DE2905498C2 - Miniature relay - Google Patents

Description

Characteristic of claim 1 specified combination of features. This allows a short-legged angle anchor be used. A good transition of the magnetic field lines is achieved and the assembly is easy to do. In the miniature relay according to the invention, the magnetic flux divides through the permanent magnet is caused in two pairs, namely it runs once over the yoke and the Core back to the permanent magnet and to the other over the end of the yoke, one leg of the hinged armature and the end of the core back to the permanent magnet. This second path gives the holding force that the permanent magnet has exercises on the hinged anchor to keep it in a certain position. In any case, a to exert a sufficiently large holding force on the hinged armature, the two magnetic fluxes are according to the invention influenced in such a way that there is sufficient holding force for the hinged anchor This is achieved by that a constriction for the magnetic flux is built into the first pair of magnets in a manner known per se is. This can be done in a simple manner in that the yoke has an incision or breakthrough, see above that at this point the iron cross-section is reduced and thus an increased magnetic resistance is present is. A side incision in the yoke has the advantage that it can be made very easily while a Breakthrough has the advantage that the magnetic flux flowing in the yoke can be divided symmetrically. Around to improve the magnetic flux in the second magnetic circuit, namely in the circuit that includes the hinged armature, is according to the further embodiment of the invention, the transition point at which one leg of the Hinged armature rests against the core or its pole piece, provided with an enlarged cross section, d. H. at this point the magnetic resistance is reduced.

By these measures, it can easily be achieved that the holding force of the hinged armature determines Magnetic flux becomes sufficiently large.

The invention and its advantageous developments are to be described in more detail with reference to the figures.

F i g. 1 shows a section through a miniature relay according to the invention, while

F i g. Figure 2 is a top plan view of the yoke of the relay of Figure 2. 1 shows.

F i g. 3 shows a section through another embodiment of the relay according to the invention and

F i g. 4 is a plan view of the yoke in the embodiment according to FIG. 3.

The magnet system of the relay, as shown in FIG. 1 is shown in section, is arranged in a housing 10, in which the contact pins 20 are molded. The magnet system itself consists of the core 11 and the Yoke 12, the coil 14 being arranged on the core 11. On the edge of the placed above the coil Leg of the yoke 12 of the angular hinged armature 13 is tiltable. With the leg 13a of the Hinged armature 13, the contact spring 19 is actuated, welit dsiTi fixed contact 22

Magnetic circuit between the yoke 12 and the core il the permanent magnet 21 is arranged, which is polarized in the longitudinal direction. In the embodiment according to FIG. 1 is the permanent magnet 21 is arranged on the core 11, which is extended beyond the coil, and on the other hand protrudes into a recess 23 of the yoke 12.

A current flowing through the coil 14 generates the magnetic flux of the permanent magnet in a magnetic field 21 is superimposed. This causes the angular hinged anchor 13 in the respective other position overturns. In both positions, the hinged armature 13 is held in place by the permanent magnet 21, in that either the leg 13a rests on the yoke 12 or the leg 136 rests on the end of the core 11.

For a better division of the magnetic flux between the two magnetic circuits, a breakthrough 26 is provided in the yoke 12, as can be seen in particular from FIG. 2 can be seen. Through the opening 26, the iron cross-section of the yoke 12 is reduced at this point and thereby the magnetic resistance is increased. This ensures that a larger part of the magnetic flux of the permanent magnet is available for holding the hinged armature.
To further improve the magnetic flux across the hinged armature of the cross-section of the core is wider at its end 25, for example by inserting a pole piece a result, the magnetic resistance between the core 11 and the leg is decreased 13b of the hinged armature, so that in this way in this Circle a better magnetic flux is achieved.

As shown in FIG. 2, the permanent magnet protrudes

21 with its entire width in a recess of the

Yoke 12. Instead of the opening 26 can also be a

lateral incision are made in the yoke 12, which on the one hand can be produced more easily than the breakthrough 26, but on the other hand causes an asymmetrical magnetic flux over the cross section of the yoke.

In the embodiment according to FIG. 3, the permanent magnet is arranged with one pole on a pole piece 24 which connects to the core 11. This pole piece is L-shaped so that a permanent magnet 21 with larger dimensions can be used. If, on the other hand, a pole piece 24 of U-shaped Cross section is used, you get a better one

Transition of the magnetic flux to the leg 136 of the hinged armature 13, in a similar manner as this through the Pole shoe 25 according to FIG. 1 is achieved.

In the embodiment according to FIG. 3, the yoke 12 further has a cutout 23 into which the permanent magnet 21 protrudes with one pole. This results in a particularly good transition of the magnetic flux from the permanent magnet 21 to the yoke 12 and a further enlargement of the permanent magnet 21. The yoke cutout 23 can also be used to reduce the magnetic flux in the yoke 12 by making it larger than the permanent magnet 21 protruding into it and the permanent magnet is arranged eccentrically in the cutout 23, as shown in FIG. 4 can be seen.
To achieve defined reset properties

The Kon- ksrin dsr angular KlE ⁿⁿ snk? R 13 still

clock arrangement is only shown schematically and can also consist of a larger number of contacts. The parts of the magnet system are held in the housing 10 by the shoulders 15 and 17, the Shoulder part 16 holds the hinged armature 13 in its position, while the shoulder part 18 holds the yoke 12 with the core 11 and the coil 14 secures in place. To achieve bistable properties is in the are under the action of a weak spring, for example, by one with one leg of the Hinged anchor connected film can be realized.

