DE2402092A1 - Heavy current single-pole protective cct. breaker - uses parallel connection of poles of two-pole switch and has bimetal trip - Google Patents

Abstract

The heavy current line protective circuit breaker of single-pole type is formed by a parallel connection of the switching poles of a two-pole circuit breaker, or by parallel connection of two single-pole protective circuit breakers. The current path of the used circuit breaker(s) is formed by a series connection of a bimetal trip, a magnetic tripping coil and interruption contacts between the connecting terminals. In order to stabilise the current distribution in the bimetal trips, a connecting bridge of sufficient cross section is mounted between the parallel paths, coupled between each bimetal trip and the tripping coil. Preferably the input and output terminals of the individual poles are connected to the terminals of the cross section, desired for higher rated currents.

Description

Single pole circuit breaker with higher rated current The invention relates to a single-pole miniature circuit-breaker with a higher rated current, which through Parallel connection of the switch poles of a two-pole or by parallel connection two single pole protection switch is formed, whose current path through the Series connection of bimetallic release, more magnetic, between the connection terminals Trip coil and breaker contacts is shown.

By-pass circuit breakers with a medium rated current (up to 25 A) efficiently manufactured in large numbers. Because the need for breakout circuit breakers higher rated current is lower, the production of corresponding special constructions set up less rationally. It is therefore thought to use line circuit breakers higher rated current from assemblies of bypass circuit breakers the Standard series up to 25 A can be put together. With regard to the critical contact load and the maximum permissible load on the other current-carrying elements is obvious the parallel connection. The power distribution in the parallel branches depends, however on the uncertainty of the contact resistance. This affects in particular as Uncertainty on the tripping characteristics of the bimetal release, their heating and deflection is known to depend on the square of the current flowing through it. If, in a parallel connection, both bimetal strips trigger the mechanism can bring about, as is usual with two-pole bypass circuit breakers, Any unevenness in the current distribution leads to a reduced load capacity the parallel connection, so that in the worst case the rated current is already to Tripping can result.

If only one of the two bimetal releases is used to unlatch the key switch used, there is a risk of triggering too late, if this is the smaller one Current of the two parallel branches leads.

The aim of the invention is to provide the breakout circuit breaker mentioned at the outset to be trained so that the unevenness of the current distribution in the parallel branches is not harmful. According to the invention this is achieved in that for stabilization the current distribution in the bimetal releases a connecting the parallel branches sufficient bridge connected between the bimetallic release and the release coil Cross-section is provided.

The invention is based on two exemplary embodiments with reference to the drawing explained in more detail.

Fig. 1 shows the parallel connection of the switch poles of a two-pole Formation protection switch, while in Fig. 2 a variant of the embodiment according to Fig. 1 is reproduced.

In the embodiment of Fig. 1 are between terminals 1a and 2a or ib and 2b of the individual switch poles which each have a bimetal 3a or 3b a trip coil 4a or

4b and a contact arrangement 5a or 5b leading current paths are shown. A bridge 7 is connected at point 6a between the bimetal 3a and the trip coil 4a, the one at point 6b between the bimetal 3b and the trip coil 4b with the parallel branch communicates. The terminals la and ib are connected to a common terminal 8 and the terminals 2a and 2b also connected to a common terminal 9. Terminals 8 and 9 are used to accept the required for the larger nominal currents Cross-section designed.

The bridge 7 stabilizes the current distribution in the two bimetal releases 3a and 3b, so that they are evenly loaded. The unevenness of power distribution in the tripping coils 4a and 4b is not critical, since their tripping conditions are essential are more tolerated than that of the bimetal release. The series connection of the trip coils 4a and 4b with the contacts 5a and 5b has the advantage that the constant coil resistance prevents excessive unevenness in the contact load. The coil resistances thus ensure that in the event of uneven contact resistance at the contacts 5a or 5b none: rh -, - Deasting of the contact points occurs.

In the embodiment of FIG. 2, in which the execution according to Fig. 1 corresponding parts are provided with the same reference numerals, is the parallel connection by the trip coil 4a and the contact arrangement 5a or

current paths formed by the trip coil 4b and the contact arrangement 5b connected in series with only one bimetal release 3. With this version must Although the bimetallic release must be designed so that it can lead the higher Nernstrom can, but the arrangement has the advantage that a second bimetal is saved will.

Of course, the principle according to the invention can also be used with Use multi-pole miniature circuit breakers, especially if they consist of single-pole LS switches are assembled as basic building blocks. In this case it will double Number of single-pole basic modules required, two of which are in the proposed Way to be connected in parallel.

4 pages description 3 claims 1 sheet of drawing with 2 fig.

Claims (3)

Patent claims: 1. Single-pole miniature circuit breaker with a higher nominal current <strength, the by parallel connection of the switch poles of a two-pole or by parallel connection two single pole protection switch is formed, whose current path through the Series connection of bimetallic release, more magnetic, between the connection terminals Trip coil and breaker contacts is shown, characterized in that that to stabilize the current distribution in the bimetal releases (3a, 3b) a the parallel branches between the bimetal release and the release coil (4a, 4b) of each branch connected bridge (7) of sufficient cross-section is provided is. 2. Line protection switch according to claim 1, characterized in that that the input and output terminals (1a, 2a and Ib, 2b) of the individual poles with Terminals (8, 9) of the required for the larger nominal currents Cross-section are connected. 3. Circuit breaker according to claim 1 and 2, characterized in that that instead of two bimetals one suitably designed for the higher rated current Bimetal (3) in series with the parallel connection of trip coils (4a, 4b) and breaker contacts (5a, 5b) is provided.