DE1035217B - Communication relay - Google Patents

Description

The invention relates to telecommunication relays, in particular to telephone relays, with movable and fixed contact spring and with a comb-like one under the influence of return springs Isolieirstück, in whose grooves the movable contact springs engage with their ends protruding beyond the fixed contact springs.

With such. Relays, the contact springs are preloaded throughout, i. H. they are bent so that the movable ones Contact springs lay against the fixed contact springs due to their own elasticity. This preload determines the contact pressure in the rest position. Bending the contact springs is one difficult work and requires great skill. It can therefore only be done by trained professionals be exercised and is accordingly expensive. Another disadvantage is that the bias of the contact springs changes over time, so that ultimately you no longer know exactly with which one Contact pressure abut the movable springs against the fixed springs.

In a number of known arrangements, the return spring of the relay armature also serves to to pull the movable springs against the fixed springs, which reduces the value of the contact pressure in the rest position can no longer be precisely determined and also cannot be regulated.

Furthermore, versions of telecommunication relays have become known with individual rectilinear, tension-free contact springs that are designed as movable Contacts with their ends protruding beyond the fixed contacts in under the influence of Return springs engage standing comb-like insulating pieces.

However, the arrangement described last does not represent a satisfactory solution either, since it does not special settings no precise definition of the contact pressure for all contact springs and thus a sufficiently flawless operation is not guaranteed.

According to the invention, these shortcomings are eliminated in that all contact springs of the relay are flat and are designed to be free of tension and that, in addition, one of the return spring is common for all contact springs of the armature independent, provided on the comb-like insulating piece acting return spring is that in the rest position of the relay serve the contact pressure of the movable contact springs against the stationary ones Contact springs determined.

In the arrangement according to the invention, the action of the return spring can be achieved in a simple manner and thus precisely set the contact pressure, for example using an ice screw. This affects particularly advantageous that the risk of

Applicant:
Etablissements Bernier & Cie., Paris

Representative: J. Schmetz, patent attorney,
Aachen, Wilhelmstrasse 80

"> Claimed priority:

France from February 18, 1955

such divergent aging of the material of the contact springs, which gives rise to different, unwanted Contact pressing could give, with straight and tension-free contact springs in any case essential is less than with curved springs, bed those through

a5 the bend is a structural change, be it through Upsetting or surface stretching. The force of the return spring is equal to that Sum of the pressures of the normally closed contacts; their greater flexibility compared to a contact spring causes The same excitation of the relay requires a higher pressure on the normally open contacts or requires the same pressure a weaker excitement. A difference in the contact pressures can be achieved in that the contacts are made differently strong.

The establishment of follow-up and twin contacts is also possible by varying the distance between the fixed ones during assembly Contact springs and the movable contact springs made possible. Contact bounces or vibrations can also be used when the tension of the return spring is less strong, thanks to a light design of the Avoid comb-like insulating piece.

The movable insulating piece can according to the invention between the one ends of two flexible leaf springs be arranged, which run parallel to the leaf springs carrying the contacts and their other ends are fastened by the same means as the contact springs.

The insulating block can also be slidably arranged on a pin fixedly connected to the relay frame be.

The armature of the relay operates the insulating block via an arm that is firmly connected to the armature and engages at one end of the insulating block, wherein · the

809 579/129

Isolation block is near the relay armature or on the end of the relay opposite the armature side of the relay can be arranged.

The relay comprises two or more sets of contacts, each of which has its own, fixed to the Armature of the relay connected arm is operated.

The individual actuating the various sets of contacts Arms can also be offset from one another in order to be actuated one after the other of contact groups.

For a better understanding of the invention are below some example embodiments are described in more detail with reference to the drawings. It shows

Fig. 1 is a side view of a telephone relay according to the invention with two sets of contacts of three Contact groups,

Fig. 2 is an end view of the relay,

Fig. 3 the relay shown in Fig. 1 in plan view,

4 shows a side view of a further embodiment with only two contact sets of two each Contact groups,

FIG. 5 shows a detail of FIG. 1 in a modified embodiment,

Fig. 6 is a side view of the insulating block of the relay shown in Fig. 5 and

7 shows a detail of FIG. 4 in a modified embodiment.

In the case of the telephone relay shown, the frame is with 1 and the anchor with 2 designated. The anchor 2 is in the usual way by means of an as Hinge acting spring 3 attached to the frame.

