DE102008049432A1 - Circuit breaker and current transformer for a circuit breaker - Google Patents

Abstract

The invention relates to a circuit breaker and a current transformer (1) for a corresponding circuit breaker, which serves to interrupt a current flowing through a conductor primary current through which a circuit to be protected is supplied with power, a triggering device is provided for triggering the interruption and wherein the Current transformer (1) energized the tripping device, with a main magnetic circuit (5) guided around the conductor (2) and at least one secondary winding (6) whose core is formed by a part of the main magnetic circuit (5), parallel to the core of the secondary winding (6) a magnetic shunt branch (7) is connected, which has an additional magnetic resistance. In order to limit the secondary current of the current transformer (1) automatically at high currents, it is proposed that the additional magnetic resistance is designed so that it at a lying above the rated current of the circuit breaker primary current, ie in particular in the case of short circuit, by means of in the shunt branch ( 7) occurring magnetic forces automatically reduced, so that there is an effective reduction of the additional magnetic resistance in the shunt branch (7).

Description

The The invention relates to a circuit breaker for interrupting a through a conductor flowing current and a current transformer for a corresponding circuit breaker according to The preambles of claims 1 and 12.

Circuit breakers are well known. In this case, the current to be interrupted flows through the circuit breaker itself; a circuit to be protected is supplied with power via a downstream conductor. To trigger the interruption is a tripping device, which is supplied via a current transformer (iron core converter) with electrical energy, wherein the electrical energy is removed from the current flowing through the conductor (primary current). Such a triggering device is from the EP 0 704 867 B1 known. Their current transformer further has a main magnetic circuit formed of an iron core, through which the conductor is guided, which forms quasi the "primary winding". A shunt branch divides the main magnetic circuit into two parallel partial magnetic circuits. The branch parallel to the shunt branch (partial magnetic circuit) is at the same time the core of a secondary winding, via which the electrical energy for the triggering device is coupled out. In order to increase the magnetic resistance of the shunt branch, a constant-width air gap is provided therein to correspondingly reduce the magnetic flux through the shunt branch. The shunt branch takes on (large) part of the magnetic flux at very large currents (primary currents) and passes this past the secondary winding in order to limit a further increase in the secondary current output by the secondary winding.

Should the current transformer (iron core converter) only for power supply and not be used for measurement purposes, so would like one has a large primary current range a constant (low) secondary current obtained from the current transformer. Therefore, the secondary current mostly limited at high primary currents, thereby again in the power section of the electronic trip unit space-saving electronic components with a small maximum power dissipation can be used. For measuring the primary current is then however another current transformer (eg Rogowski converter) required.

adversely is that this limit is often insufficient.

The The object of the invention is to provide a circuit breaker and a To propose current transformers whose secondary current is sufficient is limited.

The The object is achieved by the features of claims 1 and 12 solved; the dependent claims provide advantageous Embodiments

The Solution looks related to the circuit breaker as well on the current transformer before that the additional magnetic Resistance is designed so that it is over the nominal current lying primary current, ie in particular in the event of a short circuit, by means of the branches occurring in the shunt branch Magnetic forces automatically reduced, so that there is an effective reduction of the extra magnetic resistance in the shunt branch comes. So one sufficient limitation of the output from the secondary winding To achieve secondary flow, the additional magnetic resistance with enlargement of the the primary current conditional magnetic flux automatically reduced.

A simple technical design provides that the additional magnetic resistance has an air gap.

A particularly effective limitation of the secondary current is achieved if the branch (partial magnetic circuit) with the secondary winding at a predetermined primary current above the rated current undergoes a magnetic saturation.

With Advantage learns of the air gap at one above the Rated current lying primary current an elastic reduction.

in the In the simplest case, the air gap is spaced from at least two and in the direction of the magnetic flux overlapping each other Elements of the shunt branch formed.

Around to prevent the elements from sticking together, it is proposed that the overlapping elements are coated.

Technically it is easy if the main magnetic circuit is formed closed is and the elements parallel to the shunt branch and thus across run to the main magnetic circuit.

A technical execution provides that the elements as flat tongue-shaped webs are formed which extend in extend opposite directions and overlap their free ends.

One simple main magnetic circuit is layered from one another soft / ferromagnetic sheets formed.

Advantageously, the main magnetic circuit as a ring band core of grain-oriented or non-kornorien formed silicon-iron or other crystalline amorphous or nanocrystalline metallic alloys.

One simple structure of the main magnetic circuit arises when between two sheets with tongue-shaped web each one or more Sheets are arranged without a bridge.

The Invention will be described below with reference to an embodiment described in more detail. Show it:

1 a current transformer of a tripping device of a circuit breaker,

2 a simplified embodiment of the main magnetic circuit of the current transformer according to 1 .

