DEP0048601DA - Tripping device for electrical overcurrent switches - Google Patents

Description

Electrical overcurrent switches, such as those used to protect lines, devices and motors, are usually equipped with tripping devices that are designed in such a way that short-term overloads of lower magnitude pass without any effect, while higher overloads and short-circuits cause the switch to be triggered immediately by means of an electromagnetic quick release .

According to the invention, the quick release is formed by an electrodynamically moved conductor that can work both alone and in conjunction with a technical release. The electrodynamically moved conductor can also be a thermostat.

With the invention, the overcurrent switches are considerably simplified and cheaper, since the magnet and armature are omitted. Where you want to use electromagnetic spark extinguishing, this can be simplified, since you do not have to take into account the double function of the magnet for quick release and spark extinction when setting up the switch.

The drawing shows an application example of the invention.

On the insulating block e (Fig. 1) the leaf spring b is attached, on which, influenced by the spring f and with the interposition of the insulating buffer i, the leaf spring a rests. The latter is opposite to the plunger x, which is connected to the mechanics of the switch (not shown). The leaf springs a and b are connected to the flexible power supply lines m and n. If a current of sufficient strength flows from m via a, b to n or vice versa, the leaf springs a and b are electrodynamically driven apart and the leaf spring a goes into the dotted line

Position, in which it moves the plunger x and triggers the switch.

If the leaf springs a and b are made of bimetal and if there is a long-term, low-level overload, the two springs bend under the influence of the heating and also move the plunger x until the switch is triggered (Fig. 2). Since both springs move evenly, the electrodynamic effect between them always remains the same and a sudden short circuit would trigger the switch immediately, regardless of the position in which leaf springs a and b are.

It goes without saying that only one of the two conductors a and b can consist of bimetal. Likewise, a switch can be provided with a purely electrodynamic and a purely thermal release at the same time, which act independently or as a function of one another. Instead of promoting, it can also be useful in certain cases that both types of triggering influence each other in an inhibiting and delaying manner. The triggering can also take place with the interposition of an energy storage device. The invention is not bound to the embodiment shown. In particular, the conductors producing the dynamic effect can have any desired suitable shape and can also be switched in such a way that they can both attract and repel one another.

Claims (4)

1. Tripping device for electrical overcurrent switches, characterized in that it consists of one or more electrodynamically moved conductors. 2. tripping device for electrical overcurrent switch according to claim 1, characterized in that one or more of the electrodynamically moved conductors consist of a bimetal. 3. Trip device for electrical overcurrent switch with a thermal trip according to claim 1, characterized by such an arrangement of the thermal trip device that the movement caused by the thermal trip has an inhibiting or promoting effect on the electrodynamically generated movement. 4. tripping device for electrical overcurrent switches with thermal tripping according to claim 1, characterized by such an arrangement of the electrodynamically moved conductor or conductors that the electrodynamically generated movement has an inhibiting or promoting effect on the movement of the thermal tripping device.