DE892316C - Contact arrangement - Google Patents

Description

With the known contact arrangements for telegraph relays, buzzer, mechanical vibratory contact converters, one looks for the bouncing of the contacts to combat such an arrangement, in which the kinetic energy is converted into friction will. It has emerged that with so-called bounce-free contact arrangements, in which, for example, the movable contact spring arrangement of two together is composed of springs fastened or clamped at one end and the rub against each other with a surface part of their otherwise freely oscillating ends or in which a third spring is arranged between these two, on the free ends rub these outer contact springs, a high degree of freedom from bouncing is achieved; because part of the actuation energy, especially the kinetic energy des: after contact closure still moving anchor, in the elastic itself Deforming contact springs must be saved in order to even partially result in friction to be implemented.

According to the invention, to achieve a very low bounce effect the storage of energy is greatly reduced by that the standing with friction springs in frictional engagement movable contact carrier up to a particularly resilient clamping end is designed to be stiff. This achieves that the energy-storing effect is largely prevented and that after the stop of the contact when moving the anchor all work largely in friction is implemented. This effect according to the invention is particularly important in the case of unpolarized relays successful with mechanical resetting of the armature, as in this case as a result the different mechanical energy content when tightening and falling Relay contacts have a strong tendency to bruise.

According to a further embodiment of the invention, however, the friction springs are also used except for its soft clamping end, stiff. Both with the friction springs as in the case of the contact carrier, stiffening can be achieved by flanging the longitudinal edges over the entire length of the part consisting of ribbon springs up to the vicinity of the clamping point can be achieved. The clamping ends can or by means of provided openings web-like training can be made particularly flexible. It can be in frictional engagement standing surfaces expediently consist of different building materials in order to create a mutual To prevent bruising.

In Figs. I to 3 are several embodiments according to the invention shown: In: Fig. i, the armature i rotatably mounted at a can move between the poles: 2 of the electromagnet system, not shown, when energized and Moving excitement. At the anchor, the one that is only yielding in the vicinity of the clamping point Contact carrier 3 with end contacts q. stored that with the fixed contacts 5 cooperates. On both sides of the; Contact carrier in their direction of movement two friction springs 6 are arranged, which are attached with their fixed ends to the armature are and with surfaces at their free ends as close as possible to the, contacts on the rub the stiff part of the contact spring 3. Any further movement of the armature i after the contact has been made leads to implementation: the energy stored in. Anchor and in the friction springs in Friction work and thus freedom from bouncing.

In FIG. 2, the arrangement of which essentially corresponds to that of FIG. the anchor system is stored at b.

In Fig. 3, the rigid contact carrier is compliant only at the clamping end 33 at c, according to an older proposal, outside the pivot point of the armature i3 stored at d. This allows a simpler power supply and greater freedom under construction.

In Fig. Q. is the contact carrier 34 according to Fig. i and 2 @ in side view shown; you can see the web-shaped design of the resilient clamping end at e.

In Fig. 5 is shown in front and side view, a by crimping the longitudinal edges stiffening of the band-shaped in this case Recognize building material existing contact carrier 35.

In Fig. 6 is shown in front and side view, a Stiffening of the friction springs 66 of FIG. i to recognize 3.

Claims (2)

PATENT CLAIMS: i. Very bounce-free contact arrangement for relays, switches, Vibrating contact converter, in particular telegraph relay, with two friction springs slide on a resilient contact carrier arranged between the two, thereby characterized in that: the contact carrier and / or the friction springs up to the vicinity of the resilient clamping ends are designed to be stiff. 2. Contact arrangement according to claim i,: characterized in that the longitudinal edges of the strip-shaped building material Contact carrier or friction springs up to the vicinity of the resilient clamping end are flanged.