3 the main magnetic circuit of the current transformer according to 2 as an exploded view,

4 - 5 an alternative embodiment of the main magnetic circuit of the current transformer according to 1 and

6 - 7 a further alternative embodiment of the main magnetic circuit of the current transformer according to 1 ,

1 shows a current transformer 1 for a tripping device of a circuit breaker (not shown) passing through a conductor 2 and thereby interrupting the current flowing through the circuit breaker (primary current) in case of danger, in order to protect the circuit (not shown), which is supplied with electricity by means of the primary current.

The electronic trip device triggers the interruption of the primary current, with their power supply via the current transformer 1 takes place, which the required electrical energy for the triggering device from the ladder 2 (Primary conductor) disconnects.

As 1 shows is the leader 2 through an opening 3 (through a ring with the opening 3 ), made of superimposed, soft magnetic sheets 4 which consists of the main magnetic circuit 5 form. (The main magnetic circuit 5 may also be a ring-belt core of grain-oriented or non-grain-oriented silicon-iron or other crystalline amorphous or nanocrystalline metallic alloys and the like.) The from the sheets 4 formed ring bears on the ladder 2 opposite side a secondary winding 6 However, the core of which is traversed only by a part of the magnetic flux (the main magnetic flux) of the main magnetic circuit. The other part of the magnetic flux is via a magnetic shunt branch 7 (ie a bypass), which is essentially parallel to the core of the secondary winding 6 runs.

The magnetic shunt branch 7 becomes of elements 8th formed in the direction or opposite to the direction of the magnetic flux in the shunt branch 7 extend, that is, an element extends alternately 8th in the direction of the magnetic flux and the immediately adjacent element 8th correspondingly opposite to its direction. The Elements 8th Here are flat tongue-shaped webs that extend into the opening of the main magnetic circuit 1 extend in each case alternately in opposite directions. In the overlapping area of the free ends 9 of the bridges 8th is located between the jetties 8th in each case an air gap, which is connected in the shunt branch with an additional magnetic resistance. An increase in the magnetic resistance reduces the magnetic flux in the shunt branch 7 corresponding. The magnetic flux through the shunt branch 7 causes in the overlap area that the webs 8th attract each other. Since the flat tongue-shaped webs are elastically (resiliently) bendable, a reduction in the air gap occurs, in particular in the case of a large primary current 10 , The bridges 8th are dimensioned so that the branch (partial magnetic circuit) with the secondary winding 6 in case of short circuit experiences a magnetic saturation. This can be the ends 9 of the bridges 8th also come into contact with each other, with the additional magnetic resistance in the shunt branch 7 completely disappears. The ends 9 of the bridges 8th are therefore provided with a coating which ensures that they do not adhere to each other as a result of the magnetic remanence flow.

In the embodiment, the branch with the secondary winding 6 designed so that the magnetic saturation already occurs at a primary current that is slightly above the rated current of the circuit breaker.

Is the circuit in the event of a short circuit from the circuit breaker 1 interrupted, so move the elastic ends 9 of the bridges 8th back to their starting position, causing the air gap 10 as an additional magnetic resistance in the shunt branch 7 automatically restored.

The current transformer 1 is thus designed so that the magnetic resistance of the shunt branch 7 depending on the size of the primary current through the conductor 2 automatically reduced, causing the shunt branch 7 takes over a large part of the main magnetic flux.

2 shows the main magnetic circuit 5 in a simplified version with only two bars 8th ,

In 3 is an exploded view of the main magnetic circuit according to 2 to see. You can see in 3 in that (in each case) between two sheets with tongue-shaped web 8th (each) a sheet 4 is arranged without bridge.

In other words, at low to medium primary currents, only a small magnetic flux flows through the tongue-like bars 8th formed air gap 10 , Associated with this magnetic flux is a force acting on the webs 8th (especially the ends 9 of the bridges 8th ), which is quadratically proportional to the magnetic flux. Regardless of the direction of the magnetic flux, this force attempts to both ends 9 contract, ie the air gap 10 to reduce. At a low magnetic flux, this force is not enough for a significant reduction - the ends 9 linger approximately in their starting position. The magnetic resistance of the air gap 10 is relatively high. As the primary current increases, the magnetic flux takes over the ends 9 to, which also increases the magnetic force. This will be the ends 9 with increasing primary current more and more contracted until they abut each other at high magnetic flux. A reduction of the air gap 10 leads to a reduction of the magnetic resistance of the shunt branch 7 , The smaller the magnetic resistance, the larger the proportion of the magnetic flux that is above the parallel shunt branch 7 and not flowing through the magnetic branch coming from the secondary winding 6 is enclosed. As a result, the secondary current remains constant over a wide range even when the primary current increases. Due to the flexible design of the shunt branch 7 (de magnetic bypass by means of tongue-shaped webs 8th ) reduces the magnetic resistance of the air gap 10 at high primary currents significantly better than at a constant air gap 10 , The secondary current increases only very little with increasing primary current: it is therefore very effectively limited.

