DE299932C - - Google Patents

Description

IMPERIAL -.

PATENT OFFICE.

The invention relates to electrical current limiters, whose switch lever, under the action of a main current magnet, causes power interruptions in rapid succession in the event of overloads. The known devices of this type have the disadvantage that they occur when entering severe overloads are burned. In order to eliminate this disadvantage, one has the current limiters are already built in such a way that the switching lever can be activated in the event of large deflections (stronger Overload) is caught by a locking device. With these you had to After it has been blocked, release the shift lever again by hand by external intervention.

In contrast, according to the invention, the shift lever also closes according to his Blocking the circuit again automatically, namely by the fact that the locking device releases the switching lever after a pause under the action of a thermostat, its heating coil is switched on when catching the shift lever and is expediently independent of the consumption circuit.

In the drawing, a current limiter designed according to the invention is for example illustrated schematically.

The coil of an electromagnet b is connected to a main line α. At c, the coil is connected to a switching lever d , the contact e of which is in contact with the fixed contact f when the main current is closed. The contact / ″ is connected to one of the consumption lines. Between this and the second main line g, there are appliances, for example incandescent lamps.

Below the switching lever d is a lever i rotatable at h , which is supported by an adjusting screw and whose free end carries an armature located below the main current electromagnet. The lever i has a lateral arm k which, when the lever is raised, takes the switching lever d with it and removes the contacts β and f from one another.

The shift lever d has a side arm η. Above the same, a thermostat q is arranged, which is attached to its upper end. At its lower end, a pawl m is hinged at J, which is supported by an adjusting screw s and is usually held in a horizontal position. The heating wire fi of the thermostat is connected on the one hand to the jack m and on the other hand to the main line g.

The surface of the pawl m is about half bare and half covered with an insulating layer r . Between the insulating layer and the bare surface there is an inclined slot 0 with bare surfaces in the pawl m , which is so wide that the side arm η of the shift lever d can pass through it.

The current limiter works as follows:

With ordinary power consumption, all parts take those in the drawing in full lines illustrated location.

If the current strength exceeds a certain limit, the lever i is attracted by the magnet b , strikes with the arm k against the switching lever d and interrupts the

ίο Main circuit between contacts e, f. This switch-off and subsequent switch-on is repeated without interruption as long as there is only a slight overload in the main circuit.

If, however, the overload becomes greater, the shift lever d is thrown so high that its arm η lifts the pawl m and moves past it. The pawl then falls back into its initial position, and the arm η of the switching lever, which also falls back, enters the slot 0 of the pawl from above. In this way, a circuit from α via b, c, d, n, m through the heating wire ψ to g is closed. The heating of the heating wire φ causes the thermostat q to expand in the manner indicated by dotted lines. Here, the thermostat takes the pawl resting on the screw s with it to the right, so that the arm η gradually slides downwards in the slot 0 and is finally free. As soon as this has happened, the switch lever d falls down and the main current is closed between the contacts e, f .

If the great overload still exists, the lever d is thrown up again over the pawl m , but the arm «falls back onto the insulating layer r because the thermostat q is still in its deflected position. The thermostat q is therefore not heated again, but on the contrary cools slowly and returns to its initial position, pushing the pawl m to the left until the arm η falls into the slot 0. This closes the circuit again through the heating wire p , the thermostat q heats up again and expands until the pin η has fallen out of the slot 0. The duration of the interruption of the main circuit in the event of such large overloads thus corresponds to the time which the thermostat needs to contract by cooling and to expand again by heating.

Claims (2)

Patent Claims: 1. Electric current limiter, the switching lever of which is under the action of a main current magnet. in the event of overloads, it causes power interruptions in rapid succession and, in the event of large swings (severe overload), is absorbed by a locking device, characterized in that the locking device (m ) releases the switching lever (d) after a pause under the action of a thermostat (q) whose heating coil (φ ) is switched on when catching the shift lever (d) and is expediently independent of the consumption circuit. ■. 2. Electrical current limiter according to claim i, characterized in that the switching lever (d) retaining surface of a pawl (m) moved by the thermostat (q ) is partly bare, partly covered with an insulating layer (r) and between the bare and insulated surface a slot (0) with bare surfaces is provided for releasing the shift lever (d) . For this purpose ι sheet of drawings.