DE456577C - Electromagnetic release for weaker and stronger overcurrents - Google Patents

Description

GERMAN EMPIRE

ISSUED FEBRUARY 28, 1928

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21c GROUP

Patented in the German Empire on January 25, 1925.

A release device for automatic electrical circuit breakers is already known, in the case of the parallel to the trigger coil of the magnet, an iron resistance with a large, positive Temperature coefficient is switched, so that the response of the trip coil at rapid or sudden changes in current with a larger value of the main current occurs than with slow changes of the same. If the main stream grows, it grows also the temperature and thus the resistance of the shunt. Changes according to this new resistance ratio the power distribution of the system. At a certain value of the main current the partial current influencing the trip coil will have grown so much that the coil will respond. But there is the disadvantage with such a device Einrichao that the switched on Iron resistance after reaching the level required for the trip coil to respond Resistance value continues to be heated until the interruption of the circuit eras follows and can melt through during this time.

According to the invention this disadvantage is avoided in that one end of the Resistance forms the fixed contact of an interruption point, the more movable one Contact with a thermal contact device permanently in the main circuit sits. This has the advantage that any resistance is used can be and is protected from melting, because the thermal contact device when the response current is reached the trip coil switches off or short-circuits the resistor so that it therefore acts like a fuse for the resistance.

On the drawing are in Figs. 1 and 2, these two embodiments of the inventor shown.

In Fig. Ι there is a thermal contact device b and the coil of the trigger α in the line e. A resistor f is connected in parallel to the trip coil via the thermal contact c. The thermal contact device is represented, for example , by two metal strips d _lt d> forming an acute angle with one another.

The mode of operation is as follows: If there is a strong overcurrent, ζ. B. a short circuit, so flows both a partial current through the parallel resistor / and through the trip coil. The partial current flowing through the release coil attracts the armature (not shown) and thereby knocks out the release pawl of the switch. The thermal element b is too slow to open the contact c immediately. Is that enough

*) The patent seeker stated as the inventor:

Dipl.-Ing. Kurt Büchner in Berlin-Grunewald.

If the partial current flowing through the trip coil does not cause the armature to be attracted and thus the switch to be switched off, the thermal element b heats up and bends to the right, so that the contact c opens and thereby the partial current flowing through the resistor / is switched off. As a result, the resistor f is switched off in each case

to the thermal contact device b made when the partial flow is so large that a melting of the resistor is to be feared. After the resistor has been switched off, an increased current will flow through the release coil of the release α and attract the armature, so that the switch is switched off.

In Fig. 2, the trip coil of the release o is preceded by a resistor g , which is short-circuited by the contact c of the thermal element b when it responds. As a result, the series resistor g and the parallel resistor / are connected in series, and this resistor combination is parallel to the trip coil. As a result, a larger current is also driven through the release coil of the release α , so that the armature of the release α attracts and switches off the switch. The arrangement according to Fig. 2 has the advantage over that according to Fig. 1 that on the one hand a closing contact is used instead of an opening contact on the thermal element, so that the contacting is more specific, and on the other hand the resistance / by the series resistor g in is protected even further from melting through.

Claims (2)

Patent claims: ι. Electromagnetic trigger for weaker and stronger overcurrents, especially for circuit breakers, its parallel Resistance to the tripping coil becomes ineffective in the event of weaker overcurrents lasting longer characterized in that one end of the resistor forms the fixed contact of an interruption point, the more movable one Contact is seated on a thermal contact device that is permanently in the main circuit. 2. Electromagnetic release according to claim i, characterized in that a series resistor is in series with the trip coil and the parallel resistor is arranged in parallel with both of them is and that when the thermal contact device responds, the series resistor is short-circuited. 1 sheet of drawings.