DE2054051B2 - POLARIZED ELECTROMAGNETIC RELAY - Google Patents

Description

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linden the springs 4 and 5 are inserted. therefore uses very shy springs. Above the permanent magnet 6, a U-shaped yoke is my ferromagnetic !! Material remains un urn ".rdargestellt, the legs of approximately the same length desired magnetic shunt to ^scnuiILn · comprise, as the middle leg of the E shaped α 1 The springs could, of course, AuCN iuiui core yoke. 5 angled at the bottom and lft in slots in the legs

The parts 1, 6 and 7 are provided with holes, and 1 c attached. It would also be the creak to pick up the fastening screws. These fastening springs flat under the permanent magnets 6 to form measuring screws can be designed in such a way that they men, but this results in an additional thread that may also split its own thread in corresponding holes. In addition, the armature springs can be left completely white of the contact spring body, not shown, when the armature is molded. A contact actuating slide is indicated by 8 of the Kelaisgenaust (not shown), which leads around the center leg of the core so that it engages around the switching movements and can on the underside of the without rushing out of its intended position. Anchor 3 rests. In a further modification of the Kg ^ uküon

Fig. 2 shows the iron circle of the relay in the first 15 according to the invention you could aut the riocnDiegen stable position in which the U-shaped armature 3 of the edges Id and Ie do without, if you aen on the middle leg 1 a of the core yoke and the Armature 3 rests on the bearing point in accordance with vertorm outer legs of the U-shaped yoke 7. by, for example, an AusDuciuunfe with 9 a changeover contact is indicated schematically. to the bottom. In> -. Esem hall ο e The spring 4 is in the illustrated anchor position 20 legs 1 b and 1 _c also be formed as arched upwards. From the registered characters N of the legs la, without this the principle «corundum .V it follows that the magnet 6 would be detrimental to the finding perpendicularly. It was allowed to jeaocn zmK-jüchebene is magnetized. Be the flux flow excessive, the ^Αυ shown * ^'υη ™ "^ ° ^Γ ™""" The hardware is to give reasonable preference by broken lines because they tet a weight saving _eng 25 brings. In any case, it is important

From Fig. 3 is the second stable position that the legs of the U-shaped anchor 3 can be seen over the anchor. The armature 3 touches the leg rolling edges are extended so that the ends of the U-shaped yoke 7 and at the same time the upper right edge of the armature can approach the yoke / outer leg I b and Yc of the E-shaped core reaching _ophailtP p _n i _a

yoke 1. The spring 4 lies flat in this case on 30 The according to the principle of the invention Braute PoIalcm Leg 1 6 on ringed relays develops extraordinarily high

The course of the river in the iron circle is in turn with forces, so that multiple contact sets with high broken lines. Can incorporate contact forces

A comparison of FIG. 2 and 3 shows that the height of the magnet and the yoke 7 can be

Flow direction in the legs of the U-shaped 35 are dimensioned so that there ;; Yoke 7 η ^ ^{1 u} « ^er J ^ armature 3 reverses when switching the relay. The upper limit of the coil steering or ^ nanMhes addition relay .vird protrudes through current pulses in the excitation coil 2. So there is no additional installation space to be switched. The one required is superimposed. , · ·, D "i _a ; <: .intrr" -heiriet

or another direction running electromagnet! - The illustrated polarized ReIa s distinguishes

see the river so with the permanent magnetic flux, ₄ "from e.nem not polarized REIA s nu ^{By J} J ^e> n that the armature changes its stable position. The other core yoke 1 other ^ f ™haben * ™ * ^ movement processes are individually einiyusatzh ^ ~

Movement processes are in a y ^ A

We'nn in F i g. 3 the left end of the armature 3 to the body and the contact spring body, kannner1 unconcernedly moved Ιήνά, so the armature rolls on the edge 1 d _{acting as 45} changes from known constructions. In doing so, be approached. Material he is the right upper edge of the armature 3 to the yoke 7 The non-ferromagnetic material beso far that this edge is drawn entirely to the yoke by permanent magnetically standing retaining springs 4, 5 on the underside of the forces. The position shown in FIG. 2 is reached so that anchors are fastened and at the same time provide a targeted one. The _s "air gap between the armature and cutting storage ^ represents. Forces are large enough at the same time in another variation of the time-spring forces could overcome the contact set 9. With magneto cmc lower overall height than that of switching from the second to the first stable distance between the U-shape, towards yoke 7 and the position, the armature is driven by the forces of the cone-E-shaped core yoke 1. This could be achieved by a ^ Eisentnktfedem additionally accelerated. The result

It can be seen bus Fig. 2 that the anchor holding ^M would be a changed flow distribution due to the other

springs 4 and S are relatively strongly deformed. Man tion of the air gap at the location of the permanent magnet.

