressed and therefore this too strongly attacks. The part is subject to rapid wear, so that the The desired effect by the built-in part is only available for a short time.

The atab-shaped built-in body in the double nozzle axis according to the I-rfin: dtitig initially prevents the arc from being stabilized by the concentric blowing in the nozzle axis. In addition, it is achieved that the edge of the plate-shaped rod thickening remains free of any support members. The arc, which is always burning outside the nozzle, is completely unstable in its position. It doesn't just burn at one point on the nozzle. Rather, it flutters continuously and will move freely back and forth in a circular direction uni the built-in body. Since the light box cannot change its position in the double slide, it does not burn continuously, at the same point on the plate edge, which is of great importance for the service life of the insulating plate. In every position of the light. In the double nozzle, disionized arc lines are reliably bounced through the stripes against the edge of the plate, where they are broken up and all charge carriers are quickly discharged to the outside along the rod-shaped body. The flow no longer goes longitudinally along the arcuate path, as is the case with known similar extinguishing devices. Rather, all charge carriers are captured by otterblasting and removed from the double nozzle in a straight line Aniline resin or from the derivatives of acrylic acid. It is advantageous here to arrange the Ausatrönidiisen in a known manner at a certain distance from each other so that the Ausatrönidiit constantly widens in a known manner from the point of interruption. Then 1) using a gas-free nozzle, the discharge speed is steadily increased for 1> 1s to the exit end of the nozzles.

It is a 1, -Lerknial of the double @ lüsensclial-. fers, clal) the two @ iisenhärper, which can also be provided with finite longitudinal incisions. at each other the honored side is directed outwards in a manner known per se,. ° inside Sheath body for the AussLrönidüse ül; r going as Stroinzu- or current discharge serves. This ensures that the current flow from the outer envelope to the Wall of the Atisström mdüse takes place and thus the flow of current in one wall Forms a loop that lies in the direction of flow of the extinguishing medium. The I_bogenfußfunkte become rlalier not only through the middle flow, but also electronically in the direction of this flow in di °. Aussti-Öindiisen driven. The arc will therefore more easily and quickly torn into the glass interior of the exhaust nozzles, see above dafi also due to the special formation of the Diisenwand and I_öschvargang is bu-iirst.

In fier drawing is an exemplary embodiment, game for the invention shown. In an I - @, olierzvlinder i are two nozzle-shaped hollow zvlin (1er a, 3 installed as current-carrying electrodes at a fixed distance from one another. The `@ 'attached to the two hollow cylinders go on the side facing each other towards the aula inside a cloak; see body @, j for di: -. # ti: sti-önidiisen above. The power supply and discharge takes place at (len hleminen 6 and;. I) ie Strcimül @ bridging happens through a slider @, which is outside the outflow (loosens on dun enveloping horns 4,; along gi @ eitet. The Läsciini (Aiuin is through (las Rohr () rlern Schaltrauili 1o fed. From here, the primary mixture is distributed in! lein I #, 'ingr: ittiii uni clcn body 3 and flows concentrically through deii I @ irig: aialt 11 den licirlen A grid wall 12, 13 is inserted at the outlet of each of the Atisströmindüse. These two @@ ": n (ie stand by a sta @ iürnügen I @ üi per 1-4 with_in each other % Tcrbin (lung. Which is in the, central axis of the two exhi-i; in. Nozzles and made of arc-pure insulating material. In the middle of the @ in`slialtes the rod-shaped body 14 has a plate-like diameter server .rI "yl @ r'1177 @ I @.

The illustration shows the switch in the high-speed state. At the same time, the contact slide 8 throws the L ("scliniittelströmmtlng in Gairg set:! -and and deni @chiclir an arc that is blown through the @ ö: cliinitt: latrön iung into the annular gap ii. The two @ ichtbngenfußliunktL ican @ lrn with the strings along the @vanl into the interior of the two. @ usstri @@ iii (lüan 2 : 3 11111ein. This _ @ invanclerii der 1, ichtbogenfur1itinl; te is -nn: li essentially supported by clal; the current flow in the nozzle wall from the annular gap ii takes place in the direction of flow of the extinguishing agent. The arc accordingly burns between the inner walls of the two outflow nozzles and is driven by the flow of extinguishing agent against the cutting edge-like edge of the plate-shaped rod reinforcement 15. Here the arc is literally severed, or at least in the flow zero passage the charge carriers in the arc path from the center plane of the annular gap ii are completely displaced into and through the discharge nozzles, so that final extinction occurs reliably in .dem first current zero passage.

Claims (4)

PATENT CLAIMS: i. Double nozzle switch with arc quenching a: medium flowing through the nozzles in the opposite direction, coming from the outside flows into the quenching space and the arc from the interruption point on its flow path Fixed on the double nozzle outside the switch axis Extinguishing poles tl'eibt, characterized in that in: the nozzle axis a rod-shaped, Installation body (i.1) carried by the extinguishing poles' made of arc-proof insulating material -is provided between the exhaust nozzles in the vicinity of the interruption parts has a plate-shaped 'enlarged diameter (i5). 2. Double nozzle switch according to claim i, characterized in that the built-in body made of aniline resin or of the derivatives the acrylic acid. 3. Double nozzle switch according to claim i and -d,: thereby characterized in that the A1sströmdüs ..- n stationary at a certain distance from one another are arranged and shaped in such a way that the outflow cross section of the nozzles continuously expanded from the point of interruption. . 4. Doppeld'üsenschalter according to claim i to 3, characterized in that the two nozzle bodies (2, 3), which can also be provided with longitudinal incisions, are deflected outward on the side facing each other into an envelope body (.1, 5) for the outflow nozzles pass over, which serves as a current supply or current discharge. To distinguish the subject of the application from the state of the art, the following documents are to be considered in the granting procedure: German patent specification ..... N o. (-) 9o 91o: French patents - 6f) 8 5 90, 777 775, 784 545, British patents. . . - 278 76.I, 40o (-) 74.