DE102007004092A1 - Circuit breaker for use in cascaded switching arrangement, has register arranged such that register does not directly and indirectly affect switching element when branch is parallely connected to another switching element - Google Patents

Abstract

The breaker (18) has switching elements (24, 26) connected between an input terminal (20) and an output terminal (22). A branch including a resistor is connected parallel to the switching element (24), and the element (26) is not connected with the branch. The register is arranged such that the register does not directly and indirectly affect the switching element (26) when the branch is parallely connected to the switching element (24). A bimetal element (46) is connected between the input and output terminals for indirect opening of the element (26) over a latching mechanism.

Description

The The invention relates to a circuit breaker having an input and an output terminal between which a first and a second Switching element are connected, wherein to the first switching element one branch is connected in parallel with a resistor and the second one Switching element is connected without a parallel branch.

Such a circuit breaker is both from the DE 102 03 443 A1 , as well as from the DE 10 2004 019 175 A1 known.

One such circuit breaker is in a cascaded switching arrangement can be used in particular as an upstream circuit breaker.

1 shows such a cascaded switching arrangement, in whole with 10 is designated. A circuit breaker 12 is upstream. Behind the upstream circuit breaker 12 the circuit branches into three branches. Each branch has a downstream circuit breaker 14 and a consumer 16 ,

If a defect, in particular a short circuit, occurs in the area of one of the consumers 16 on, it does not make sense if immediately the upstream circuit breaker 12 opens. Rather, the assigned in the respective branch downstream circuit breaker 14 to open. Only in the case that it does not manage to open, should the upstream circuit breaker 12 to open.

In the circuit breaker of the type mentioned is provided that this opens at a short-circuit current, ie a current that exceeds a fairly high set threshold, the first switching element. The short-circuit current then flows through the parallel branch with the resistor. The resistor limits the short-circuit current in height. Either now the corresponding downstream circuit breaker switches, the short circuit is interrupted and the first switching element closes again, or the downstream circuit breaker does not switch, and it must permanently open the upstream circuit breaker. This means that then the second switching element is open. To open the second switching element, have the circuit breaker from the DE 102 03 443 A1 respectively. DE 10 2004 019 175 A1 in the branch connected in parallel to the first switching element a bimetallic element. This acts on a switch lock, and the switch lock causes the opening of the first switching element.

The Bimetallic element in the parallel branch to the first switching element occurs in addition to an already existing bimetallic element, which is connected between input and output terminals, and that with a permanent overcurrent on the switch lock acting and also causes the second switching element opens.

It It is an object of the invention to provide a circuit breaker of the beginning so-called type so that it is structurally simpler is designed.

The Task is by a circuit breaker with the features solved according to claim 1.

According to the invention in the branch connected in parallel with the first switching element only Arranged elements that are not directly or indirectly on the act second switching element. In other words, it does not apply that is, in the parallel branch, which is mandatory in the prior art Bimetallic element.

The Invention is based on the finding that the additional Bimetal element can be dispensed with the Lei circuit breaker constructively simpler and cheaper to design.

This means that in parallel to the first switching element Branch except the resistor no further elements arranged have to be.

It still makes sense to use a bimetallic element for indirectly opening the second switching element via a switching mechanism between the input and output terminals. This bimetallic element then no longer has the exclusive task of overcurrent tripping as before, but can at the same time protect the resistor in the parallel branch to the first switching element and thus assume the task of the further bimetallic element present in this parallel branch in the prior art. This double function of the bimetallic element, on the one hand in the short-circuit current limited by the resistor to trigger after a certain period of time and on the other trigger at permanent overcurrent, is possible because it is suitably tuned. Thus it can be provided that it triggers earlier than bimetallic elements which are used alone for overcurrent tripping, which is possible by adjusting the volume of the bimetallic element, its coefficient of expansion and other parameters. At the same time it can be provided that the overcurrent is higher. Under certain circumstances, an adaptation of the resistance in the parallel branch to the first switching element also belongs to the tuning of the bimetallic element. Compared to the prior art, this resistance can be significantly higher have a resistance value.

