DE958488C - Drive for electromagnetic switchgear with knee joint hinged to the armature - Google Patents

Description

ISSUED FEBRUARY 21, 1957

V6802VIIIb / 2i c

The invention relates to a drive for electromagnetic switching devices with an armature articulated Knee joint, in which the excitation voltage of the magnet coil after it has been switched on is switched off automatically.

In the known switching devices of this type, mechanical fading is often provided, that keep the knee joint and thus the contactor in the on position, or you can go with them the knee joint does not go beyond the dead center position and holds the magnet armature through the constantly excited Solenoid.

In addition, hinged anchors have already been used in general for locking purposes, in that this is provided with a hook-shaped extension, one of which is under spring tension Hold the lever until it disengages due to the tightening of the hinged armature.

In this and in the aforementioned known devices are within the Verklinkungs- ao make relatively large frictional forces to be overcome by the magnet of the hinged armature must be applied. Furthermore, such facilities have no influence on the distance covered by the armature, so that the moving armature as borrowed with hard blows on the Opposite pole strikes. The resulting bumps lead to an early wear of the Pole faces, so that the remanent air gap, which was initially only a few tenths of a millimeter, is soon complete disappeared and a safe fall of the magnet armature is in question.

The object on which the invention is based is, on the one hand, an almost smooth one To create latching of the anchor, at the same time with devices for limiting the Magnet armature path length is provided and which also occurs in the network for the to be monitored System damaging influences, e.g. B. undervoltage or zero voltage responds.

According to the invention this is achieved in that ίο that to hold the armature and with this connected knee joint in the switched-on position a hinged armature of an auxiliary hinged to the latter. magnet is used. In order to avoid the armature hitting the magnetic pole surfaces, a The bolt fastened to the anchor is provided which hits a stop when the anchor is moved and thereby limits the length of the path when it is switched on.

A switching element is expediently arranged directly on one of the moving parts of the knee joint, which switches off the current flowing through the magnet coil when the armature moves into the switched-on position. In this way it is achieved that the contactor magnet coil, which is much larger than the auxiliary magnet coil, does not cause any further power consumption. The armature brought into this position is only held by the much smaller auxiliary magnet, the power consumption of which is insignificant compared to the contactor magnet. A switching device drive designed in this way can advantageously be used at the same time as an undervoltage or zero-voltage release, optionally with or without a time delay. These and other advantages are explained in more detail with reference to the drawing. The switching device consists essentially of the magnet I and the auxiliary magnet 2. The magnet ι consists of the stationary magnet core 4 and the armature 6 which is movable in the magnet coil 5 and which is connected to the hinged armature 11 of the auxiliary magnet 2 via the knee joint 3. The spring 7 tends to move the knee joint 3 with armature 6 against the magnetic force generated by the magnetic coil 5 into the starting position. On one side of the knee joint 3, an angle lever 8 with the movable contact piece 9 is arranged, which closes or opens a circuit with the counter contact piece 10. On the other side of the knee joint 3, the hinged armature of the auxiliary magnet 2 is hinged, which is rotatably mounted in the fixed point 12 and rests against a stop 13 when the switching device is switched off. A switch 14 is actuated by one of the moving parts of the knee joint 3, which switches off the current flowing through the magnetic coil 5 when the armature 6 is moved into the switched-on position. A permanent current flows through the coil of the auxiliary magnet 2, so that the magnetic force generated by this attracts the hinged armature n and holds both the armature 6 and the knee joint 3 in the on position. So that the two magnet cores 4 and 6 cannot collide with one another, a bolt 16 is expediently attached to the armature 6 to limit the length of the magnet armature travel, which bolt rests against a stop 17 when the main magnet armature 6 moves.

Because the auxiliary magnet 2 is traversed by the permanent oxome, it is also subject to the respective Network voltage fluctuations, d. that is, if the voltage drops or if it does not work at all the voltage, the magnetic force is not sufficient to hold the hinged armature 11. on Because of this property, the switchgear drive according to the invention also acts as a sub- or zero voltage release. In the event that this should only be delayed, leave the activity attach themselves to the free legs of the auxiliary magnet 2 delay means of a known type.

Claims (4)

PATENT CLAIMS: 1. Drive for electromagnetic switching devices with knee joint hinged to the armature, in which the excitation voltage of the main magnet coil is automatically activated after switching on is switched off, characterized in that to hold the armature (6) and the knee joint (3) connected to it in the switched-on position a hinged armature (s) of an auxiliary magnet that is hinged to the latter (2) serves. 2. Drive for electromagnetic switching devices according to claim 1, characterized in that; that a bolt (16) with a stop (17) is provided that prevents the pole face of the armature (6) from touching the magnetic core (4). 3. Drive for electromagnetic switching devices according to claim 1 and 2, characterized in that that a switching element (14) is arranged directly on one of the moving parts of the knee joint (3), which when moving of the armature (6) in the on position switches off the current flowing through the solenoid coil (5). 4. Drive for electrical switching devices according to claim 1 to 3, characterized by the Use as undervoltage or zero voltage release with or without time delay. 1 sheet of drawings