An alternative embodiment with (non-elastically bendable) webs 8th show the 4 and 5 in which a rod 11 that is, between two webs extending in the same direction 8th is arranged longitudinally movable, together with the webs 8th the shunt branch 7 forms. The rod 11 is about a spring 12 on the opposite side of the laminated core of the main magnetic circuit 1 attached. In 5 is the staff 11 due to the magnetic forces between the webs 8th against the elastic pressure force of the spring 12 pulled to the right. Thus, the air gap between the webs is reduced 8th ,

Another alternative embodiment show the 6 and 7 in which a hinged anchor 13 the shunt branch 7 forms. Again, an air gap 10 against the force of a spring 14 reduced, ie the hinged armature 13 is due to the magnetic flux against the elastic spring force of the spring 14 pulled down, where the magnetic resistance of the shunt branch 7 reduced accordingly. In 7 bridges the hinged anchor 13 the opening 3 of the main magnetic circuit 5 completely, ie the air gap 10 between the hinged armature 13 and the main magnetic circuit 5 has completely disappeared; an air gap 10 is not available anymore.

The length of the air gap 10 in the parallel shunt branch 7 is therefore not constant, but decreases in each case depending on the magnetic flux and thus dependent on the value of the primary current. For very large primary currents, the air gap 10 Close almost completely. The larger the primary current, the larger the magnetic flux that is the magnetic shunt branch 7 flows.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• EP 0704867 B1 [0002]

Claims (12)

Circuit breaker for interrupting a primary current flowing through a conductor, by means of which a circuit to be protected is supplied with power, with a tripping device for triggering the interruption, to the power supply of which at least one current transformer ( 1 ), one around the ladder ( 2 ) main magnetic circuit ( 5 ) and at least one secondary winding ( 6 ) whose core is separated from a part of the main magnetic circuit ( 5 ) is formed, wherein parallel to the core of the secondary winding ( 6 ) a magnetic shunt branch ( 7 ), which has an additional magnetic resistance, characterized in that the additional magnetic resistance is designed so that it is at a lying above the rated current of the circuit breaker primary current, ie in particular in the event of a short circuit, by means of in the shunt branch ( 7 ) occurring magnetic forces automatically reduced, so that there is an effective reduction of the additional magnetic resistance in the shunt branch ( 7 ) comes. Circuit breaker according to Claim 1, characterized in that the additional magnetic resistance has an air gap ( 10 ) having Circuit breaker according to claim 1 or 2, characterized in that the branch with the secondary winding ( 6 ) experiences a magnetic saturation at a lying above the rated current given primary current. Circuit breaker according to Claim 2 or 3, characterized in that the air gap ( 10 ) undergoes an elastic reduction at a lying above the rated current primary current. Circuit breaker according to one of claims 2 to 4, characterized in that the air gap ( 10 ) of at least two spaced-apart and in the direction of the magnetic flux overlapping elements ( 8th ) of the shunt branch ( 7 ) is formed. Circuit breaker according to Claim 5, characterized in that the overlapping elements ( 8th ) are coated. Circuit breaker according to one of Claims 1 to 6, characterized in that the main magnetic circuit ( 5 ) is closed and that the elements ( 8th ) parallel to the shunt branch ( 7 ) and thus transversely to the main magnetic circuit ( 5 ). Circuit breaker according to Claim 5 or 6, characterized in that the elements ( 8th ) are formed as flat tongue-shaped webs, which are in opposite directions so parallel to the shunt branch ( 7 ) extend that their free ends overlap each other. Circuit breaker according to one of claims 1 to 8, characterized in that the main magnetic circuit ( 5 ) of superimposed soft / ferromagnetic sheets ( 4 ) is formed. Circuit breaker according to one of claims 1 to 8, characterized in that the main magnetic circuit ( 5 ) is formed as a ring band core made of silicon iron, crystalline, amorphous or nanocrystalline metallic alloys. Circuit breaker according to claim 9, characterized in that in each case between two sheets ( 4 ) are arranged with tongue-shaped web one or more sheets without web. Power converter ( 1 ) for a circuit breaker for interrupting a primary current flowing through a conductor, by means of which a circuit to be protected is supplied with power, a tripping device being provided for triggering the interruption, and the current transformer ( 1 ) supplies the tripping device with power, with one around the conductor ( 2 ) main magnetic circuit ( 5 ) and at least one secondary winding ( 6 ) whose core is formed by a part of the main magnetic circuit ( 5 ) is formed, wherein parallel to the core of the secondary winding ( 6 ) a magnetic shunt branch ( 7 ), which has an additional magnetic resistance, characterized in that the additional magnetic resistance is designed so that it is at a lying above the rated current of the circuit breaker primary current, ie in particular in the event of a short circuit, by means of in the shunt branch ( 7 ) occurring magnetic forces automatically reduced, so that there is an effective reduction of the additional magnetic resistance in the shunt branch ( 7 ) comes.