DE10109951A1 - Selective trip arrangement - Google Patents

Abstract

The invention relates to an arrangement for the selective triggering of series-connected, selectively staggered circuit breakers with an actuating mechanism containing a latching device, wherein a circuit breaker directly affected by the short circuit outputs a blocking signal to the actuating mechanism or the triggering system of the upstream circuit breaker. The problem to be solved consists in the fact that a blocking signal is generated in an independent and uncomplicated manner from processes in the contact space of the circuit breaker. For this purpose, an electromagnetic short-circuit release (10) is provided for each main current path Folding anchor (11) can be transferred from the open to the closed state.

Description

The invention relates to an arrangement for selective triggering from behind other, selectively staggered circuit breakers, especially from Lei circuit breakers and circuit breakers.

From the document DE 30 20 111 A1 is an arrangement of lying in series the selectively staggered current-limiting circuit breakers with one each Rapid release system known that in the event of a short circuit regardless of the Be actuation mechanism quickly and therefore current-limiting the contact system stem opens. Give the circuit breakers directly affected by the short circuit a blocking signal to the actuating mechanism of each in feed direction of the upstream circuit breaker. The circuit breakers own a captive system that moves the movable contacts according to a certain Holds the opening path briefly in the open position and releases it again when the actuating mechanism receives a blocking signal from a downstream one Circuit breaker has received. If the blocking signal fails, the Actuating mechanism and transfers the contact system into the endgül switch-off position, whereby the bondage is released at the same time. The duration of action of the restraint system is determined by a timer. The Document EP 0 406 130 B1 shows an electromagnetically acting clamp development system. Known arrangements for generating the blocking signal, e.g. B. according to document DE 195 45 928 A1, requires means for status detection and for current detection of the power directly affected by the short circuit switches, which are generally used as complex electronic triggers and space-taking air coils around the main current paths are realized. the like arrangements are therefore not for small and inexpensive circuit breakers suitable. EP 0 455 564 B1 discloses an overpressure release for a circuit breaker that detects an over in the contact space pressure, which arises due to the arcing of the electrodynamic  Contact opening due to a short circuit flowing across the switch contacts current arises. The circuit breaker also includes an actuation Mechanism with a latching device, which has a release shaft by a thermally delayed overload release or an electromag netic short-circuit release can be unlatched, which means that the triggering Operating mechanism of the circuit breaker transferred to the off state becomes. In order to ensure a selective triggering, the over acts pressure trigger the trigger shaft with regard to the effect on the actuation mechanism with a time delay. However, this solution is not for selective tripping at small short-circuit currents where no noticeable arcing due to electrodynamic contact opening occurs, suitable.

This results in the task of selective triggering with a reasonable opening wall and independent of operations in the contact room.

Starting from an arrangement of the type mentioned at the beginning gave according to the invention by the characterizing features of the independency gene claims solved, while the dependent claims advantageous Further developments of the invention can be found.

On the one hand, there is an electromagnetic short circuit for each main current path Trigger provided, the spring-loaded hinged anchor in the rest position a setting element for setting the tripping current is present and in Short-circuit case is attracted by a current-carrying magnetic yoke, and between the hinged armature and the magnetic yoke with signal connections sen trained to output the blocking signal connected contact element det that by the attracting hinged anchor from the open to the closed its condition is transferable.

On the other hand, there is an electromagnetic short circuit for every main current path Trigger provided, the spring-loaded hinged anchor in the rest position a setting element for setting the tripping current is present and in  Short-circuit case is attracted by a current-carrying magnetic yoke, outside the air gap area between the hinged anchor and the magnetic yoke spring-loaded auxiliary anchor arranged in the rest position between himself and leaves the magnetic yoke an air gap and in the event of a short circuit from the mag netjoch is tightened, and between the auxiliary anchor and the magnetic yoke one connected to signal connections for outputting the blocking signal Contact element formed by the attracting auxiliary anchor from ge opened in the closed state is convertible.

That per main circuit of the circuit breaker from the magnet armature of an electro magnetic short-circuit release actuated contact element a simple, no electronic arrangement to select ven trip, the output signal in the event of a short circuit as Blocking signal is passed to the upstream circuit breaker. The Signaling occurs through the interaction with the quick-release short closing trigger very quickly and is independent of a contact opening or arcing in the associated contact space. Training The contact element as a normally open contact has the advantages that the arrangement in the non-triggering state does not require electrical energy and so that the susceptibility to interference is kept to a minimum. The fiction The appropriate solution can be found in every circuit breaker with one or more Integrate short-circuit releases. A separate adjustment of the arrangement is not necessary, since each short-circuit release itself via the setting element adjustable and the function of the arrangement is coupled to it. With the inventive arrangement equipped for selective triggering Circuit breakers can easily be made into modules with multiple main combine current paths.