According to FIGS. 1 to 3, two sets of contact springs are on an insulating block 4 that is fixedly connected to the relay frame arranged. Each contact set has three contact groups. Each contact group sits down in a known manner from a changeover contact 5, a normally open contact 6 and a normally closed contact 7 together (Fig. 5). The contact spring 8 carrying the changeover contact 5 is slightly longer than that of the working and Springs carrying normally closed contacts 6, 7 and engages in a corresponding slot of an insulating block 9 (Figs. 1 to 3).

The insulating block 9 is arranged between the ends of two spring strips 11 which are parallel to the Contact springs run and in turn are fastened in the block 4 by means of the screws 12, which are also used for Serve fastening the contact springs. As can be seen from FIG. 2, there is an insulating block for each contact spring set 9 provided, so a total of two insulating blocks.

Each insulating block 9 can counteract the action of a return spring 13 by a Arm 10 fixedly connected to the armature 2 of the relay can be actuated. One end of the return spring 13 is on attached to the relay frame tongue 14 of the spring 3, while the other end is attached to a Cross piece 15 is attached, which is supported against the two insulating blocks.

When the relay is energized, the armature 2 is attracted; his arms move the two insulating blocks 9, so that they take all changeover contact springs 8 and their contacts 5 against the Bring working contacts 6 to the system. As soon as the power supply to the relay is interrupted, the Spring 13, the blocks 9 and thus the switching contact springs 8 back so that the contacts 5 against the Normally closed contacts 7 come to the plant.

The use of straight, non-bent contact springs makes assembling the relay much easier and increases its operational reliability. Springing back of the contacts is avoided in that the changeover contact springs are held firmly at their ends.
By slightly offsetting the two arms 10 relative to one another, it can be achieved that the contacts of one contact set open or close earlier than the contacts of the other contact set.
The arrangement shown in the drawings enables a large number of contacts to be accommodated in a very small space. In addition, when using a double horseshoe magnetic circuit with a rectified air gap, the pick-up and drop-out of the relay can be appropriately delayed, the space requirement of the relay still remaining small.

The relay shown in Fig. 4 differs from the embodiment described above in that than on the one hand each contact set comprises only two contact groups and on the other hand the changeover contacts actuating insulating block 9 'arranged at the end of the relay opposite the armature 2 is. The arms 10 'actuating the insulating blocks 9' are longer in this embodiment. That entire relay is more compact in structure and therefore takes up less space.

In Fig. 5 a modified arrangement of the switching contacts actuating insulating block 17 is shown. The Isoüierblock 17 slides on a fixedly connected to the frame 1 of the relay pin 18. Die remaining parts of the relay are the same as the parts shown in Figs.

FIG. 7 shows a detail of an embodiment in which the insulating block 21, like that in FIG. 4 The relay shown is arranged on the side opposite the armature and, as in the case of the in 5 is slidably mounted on a pin 22.

Claims (6)

PATENT CLAIMS: 1. Telecommunication relays, especially telephone relays, with movable and fixed contact springs and with a comb-like insulating piece under the influence of return springs, in whose grooves the movable contact springs with their protruding beyond the fixed contact springs Engage ends, characterized in that all contact springs of the relay are flat and tension-free and that also one common for all contact springs independent of the return spring (3) of the armature (2) and acting on the comb-like insulating piece (9) Return spring (13) is provided, which in the rest position of the relay, the contact pressure of the movable Contact springs determined against the fixed contact springs. 2. Telecommunication relay according to claim 1, characterized in that the insulating piece (9) between the ends of two flexible springs parallel to the contact springs is held. 3. Telecommunication relay according to claim 1, characterized in that the insulating piece (9) on one on the relay frame (1) attached pin (18, 22) is slidably mounted. 4. Telecommunication relay according to claim 1, characterized in that the insulating piece (9) on the the armature (2) opposite end of the relay is arranged (Fig. 4 and 7). 5. Telecommunication relay according to claim 1, characterized in that there are at least two groups of compact springs, each of which is actuated by an arm (10) of the relay armature (2) (Fig. 3). 6. Telecommunication relay according to claims 1 and 5, characterized in that the individual the Arms (10) controlling contact springs with their effective ends offset from one another. net to go to the contact groups one after the other To have an effect. Documents considered: German Patent No. 607 815; Austrian Patent No. 113 868; French patent specification No. 792 086, 565; “Bell Laboratory. Record ”, October 1949, pp. 355 to 358. 1 sheet of drawings