DE436677C - Overcurrent switch for small currents - Google Patents

Description

GERMAN EMPIRE

ISSUED NOVEMBER 6, 1926

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21c GROUP

(V20807 VUI \ ai <*)

Voigt & Haeffner Akt-Ges. in Frankfurt a. M. *). Overcurrent switch for small currents.

Addendum to patent 435607.

Patented in the German Empire on December 15, 1925. The main patent started on February 21, 1925.

The patent 435607 shows an arrangement j the inertia is made by changing the mass for slow tripping of small overcurrent j reached. In the event of an overcurrent, the inertial mass becomes

switch where the armature

inert mass to be moved in a special

ren pivot is mounted. The change is set in motion and after a certain Time causes the switch-off, if not the overcurrent, as it is when switching on

*) The patent seeker stated as the inventor:

Friedrich Schoof in Eppstein L T.

of gas-filled lamps or the like. Occurs, has decreased. Even with a short circuit, in which an immediate shutdown is to take place, the shutdown is only activated when this inertia release is used after a certain period of time.

In order to activate the slow shutdown in Effectiveness to kick in in the event of a short circuit

to cause an immediate shutdown, according to the invention, the arrangement is made so that the magnet armature does not directly set the inertial mass in motion, but that it acts on a lever arm against which the inertial mass is cushioned. , By setting this spring force, the Limit of overload determined so that below the response of this spring inert mass is set in motion, but the force of the spring in the event of a short circuit is overcome and an immediate shutdown takes place. If there are several in series Overcurrent switches can be graded by changing the spring force

As the inertial release can be achieved, and expediently in such a way that the overcurrent switch closest to the power source receives the greatest inertial release.
If the lever arm is also designed as an inertial mass or is provided with a second bearing mass, a short-circuit gradation is also achieved, because the more inert the mass directly connected to the lever arm, the greater the tripping time in the event of a short-circuit.

The figures show one of the possible embodiments, namely in Fig. Ι the inertial mass is cushioned against the lever arm, in Fig. 2 the lever arm is also designed as an inertial mass, α is the overcurrent magnet, b the armature with the adjusting screw c, through the the anchor distance can be changed, d is the inertial mass that is cushioned against the lever arm e. By any arrangement not shown in the drawing, the inertial mass is returned to its original position after it has responded.

When a lamp circuit is switched on, the magnet armature b will respond due to the overcurrent that occurs and slowly approach the magnet core because it has to move the inertial mass with it. In the event of a short circuit, however, the force of the armature is so great that the spring lying between the lever arm and the inertial mass is tensioned without setting the inertial mass in motion, and so the armature can trigger the trigger immediately. In Fig. 2, the lever arm e is also designed as an inert mass in order to obtain a short-circuit graduation with several overcurrent switches connected in series.

Claims (2)

Patent Claims: 1. Overcurrent switch for small currents according to patent 435607, characterized in that that the armature acts on a lever arm against which the inertial mass is cushioned. 2. Overcurrent switch according to claim 1, characterized in that the lever arm is designed as an inertial mass. Λbl.l Mb. 2