DE615703C - Electromagnetic relay, in particular telephone relay, with armature mounted on a leaf spring - Google Patents

Description

The invention relates to electromagnetic relays, particularly telephone relays of those Type in which the armature is connected to its bearing by a leaf spring.

With such relays, the air gap between the armature and the core is used for the purpose of easy response of the anchor kept relatively narrow, so occur especially at fast Work due to the resilient mounting of the armature contact bruises, which is unfavorable act on the response and release time. There can also be natural vibrations in the Armature springs arise, which increase this undesirable effect.

The invention aims to improve the operation of such relays by avoiding the bouncing phenomena, which is the case according to the invention is achieved in that the ao armature spring swings out under the influence of one of its influencing damping spring stands, which on several points of the armature spring acts. This is how such harmful vibrations come about the armature spring prevents.

The invention is described in more detail with reference to the drawing, which is shown in FIG Illustrates embodiment in plan view.

Fig. 2 is a front view of the spring supporting the armature and Fig. 3 is a side view of the relay of FIG. 1.

The essential parts of the relay are on a metallic base plate 1 attached, which has the shape of an L, whose short leg by means of screws 2 on a mounting plate 3 ο. Like. Is attached. The longer leg of the base plate 1 has a projection that is bent at right angles to it 28, which forms the support of the terminal ends 21 of the relay, which insulate from each other are held on the bracket by screws 22. On this leg of the base plate there is also a plate 4 made of insulating material, preferably insulating molded material, connected to it by screws 5. These Plate is used to support a yoke 6 made of soft iron using screws 7, the heads of which engage in recesses in the base plate 1. On the yoke 6 Approaches 8 and 10 are provided, one of which is bent at right angles from it Approach 10 the bearing for the armature spring 11 and forms the damper spring 20, both of which are held thereto by the same screws will. The other approach 8 of the yoke 6 carries an adjusting screw 9, which is with its free end against the leaf spring 20 puts.

The end of the yoke 6 facing away from the approach io has a bent at right angles therefrom Part of U-shaped design. One leg of this part forms the one Coil 24 carrying the core of the relay, and the ends of both legs form the pole faces for the anchor. A terminal strip arranged between the coil 24 and its core part 25 serves as a solder connection. The coil 24 can of course also be on the other leg of the U-shaped part or on both be stored.

The already mentioned armature spring 11, which is mounted on the extension 10 of the yoke, carries the anchor made of soft iron 12. The latter is connected to the spring 11 by riveting or welding and on its contact surface with the spring by a coating of non-conductive Material isolated. The front part of the spring 11 is to the side until just before its free end Approaches provided, as can be seen in particular from FIGS. To reduce A recess 19 is provided at this point in the spring due to its weight. Contacts 13 are arranged on both sides of the armature spring 11 near its free end, which cooperate with the contacts of the screws 14 and 15. For storage the contact screws are those fastened to the insulation plate 4 by screws 17 Support bracket 16. The connection to the contact screws is via Solder connections 18, To secure the contact screws 14 and 15 in their set position screws 26 'are provided, which in engage the slotted ends of the bracket.

The other leaf spring 20 mounted on the extension 10 of the yoke 6 is at its clamping point arranged on the same side of the armature spring 11 on which the armature 12 is located. The spring 20 is slightly wider than the armature spring 11, whereby it can act on the entire width of the armature spring. The spring 20 has a recess for carrying out the Armature spring 11 is bent so that it from its clamping point to the point of passage of the armature spring 11 on one side this spring and from there on the other side of the armature spring runs parallel to this. Its free end bends onto the armature spring 11 above the one leg of the yoke part forming the magnetic core and exerts on this point the Spring 11 exerts a pressure which makes the armature in contact with this part of the magnetic core holds. Furthermore, it lies with its one edge of the feed-through opening against the Spring 11. The one on these points of the armature spring 11 pressure generated by the damping spring 20 can be adjusted by means of the adjusting screw 9 to be changed. The action of this screw on the spring 20 also causes a Twisting of the armature 12 avoided by imprecise engagement of the adjusting screw. In order to prevent the adjusting screw 9 by vibrations when the relay is working assumed position changed, a spring 23 is provided on the extension 28 of the yoke 6, which lies against the screw head and the screw against rotation secures.

The operation of the relay is as follows: When the coil 24 is energized, the coil 24 becomes U-shaped Part of the yoke 6 magnetized, whereby the armature 12 to the bearing the coil Leg is used and this moves around the other leg of the core. The armature spring 11 bends during this movement Somewhat through between the armature 12 and the bearing 10 and thereby removes itself with its one contact point of the contact 13 of the screw 14, while at the same time their other contact point approaches the contact of the screw 15 and this closes. When the coil 24 is de-energized again, the armature 12 comes under the influence the spring 11 returns to its initial position.

It can be seen that the spring 20 due to its arrangement to the armature spring 11 vibrations this spring dampens. The point at which the armature spring 11 passes through the recess the damping spring 20 reaches through it is expediently chosen so that the armature spring is thereby subdivided with respect to its length so that the natural frequency of one of these Part does not fall within the range of the frequency or its harmonics of the other part, in order to reduce or eliminate the tendency of armature spring 11 to vibrate.

Claims (9)

Patent claims: 1. Electromagnetic relay, especially telephone relay, with on one Leaf spring mounted armature, characterized in that the armature spring (11) under the influence of a damping spring (20) "o stands, which acts on several points of the armature spring (11). 2. Electromagnetic relay according to claim ι, characterized in that the Damping spring (20) exerts pressure in several directions on the armature spring (11). 3. Electromagnetic relay according to claim ι or 2, characterized in that that the damping spring (20) has a recess for the implementation of the armature spring (11) and is shaped so that they partly have a layer on one and the other side of the armature spring (ii) occupies. 4. Electromagnetic relay according to claim 2, characterized in that the The damping spring (20) exerts a pressure on a support point of the armature (12) the armature spring (11) exercises. 5. Electromagnetic relay according to claim. 3, characterized in that the damping spring (20) applies a pressure to the feed-through opening for the armature spring (11) exercises on this. 6. Electromagnetic relay according to claim 3 or 5, characterized in that that the passage point for the armature spring (11) on the damping spring (20J is chosen so that the armature spring (11) in is subdivided with respect to their length so that the natural vibrations of a part are not a simple multiple of the natural vibrations of the other part. 7. Electromagnetic relay according to one of the preceding claims, characterized characterized in that the damping spring (20) is wider than the armature spring (11) and over the entire width of the Armature spring acts on this. 8. Electromagnetic relay according to claim 7, characterized in that the pressure of the damping spring (20) on the armature spring (11) is adjustable. 9. Electromagnetic relay according to claim 8, characterized in that the damping spring (20) is under the influence of an adjusting screw (9) which is secured by a spring (23) against vibrations caused rotation is secured. 1 sheet of drawings