DE918345C - Holding anchor magnet for quick relays and quick switches - Google Patents

Description

Holding anchor magnets for high-speed relays and the ice quick-action switch are high-speed relays known according to the closed-circuit principle, in which the armature after the holding magnetization has disappeared or. after reversal or brief zero crossing of the resulting magnetization torn off by means of a strong spring and thus initiated the switching process will.

A high-speed reverse current relay that is often used in rectifier systems in particular is shown schematically in Fig. i. The magnetic core i, whose pole pieces to achieve the smallest possible long-range magnetic effect only through a narrow slit are separated, carries the holding winding z fed with direct current and the release winding 3, which in the example shown consists only of the monitored direct current bus. The lightest possible anchor 5, the ¢ with a leaf spring serving as a guide is movably connected, adheres to the pole pieces with the ab @ eschbffenen surfaces d = it magnetic core i and is under the tension of the tear-off springs 6 and 7. With reverse current In the rail 3, the flow of the magnet briefly goes through NuD, and the anchor is torn off by springs 6 and 7. While .the powerful spring 7 only up to to make contact, the switch 9 is effective, the weaker spring 6 removes the Anchor 5 sufficiently far from the return area of the pole shoes. Contacts 9 at the contact bridge 8 in the example shown here close approximately i to 3 ms short the grid voltage of the rectifier and thus end the anode short circuit.

In order to make such a relay ready to respond again, was previously an additional pull magnet i i required, which after response of the relay of Is switched on manually or automatically. This Rückstrommagnget must be designed in such a way that @ he ... has several kilograms of tear strength the springs 6 and 7 can overcome. It is therefore quite large and enlarged by his Dimensions the relay and makes it considerably more expensive.

In order to avoid this disadvantage and make the return magnet superfluous to make is with the Haftaäkermagnet for high-speed relays and high-speed switches Retraction unit for the adhesive anchor, the main magnet itself is used for retraction. The two structurally very different types of holding magnets and pull magnets are thereby connected to one another according to the invention that a in the magnet vertically split intermediate anchor that carries the adhesive anchor on its underside and adheres with its upper side to the widely spaced pole pieces of the core, is inserted. This ensures that the magnet at the moment of response acts as an adhesive anchor of the known design and that the magnet after: tearing off of the adhesive anchor by dropping the intermediate anchor into a pull magnet with further Pole gap and great long-distance effect is transformed, the reinforcement of the Haltemab @etization of the intermediate anchor and the adhesive anchor approaching it together retrieves.

It should be mentioned that with a quick switch other than is known to the present, between a retaining anchor and the core of a retaining magnet To provide a vertically divided intermediate anchor, on the underside of which the retaining anchor adheres. Here, however: there is a main current magnet separate from the holding magnet, with its armature, the holding armature of the holding magnet is coupled via the switching contact and when it is excited the release occurs. The holding magnet takes over here only the task of the spring of the main current magnet and thus also the retrieval of the armature, the main magnet and the associated switching potassium cycle. the In contrast, the invention relates to a relay with vöd, lig other work: tswcis; e, where the holding magnet is at the same time the tripping relay which, in the event of a short-term current: zerodurc11-gang of the monitored current switches.

The F-. 2 to 5 show an exemplary embodiment in a partially schematic representation the device according to the invention. The references of these figures indicate: the same parts as in the above @ explained Fig. i. The: arrangement according to the invention differs from the known design of the high-speed switch or relay according to the secondary anchor principle, primarily through the insertion of the intermediate anchor 12, which consists of two magnetically separated by a narrow slot and mechanically there is rigidly interconnected part anchors. The top and bottom surfaces of the preferably layered intermediate anchor is ground. While the upper Area of the intermediate anchor, which is now due to a greater distance from each other separate pole faces of the core i adheres, the lower face holds the main anchor (Haftanker) 5, the bridging the slot of the intermediate anchor and an additional one non-magnetic guide body 1q. leads. A light spring connection 13 contributes to it Make sure that after the adhesive anchor has been torn off and the intermediate anchor has delayed falling off both of them lay together again with their adhesive surfaces.

The operation of the relay according to this exemplary embodiment will be explained in more detail: In the rest position (FIG. 2), the holding flow 0 corresponding to the holding current ix and the main current I acting in the same sense flows through the intermediate armature and the main armature and holds both. When the flow passes through zero, the main anchor (adhesive anchor) 5, which is under the force of the tear-off springs 6, 7, is torn off and the contact 9 is closed. The intermediate anchor 12 follows relatively slowly when the field disappears due to its large mass and the low tear-off force acting on it, or when the current is reversed, it only falls after the return current has been switched off . B. by influencing the grid voltage of the monitored rectifier is effected. The transition state is shown in FIG. 3. In the final state, which is shown in FIG. ¢, the magnet has been transformed into a pulling magnet with a wide pole gap and a great long-range effect by throwing off the intermediate anchor 12. If you now increase the holding current i $ by m, short-circuiting a part of the series resistor 1 5 of the holding winding by means of the switch 1 7 , the intermediate anchor is tightened at the same time as the main anchor (adhesive anchor) 5 adhering to it in this position and back into the Brought to the starting position, which FIG. 5 represents. In general, the intermediate anchor iz will also fall off after the main anchor 5 has dropped, since the AW number of the holding winding is too low to drive a sufficient flow over the vertical air gap in the intermediate anchor. To increase security, however, it is often expedient to switch the holding circuit through the. To interrupt the main anchor with the help of an auxiliary contact 16 if the main anchor has fallen off. This auxiliary contact is bridged when the return is switched on by switch 17 and closed again by the return of the main anchor to the rest position.

It is useful to have your main anchor, the intermediate anchor and the pole, des Core made of rustproof, magnetic material with low coercive force.

The holding anchor magnet according to the invention can be used in holding magnets Galler Type, for example in relays and contactors.

Claims (5)

PATENT CLAIMS: i. Holding armature magnet for high-speed relays and high-speed switches with a return device for the holding armature, whereby a holding winding and a release winding act on the same magnetic core and: the holding armature is torn off on reversal, or briefly a zero crossing of the magnetization of the core by means of a strong spring. is, characterized in that a vertically divided intermediate anchor (12) carrying the adhesive anchor (3) on its underside is provided in a manner known per se for retrieving the adhesive anchor by means of the holding magnetization, and that the holding magnetization is provided for the return of the anchorage and the one on this adjacent adhesive anchor is reinforced. 2. Holding anchor magnet according to Claim i, characterized in that the adhesive anchor (5) and the intermediate anchor (12) are so resiliently (spring 13) connected that after tearing off the adhesive anchor and the delayed dropping of the intermediate anchor are both again merge with their adhesive surfaces. 3. Holding anchor magnet: according to claim i or 2, characterized in that means (16) are provided by which the holding magnetization make the dropping of the adhesive anchor shut off. q .. Holding anchor magnet according to claim i or following, characterized in that a switch (17) is provided, through the for reinforcement: the holding magnetization a part of the Vorwidc @ rstandes (15) of the holding winding short-circuited and at the same time that of the adhesive anchor (at 16) open circuit of the holding magnetization is closed again. 5. Holding anchor magnet according to claim i or the following, characterized in that. Adhesive anchor, intermediate anchor and pole pieces made of a preferably non-rusting, magnetic material less Coercive force exist. Referred publications German patent specification No. 614 587.