DE597040C - Electric quick switch - Google Patents

Description

There are a number of types of switches in which a holding magnet counteracts the force a tripping magnet or a spring excited by the main current, the contacts are closed holds, whereby the triggering of the switch begins at the moment when the triggering force the holding force predominates.

It is also known the power of the To weaken holding magnets by means of a counter-winding through which the tripping current flows, the trigger force being a main current magnet, a spring, or a combination of both can be.

These types of switches all have the disadvantage that from the moment when the tripping movement begins, by tearing off the holding armature, a strong EMF is induced in the holding coil, which increases the holding current increases and a decrease in the holding flow and thus the force effect counteracts.

Instead of an immediate disappearance of the holding force in the release moment, it remains during a large part of the release movement exist, so that the release force The work performed is only partially used for the acceleration of the switching element while the rest is given off in the form of electrical energy in the holding coil.

If the fault current disappears immediately after the contact is opened and before the end of the switching path, Under certain circumstances, the increased current of the holding magnet can close the switch again, whereby the switch and system such dangerous backfiring or under certain circumstances even oscillation of the switch can enter.

This difficulty - becomes with some switch designs bypassed by the fact that the lines of force going through the holding winding measure at the tripping is not changed by the flux of the force lines of the holding armature upon tripping is deflected by this, which is achieved by using a magnetic shunt, which is influenced by the tripping current, can be achieved, the magnetic shunt also acting as a tripping magnet can be formed.

With the switch design with magnetically separated holding and tripping magnets, in which the tripping in the event of an overcurrent occurs in that the tripping magnet excited by the main current pushes the holding armature tears away from the holding magnet and thus opens the switch, the action of the trip magnet also from one of the current independent force can be supported, this possibility does not exist. It

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then arises in the holding winding when it is torn off of the holding armature as a result of the change in flux produces a strong EMF, which increases of the holding current and thus a delay in the shutdown.

The present invention relates to switches of this type and aims that of to prevent the opening movement generated increase in the holding current and a ίο to generate quick and safe shutdown without backfire or risk of oscillation.

The drawing shows schematically and partly in section an embodiment of the Subject of the invention.

ι denotes the switch contacts, the movable contact with the armature 3 of the holding magnet 2 and with the armature 7 of the release magnet separated from the holding magnet 6 is mechanically connected. The holding magnet 2 carries a winding 4, which according to the invention is in series with a winding 8 of the release magnet 6 is located; these two Windings are constantly excited. A current winding 5 on the holding magnet 2 counteracts the winding 4, while a current winding 9 acts on the tripping magnet 6 the winding 8 supports.

The action of the release magnet can be supported by a force K independent of the current, but this has no fundamental influence on the mode of operation of the arrangement.

When the holding armature 3 is torn off from the holding magnet 2, the magnetic resistance increases of the force line path, while the corresponding resistance in the release magnet 6 is reduced by approaching the armature 7 to the poles. As a result, the power flow i decreases in magnet 2, while the flux in magnet 6 increases. By appropriate dimensions the windings or the iron cross-sections can be achieved that the EMF generated in the holding winding 4 from an in the winding 8 generated, opposite EMF is canceled or that>, if the EMF generated in winding 8 is greater than that generated in winding 4, even one temporary reduction of the holding current occurs. The flow of lines of force in the holding magnet can accordingly drop as rapidly as the flow of force in the release magnet increases.

If the two EMFs are the same, then the following applies

German

German

when Φ ₂ and Φ ₆ denotes the flow of forces in the holding magnet 2 and in tripping magnet 6 and W ₄ and VV _8, the numbers of turns of the coil 4 and 8. FIG.

Claims (3)

Patent claims: i. Electric quick switch with opposing, magnetically separated Holding and tripping magnets, in which the tripping magnet excited by the main current in the event of an overcurrent, the holding armature from the holding magnet without further displacement of the magnetic force flux in the holding armature breaks and with it the switch opens, characterized in that the tripping magnet (6) apart from that of the main current through which winding (9) flows a second with the winding (4) of the holding magnet (2) in series winding (8) carries, in which when the triggering force flow increases during triggering of the switch, an EMF is induced, which is the same as that in the holding coil due to the decrease in the holding force flow the switch triggering induced EMF is opposite and thus an increase of the holding current prevented during the tripping process, so that a safe and quick shutdown takes place. 2. Quick switch according to claim 1, characterized in that the holding magnet (2) a constantly excited winding through which the main current flows counteracting winding "- (5th) carries. "go 3. Quick switch according to claim 1, characterized in that one of the current independent, additional release force is available. 1 sheet of drawings