DE588299C - Electromagnetic triggering device for automatic switches, especially for motor protection switches, with two or more triggering electromagnets depending on different electrical sizes - Google Patents

Description

The invention relates to -an electromagnetic Tripping device for automatic switches, especially for motor protection switches, with two or more of different tripping electromagnets dependent on electrical quantities.

There are already automatic switches with electromagnetic Triggers have become known, under different conditions

ίο address. It is not easy now for one to give a compact design from these triggers. It there is also the fact that with "alternating current the release tends to make loud noises, especially wean springs can be used as an escapement or as an energy storage device. the The relationships described above apply in particular to motor protection switches that often have at least two electromagnetic releases, one for disconnection of the motor in the event of a short circuit and a second to switch off in the event of a voltage drop. With three-phase motors, the number of triggers can increase, if more should be protected as a phase.

In the special case of switching off in the event of a voltage drop, the According to regulations, the limits for the tripping torque are drawn quite tight, and there is spring pressure: the triggers open Electricity savings never quite precise react, moreover are not controllable, so in practice must be quite 'considerable Tolerances are accepted as inevitable. .

The invention aims to remedy the above-mentioned deficiencies.

To obtain one consisting of two or more release magnets. Unitary device for both of the aforementioned shutdown cases, the armature of the invention Trigger magnets in a circular segment-shaped or one-sided loaded circular, around the Kreismittelpurikt pivotable holding device attached radially and the z. B. on voltage drop and short circuit responding magnets in front of the armatures and arranged around the holding device that the armature in the normal switched-on position with. their holding device outside their center of gravity caused by their arrangement be held in a 'certain position and if' an irregularity occurs return more or less to the center of gravity in terms of voltage or current. It will while the dead weight of the anchor or a part of it as a force storage and the forces between the overcurrent and zero voltage magnets evaluated for operating the device.

In the drawing, Figs. Ι and 2 show an embodiment of the device for Direct current or for three-phase current with only one phase to be protected; in this case come only two release magnets to use. Fig. 3 shows the principle Structure with a plurality of the release magnets, so if z. B. on a three-phase motor all three phases are to be protected.

It is assumed, for example, that the triggering device according to the invention may be used in a motor protection switch. In the switched-off state, the armature holding device 6 rests with a nose 7 on one pole of the overcurrent magnet rivet 1 (Fig. 2) or i ^b (Fig. 3). When the current is switched on, the tension magnet 3 in Fig. 1 and 2 pull the armature 4 and in Fig. 3 the tension magnets 3, 3 ″, 3 * ^{hold the armature 4, 4 α} , 4 ^δ and ¹ hold the armature holding device 6 in the Levitation. When the voltage drops, the holding device 6 gradually sinks down and releases, indirectly or directly, the pawl of the switch lock, after which the switch then switches off the motor. In the event of a short circuit, the attractive force of the overcurrent magnet 1, which is also constantly energized, increases via that of the voltage magnet 3 or that of the magnets i, i ^ß , i ^b via that of the magnets 3, 3 ^α , 3 ^δ , thereby pivoting the armature assembly 6 around and so releases the pawl of the switch lock again. The whole device results in a very compact design, dispenses with the use of springs or the like. Elements and works noiselessly, since there is no contact between the armatures and magnets. In addition to being a trigger, the triggering device can also act as a relay, as indicated in Fig. 2.

In the embodiment according to Fig. 3, the magnets are mounted in a circle around their armature in such a way - that the magnets for voltage drop 3, 3 °, 2 ^b 'are a group and the short-circuit magnet rivets 1, i ^a , i ^{b are} another group Form opposite group, the difference in weight given by the different radial distance of the anchor groups from the center of the anchor holder 6 exerts a force storage effect. This weight difference can · but also by the installation of special weights on the side of the anchor group 4.4 ^A, 4 ^δ reached. It is now sufficient to interrupt a current phase or a short circuit in the same or a voltage drop in the network to disturb the equilibrium in the armature system and cause the armature holder 6 to oscillate. The resulting force pulse can be removed in any "way", for example from the shaft 5, in order to trigger the automatic switch.

In the event of a voltage drop, the armature system begins to move practically immediately and automatically follows the changing voltage, smoothly and with invariable continuity and accuracy. The time of triggering can e.g. B. by an adjusting screw 8 (Fig. 2) can be set as desired.

The desired basic interaction of gravity and the various electrical quantities in the present device can of course also by a Another way of hanging the anchor can be achieved without creating a novelty idea would be created.

Claims (1)

Claim: Electromagnetic release device for circuit breakers, especially for motor protection switches, with two or more release electromagnets depending on different electrical quantities, characterized in that the armatures (2 and 4, Fig. 1 and 2, or 2, 2 ⁰ , i ^b and 4 , 4 ^α , 4 ^δ , Fig. 3) of the z. B. to short circuit and voltage drop responding electromagnets (1 and 3, Fig. 1 and 2, or i, i °, i ^b and 3,3 ^a , 3 *, Fig. 3) in a common circular segment-shaped or unilaterally loaded circular, The holding device (6) pivotable around the center of the circle is radially fastened and the electromagnets are arranged in front of the armatures and around the holding device in such a way that the armatures are held in a certain position in the normal switched-on position outside their center of gravity and more when the current or voltage changes .or less to return to the center of gravity. For this purpose ι sheet of drawings