65

For this purpose 2 sheets of drawings

Claims (5)

1 2 one leg of the hinged armature the core and in the claims: the other position of the other leg of the hinged armature is approached to the yoke except for an air gap and on the 1. Miniature relay with a coil core and a side of the hinged armature facing away from the yoke, a Kondaran fixed L-shaped yoke, one of which is arranged in a 5 cycle system, which is supported by one leg of the Leg runs parallel to the coil core, and can be operated with a hinged armature. The contact system is one angular hinged armature, which is completely independent of the magnet system with its star, so that at the inside Angular edge on the front edge of the parallel systems according to training and materia! for her IeI to the coil core extending yoke leg of the special purpose optimally designed art is tiltable that in one position the io can be without a compromise between the one leg of the hinged armature selected the coil core, in contact functions and the magnet function the other position must be the other leg of the. The object of the invention is to provide such a relay is approximated and operate on the side facing away from the yoke thereby in a bistable switching behavior te of the hinged armature to be able to actuate one of this 15 that between the coil core and the free Kontaktsysism is arranged, marked leg a permanent magnet is arranged, net by the combination of the following, in some cases such so-called bistable relays, are known per se Features known per se: is in the relay known from GB-PS 15 33 903 the permanent magnet with one pole on the core and a) between yoke (12) and coil core (11) is a 20 with the other pole on the yoke. The angle anchor is Permanent magnet (21) arranged in such a way that it is divided into two legs on the side of the yoke, the move directly or indirectly on the one hand on the yoke next to the yoke. The storage of the yoke (12) and on the other hand rests against the coil core (11); does not take place with the inner bending edge of the b) the yoke (12) has on the core to the coil core on the yoke edge, but it is on the front side (11) a cross-sectional reduction 25 of the yoke in the parallel part and is secured by a leaf spring tion by at least one cutout (23,26); mounted tiltable. The bistable switching behavior is c) the on with the cutout or cutouts (23, 26) there through an opening on the free end of the provided yoke (12) adjacent leg (13a) free yoke leg facing away from this sighted The hinged anchor extends over the bar. The side legs do not lie saving (s) (23.26); 30 on the yoke so that there is an air gap between the yoke and d) in each end position of the hinged armature (13) anchor legs is left, thereby, a maximum a hinged armature leg is not possible in each case (13a or i3b) magnetic flux therebetween.
from the magnetic flux of the permanent magnet (21) From DE-OS 25 03 159 a bistable relay is flowed through; in which the free yoke leg is divided into two completely e) the pole of the permanent member facing the yoke, separated one behind the other in the direction of the coil axis The gneten (21) protrudes into a recess (23,26) of the yoke parts arranged at a distance from one another and unjoches (12) in; is divided, one of which is L-shaped and f) which protrudes into the recess (23, 26) is attached to the core. The formed distance between PoI of the permanent magnet (21) is asymmetrical see the two yoke leg parts is through one to the recess (23,26) arranged and touches 40 bridged permanent magnets, each with one pole the yoke (12) at least on the free yoke below the facing leg ends end facing away from it. is provided. The one movable over the free yoke leg Leg of the hinged armature covers the 2. Miniature relay according to claim 1, characterized by the entire distance and can be identified with the free end that the permanent magnet (21) with a 45 rich of this leg on the free end of the with the Pole rest on a leg connected to the core (11) attached to the pole shoe core. The two-part (24) is applied. te execution of the yoke is in the manufacture and 3. Miniature relay according to claim 2, characterized in assembly is very costly and requires precise adjustment, that the pole piece (24) is L-shaped. forms is. 50 It is also known from DE-PS 19 09 940, 4. miniature relay according to claim 2, characterized ge between the pole pieces of a relay identifies a ceramic, that the pole piece (24) is to be arranged in a U-shape from magnets. In this known embodiment is formed. rungsform it is a construction, with 5. Miniature relay according to one of claims 1 to the contact system within the coil of the relay 4, characterized in that the free end of the 55 is arranged and the pole pieces at the same time the elek coil core (11) form a larger cross-section (25) tric contacts of the contact system. It must has than the rest of the cross section of the coil core here so a compromise between the magnetic (11). Properties and the contact properties of the pole pieces can be found. The anchor is there by one 60 flexible contact tongue is formed, which is relatively thin because of its ease of operation must be, whereby the magnetic flux through the con- The present invention relates to a miniature reed which is limited. p | turrelais according to the preamble of claim 1. With the invention is therefore at the same time a cost | f Such a relay is known from DEPS 65, favorable construction of a bistable relay. 25 16 502. This has an angled hinged flap that can be folded in particular without major changes. |; | armature, the inside of which is applied to the yoke of the magnet system in the relay mentioned at the beginning || stems is tiltable so that can be in one position. This task is solved by the im