DE598088C - Remote-controlled automatic switch in which the moving contacts are firmly connected to the armature of a holding magnet - Google Patents

Description

GERMAN EMPIRE

ISSUED ON JUNE 5, 1934

REICH PATENT OFFICE

PATENT LETTERING

JVr 598088 CLASS 21c GROUP

Voigt & Haeiiner Akt.-Ges. in Frankfurt a. M. *)

Patented in the German Empire on August 20, 1931

For the formation of a self-switch is not only the operationally to be switched off manually Power is decisive, but also the energy that can occur in the event of a short circuit and that is handled by the switch must become. The power to be switched off is in the normal case, i.e. with manual switch-off, far less than when a short circuit occurs, and a built for the latter performance Self-switch is therefore out of proportion to the size of the switch that is used for the normal breaking capacity is necessary. As for the construction of an automatic switch, the Short-circuit power is decisive, the manufacturing costs are increased as a result; it furthermore, unnecessary energy consumption occurs when switching. It was therefore at automatic switches, especially oil switches, proposed to make the switch-off with automatic switch-off larger than when switching off by hand, namely by using a crossbeam that perform two different switching movements can. However, if it is a switch that actuates the contact when a magnet armature pulls or falls off is brought about, such a space-consuming arrangement cannot be used.

The invention relates to remote-controlled circuit breakers, in which the movable Contacts are firmly connected to the armature of a holding magnet, its monitoring circuit except through the remote switch contact through a thermal or electromagnetic overcurrent and through an electromagnetic short-circuit release is controlled. According to the invention are several stops are provided, depending on the type of triggering come into effect and the anchor of the holding magnet in different waste positions lock. The first drop position corresponds to a sufficient switching path of the movable one Contact or a sufficient switching capacity of the self-switch in normal operation, the second in the event of an overcurrent, the third in the event of a short circuit. When triggered by remote control, the falling anchor locked or stopped in the first waste layer by the first stop. When the overcurrent release responds, the first stop is removed from the blocking position, so that the armature only is blocked by the second stop. When the short-circuit release responds the first two stops are removed from the blocking position, so that only the third, firmly arranged stop acts locking. That

*) The patent seeker stated as the inventor:

Wendelin Zindel in Offenbach a. M.

In the first two cases, it is switched on again using the remote switching contact of Hand made; In the event of a short circuit, the third drop position can be selected so that the anchor spacing does not allow remote switching on again and the monitoring Person is induced to investigate the cause of the short circuit.

The invention will be explained in more detail with reference to Figs. They show such a remote switch in two views, namely in the normal switch-off position carried out by hand, α is the holding coil, b is the armature that closes contact c by pulling the movable contact ^{arm c 1} and by simultaneously closing a second, not shown contact the holding coil α holds tension so that the armature b cannot fall off, d and e are movable stops, f a fixed stop. The stop d can be removed by the bimetallic strip g heated by the current in the event of an overcurrent, the stop e by the short-circuit coil h by means of the angle lever i.

The mode of operation is as follows: If there is a slight overload, the bimetallic strip g heats up and moves the first stop d to the side in such a way that the armature b of the contactor and thus the movable contact arm c ^{1 have} a greater switch-off path, if this overload occurs, be it by hand or automatically, the contactor is switched off by a device not shown. In the event of a short circuit, on the other hand, the second stop e is removed by means of the angle lever i by the magnet h , which only responds in the event of a short circuit. The two movable stops d and e are thus under each other in compound that upon removal of the stopper the stopper is moved e d but wherein moving the stop of the stop e d stops. In the event of a short circuit, the greatest cut-off distance is achieved, and the armature g rests against the fixed stop f. The armature b is then so far away from the magnet coil α that it cannot be switched on again.

Claims (1)

Claim: Remote-controlled automatic switch, in which the movable contacts are firmly connected to the armature of a holding magnet, the circuit of which is controlled by a thermal or electromagnetic overcurrent and by an electromagnetic short-circuit release, in addition to the remote switch contact, characterized in that several, the armature (Jb) of the Stop magnets (d, e, f) that block holding magnets in different fall-off positions are provided, the first (d) of which blocks armature (b) in a first fall-off position (or switching path) that is sufficient for the switching capacity available during this triggering, and when the Overcurrent release (g) is removed from the blocking position, the second (e) of which, when the overcurrent release occurs, blocks armature (b) in a second drop position that is sufficient for the switching capacity available during this release, and when the short-circuit release Qi, i) takes along the first stop ( d) is removed from the blocking layer, and its third fixed arranged stop if) locks armature Q)) in a third drop position that is sufficient for the switching capacity present during this trip, which, in contrast to the first two drop positions, does not allow renewed switching on from a distance. 1 sheet of drawings