As also in the prior art, the first switching element via a coil can be opened with a plunger, directly by the plunger anchor (knocking away a movable contact element of an immovable contact element) or indirectly via a switch lock, which is unlatched by the plunger anchor.

following is a preferred embodiment of the invention below Referring to the drawing described in the

1 shows a cascade switching arrangement according to the prior art and

2 schematically illustrates the structure of a circuit breaker according to the invention.

A whole with 18 designated inventive circuit breaker has an input terminal 20 and an output terminal 22 on. Between input connection 20 and output connection 22 are a first switching element 24 and a second switching element 26 connected. The first switching element 24 comprises a movable contact element 28 , in the closed state of the switch, a stationary contact element 30 touched and to open the first switching element 24 is moved away from this. The second switching element 26 comprises a movable contact element 32 in the closed state of the switching element 26 a stationary contact element 34 touched and to open the second switching element 26 is moved away from this.

The opening of the first and second switching element 24 respectively. 26 takes place here via a switching mechanism 36 , see impact arrows 38 respectively. 40 ,

The switch lock 36 responds to activation by means of an input connection 20 and output connection 22 switched magnetic coil 42 with a plunger anchor 44 or by a bimetallic element 46 , The magnetic coil 42 serves the short-circuit release: In the event of a short circuit, the plunger armature moves 44 , the latch unlocks 36 , and according to the effect arrow 38 becomes the first switching element 24 open. The one from the input port 20 to the output terminal 22 flowing short-circuit current is via a parallel branch to the first switching element 24 passed, this parallel branch a resistance 48 includes. In the present case, the parallel branch does not comprise any further components. The resistance 48 be acts that the short-circuit current is limited in its height. This is when using the circuit breaker 18 out 2 as an upstream circuit breaker (after the type of circuit breaker 12 in 1 ) meaning that switching of downstream circuit breakers (on the type of circuit breaker 14 in 1 ) is prepared. If a downstream circuit breaker switches, the short-circuit current is interrupted, the coil 42 disabled, and the first switching element 24 flows again. Switches no downstream circuit breaker, suitable means must cause an opening of the entire circuit breaker, which in this case by opening the second switching element 26 through the switch lock 36 according to the effect arrow 40 has to happen. Trigger for this activity of the switch lock 36 is in this case the bimetallic element 46 :
While conventionally a bimetallic element at the location at which also the bimetallic element 46 is arranged, is designed only for triggering of switching elements in overcurrent, in the present case, the bimetallic element 46 in its parameters designed so that even after a certain period of flowing one through the resistance 48 limited in its height short-circuit current on the switch lock 36 acts. The bimetal element 46 thus assumes the role of elements which in the prior art in which the first switching element 24 arranged in parallel branch, so in this case in addition to the resistor 48 would join. As already mentioned, the parallel branch comprises that to the first switching element 24 but in this case except the resistor 48 no further elements, in particular not such elements, which are indirectly (ie, for example, via the switch lock 36 ) or directly on the second switching element 26 act.

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

• - DE 10203443 A1 [0002, 0006]
• - DE 102004019175 A1 [0002, 0006]

Claims (4)

Circuit breaker ( 18 ), with an input terminal ( 20 ) and an output terminal ( 22 ), between which a first switching element ( 24 ) and a second switching element ( 26 ), wherein to the first switching element ( 24 ) a branch with a resistance ( 48 ) is connected in parallel and the second switching element ( 26 ) is connected without a parallel branch, characterized in that in the to the first switching element ( 24 ) parallel branch only one element ( 48 ) or elements ( 48 ) are arranged, which do not act either directly or indirectly on the second switching element. Circuit breaker ( 18 ) according to claim 1, characterized in that in the to the first switching element ( 24 ) parallel branch only the resistor ( 48 ) is arranged. Circuit breaker ( 18 ) according to claim 1 or 2, characterized in that between the input terminal ( 20 ) and the output terminal ( 22 ) a bimetallic element ( 46 ) for indirectly opening the second switching element ( 26 ) via a switch lock ( 36 ) is switched. Circuit breaker ( 18 ) according to one of claims 1 to 3, characterized in that between input terminal ( 20 ) and output terminal ( 22 ) a magnetic coil ( 42 ) with a plunger anchor ( 44 ), which indirectly via a switching mechanism ( 36 ) or directly opening the first switching element ( 24 ) cause.