DE1635184U - ELECTROMAGNETIC RELAY. - Google Patents

Description

Electromagnetic relay In the case of DC relays in low-voltage technology, z. B, with selector relays in telephony, it is known to use the contact spring sets not to be actuated directly by the armature but by a cam disk that is operated by the armature can be gradually adjusted using the push pawl and ratchet wheel. The cam disc then, depending on their training, establishes a certain legal relationship between the electrical impulses controlling the relay and the switching impulses emitted by the relay here.

The innovation concerns a similar relay with cam-controlled contacts, However, in contrast to the known versions, this is particularly important from the point of view a space-saving design and very reliable operation is formed. Directly with the arrangement of the push pawl used to advance the cam disk The ratchet wheel and the cam disk are, according to the latest innovation, on the hinged armature of the delais Arranged flat above or below the relay coils, the cam disk between the contact springs which are also flat on or under the relay coils lying relay spring sets can be located.

The arrangement according to the innovation can be used with both direct current relays and alternating current relays with advantage, in particular high-voltage contacts can be switched properly Vb / Hs can be switched when the knob washer on both sides between sets of springs respectively. Locking spring plates are arranged and designed in such a way that they lock into each new switching position under the action of the spring forces. In the drawing, Fig. 1 shows an embodiment of the nine D. Relays, while in FIGS. 2 to 7 differently designed cam disks and contact spring sets are indicated, for example.

The AC relay shown schematically in Fig. 1 per se known design with frame 1 and mag- 0 netspulen 2 has a hinged armature 3 on its front side; which is attached to the relay frame in a swinging manner, for example by means of a spring plate at 3a and 3b. The pawl 4, which works on a ratchet wheel 5 located below the cam disk 6, is fastened to the armature 3. The cam 6 and the ratchet wheel 5 are mounted on the same pivot; they can also consist of a single piece of molded material, synthetic resin or the like. The cam disk has the shape of a pentagon and is clamped between the left contact spring set 7a and the right locking spring plate 7b. The arrangement of the contact spring set 7 directly on or under the relay coils is known per se as being particularly space-saving in relays and could be retained unchanged with the arrangement of the cam disk and its drive according to the innovation. In fact, the cam disk arrangement according to the invention is therefore required no additional space. . With each armature stroke of the relay, the pawl 4 causes the Gear 5 and the cam 6 'shifted by one tooth tet and thus the contact spring 7a of the contact spring set 7 is actuated. The cam disk and, if necessary, the one-piece gearwheel can be exchanged. Instead of one cam disk, several can also be used in order to achieve the actuation of different types of contact spring sets which is required in each case.

In Fig. 2, for example, a changeover contact arrangement is shown in Fig. 2 and a pole reversing contact arrangement is shown in Fig. 3, while Figs cause the sixth and eighth switching step to actuate the contact spring set, which is simply tared for the sake of simplicity. Of course, it is also possible to equip each of these arrangements with several contact springs. If the contact spring sets are only provided on one side, then it is advisable to arrange a locking spring plate on the other side, as shown in Fiez 1, so that the cam disk engages in a precisely defined switching position after every switching step and is also held there. Attachments: 5 claims '7 figures