1 sheet of drawings

Claims (6)

1 2 The c | uader-shaped main magnet is attached to the end of the claims: the middle leg of the E-shaped core yoke and magnetized vertically to the yoke plane. Of the 1. Polarized electromagnetic relay with auxiliary magnet is connected above the armature with the coil of an E-shaped core yoke, a body on the ends 5 so that it holds the armature in the U-shaped armature resting high on the core yoke, folded position. The two magnets lieeinem bobbin with molded guide for gene so above and below the U-shaped a contact operating slide and an armature plate. In this construction, the magnetic flux emanating from the contact of the coil, which is below the circle of the egg, is guided by the main spring set, characterized in that io magnets are guided. For this flux, the haptagnet in the iron circle on the transverse web of the E-shaped core yoke (1) represents an increased magnetism block-shaped permanent magnet (6) and, on this, resistance. A U-shaped yoke ( 7) is put on, that the struktion is also to be seen that at least the outer legs (16, Ic) of the E-shaped core main magnet yoke (1) attached by an adhesive organ are shortened and that the end edges 15 must be. In addition, the two magnets from (1 d, 1 e) of this outer leg are so tightly limited as a volume, so that no large cutting edge bearings for the U-shaped armature (3) can achieve the holding forces. new that this is in the first stable position of the invention is based on the object of the U-shaped yoke (7) and the central leg of the magnetic circuit for polarized relays to form (1 a) of the E-shaped core yoke (1) and in the 20 that you can get by with a single magnet, second stable position with reversal of the flux which is easy and cheap to assemble and provides large holding direction in the armature (3) of the U-shaped yoke forces. Above all, this magnet should be accommodated on one (7) and the outer legs (1 b, 1 c) of the E-för- point of the iron circle, on which the moderate core yoke (I) is held. a relatively large amount of space is available without 2. Relay according to claim 1. characterized by the outer dimensions of the relay as a whole characterized in that the end edges (1 d, 1 e) of the outer must be enlarged. leg (1 b, 1 c) of the core yoke (I) to the top The invention is characterized in that on are angled. the crossbar of the E-shaped core yoke is a cuboid 3. Relay according to claim 1, characterized by a marked permanent magnet and on this a U-shaped draws that egg armature (3) is placed on a relatively slim 30 yoke that the outer legs of the E-för retaining springs (4, 5) is performed. moderate core yoke are shortened and that the end 4. Relay according to claim 3, characterized in that this outer leg is marked as a cutting edge, that the retaining springs (4, 5) are not used for storage for the U-shaped armature that this ferromagnetic material, at the in the first stable position of the U-shaped Underside of the armature (3) are attached and to- 35 yoke and the middle leg of the E-shaped core equal a targeted air gap between the armature yoke and in the second stable position below and cutting edge bearings. Reversal of the direction of flow in the Arker from the U-conveying 5. Relay according to claim 1 and 2, characterized in that the yoke and the outer legs of the E-shaped indicates that the armature is held in a cantilevered core yoke. and is only guided laterally. 40 The invention succeeds in a surprising manner 6. Relay according to claim 1 and 2, characterized ge way, two stable with a single magnet indicates that the permanent magnet (6) has reached one of its end positions. Here are the magnet has smaller overall height than the distance between and the additional U-shaped Jocli so outside of the see the U-shaped yoke (7) and the E-shaped bobbin that accommodates the entire building Core yoke (1). 45 this does not increase the height of the relay. It can therefore blow the same parts for a polarized and non-polarized version of the relay be turned. An embodiment of the invention is presented on 50 hand of F i g. I to 3 of the drawing explained. The invention relates to a polarized fig. 1 shows in an exploded view electromagnetic relay, especially conductor - the iron circuit of a polarized relay plate relay, with an E-shaped core yoke, a Fig. 2 and 3 are the armature positions in the bci- U-shaped stable switching positions on the ends of the core yoke recognizable, The armature, a bobbin with a molded guide, is ₅₅ Corresponding parts with the same tion for a contact operating slide and a reference number provided. _{Contact spring I n} F i g lying below the iron circle. 1 with I is an essentially E-shaped sentence. Core yoke referred to, on the middle leg la polarized electromagnetic relay, in which a coil 2 is seated. The end of the central web 1 α is beveled by the installation of permanent magnets in the iron 60. The two outer walkways! b and 1 c are circular two stable positions of the armature forcibly shortened and at the ends slightly turned upwards, are known in several versions angled, so that the edges 1 d and 1 e became cutting edges. A polar bearing belonging to the state of the art is used for the armature. The ized circuit board relay marked 3 consists essentially of a U-shaped armature and is connected to angled from an E-shaped core yoke, a U-shaped 65 springs 4 and 5, which serve for the armature support armature, a coil, a lic- under the iron circle. 6 with a cuboid permanent magnet lowing contact spring set and two permanent magnets, referred to, the one at the lower rear edge which are referred to as the main magnet and auxiliary magnet. Has slot there in which the angled