An advantageous development of the first solution is that the La Place the hinged armature on the magnetic yoke with a bearing clearance formation of a between the rest position and the tightened position of the hinged anchor variable air gap and in this area the contact element is provided. This ensures that in the event of a short circuit  the complete tightening of the hinged anchor to the magnetic yoke by over winding of the bearing play prematurely closed the contact element and thus a blocking signal is output. To improve this effect is a Magnetic decoupling between the hinged anchor and the magnetic yoke in the area the storage location is advantageous due to suitably arranged plastic parts.

An advantageous further development of the second solution is that in the Be the bearing point hinged anchor and magnetic yoke against each other by plastic are isolated. This magnetic decoupling ensures that in the event of a short circuit, before the hinged anchor is fully tightened on the Magnetic yoke by blocking the auxiliary armature will spend. The contact element can expediently with a spring struck bridge contact.

An advantageous further development is that ei nes common blocking signal belonging to the individual main current paths renden contact elements are inexpensively connected in parallel.

Further details and advantages of the invention result from the following the exemplary embodiments explained with reference to figures. Show it

Fig. 1 is a schematic representation of an embodiment of the first He invention solution in side view;

FIG. 2 shows a detailed illustration of a detail from the embodiment according to FIG. 1 in a side view; FIG.

Figure 3 is a schematic representation of an embodiment of the second invention solution in side view.

FIG. 4 shows a detailed illustration of the embodiment according to FIG. 3 in a side view;

Fig. 5 shows a detail from the embodiment of FIG. 3 in front view.

In the first embodiment of FIG. 1 and FIG. 2 of a circuit breaker is easily seen, an electromagnetic short-circuit release 10 per main current path. Whose hinged anchor 11 acted upon by a tension spring 3 is in ru helage - that is, when no short-circuit current flows through the main current path - on a shiftable element 4 responsible for all main current paths to adjust the tripping current. A magnetic yoke 12 is given by a current winding 5 .mu.m arranged in the associated main current path. The hinged armature 11 is attracted in a short-circuit against the force action of tension spring 3 from the reflowed from the short-circuit current magnetic yoke 12 and, overcoming the main air gap. 9 The tightened hinged armature 11 acts on a mechanical transmission element 6 which is responsible for all main current paths. The transmission element 6 shifted to the right in the event of a short circuit in accordance with FIG. 1 in turn acts on the latching device of an actuating mechanism of the circuit breaker, as a result of which the actuating mechanism is triggered and the main current paths are thus interrupted. The hinged armature 11 is mounted with its base 19 in a bearing 13 of the yoke 12 pivot. At opposite points of the base point 19 and the magnetic yoke 12 , a contact element 14 is formed. The contact element 14 is hen with a arranged on the magnetic yoke 12 fixed contact 15 and a point 19 at the base of the hinged anchor 11 movable contact 16 verses. The contacts 15 and 16 are connected to signal leads 7 and 8 leading to the outside for receiving a blocking signal. In the area of the bearing point 13 , the hinged armature 11 and the magnetic yoke 12 are covered with plastic parts 17 and 18 , respectively, in order to achieve magnetic decoupling in this area (for what purpose?). When a short-circuit current occurs through the associated main current path, the base point 19 of the hinged armature 11 is first attracted by the magnetic yoke 12 before the hinged armature 11 completely overcomes the main air gap 9 . Thus, a blocking signal is issued to the higher-order circuit breaker ahead of the triggering of the actuating mechanism. When using a multi-pole protection switch there are just as many short-circuit releases 10 , whose contact elements 14 are to be connected in parallel to output a common blocking signal.

The short-circuit trigger 20 of the second embodiment of FIG. 3 to FIG. 5 has also a a yoke 22 is mounted with its base 29 in a bearing 23 and is acted upon by a tension spring 3 hinged armature 21. The magnetic yoke 22 is here also by a current winding 5 um, and the hinged armature 22 interacts again with an adjusting element 4 and a transmission element 6 . The hinged anchor 21 is designed in the region of its base 29 as a plastic part 27 . Outside the area of the main air gap 9 between the hinged armature 21 and the magnetic yoke 22 and opposite to the bearing point 23 , an auxiliary armature 30 struck by a leaf spring 31 is arranged, which in the rest position leaves an air gap between itself and the magnetic yoke 22 and in the event of a short circuit from the magnetic net yoke 22 is attracted. Between the auxiliary armature 30 and the magnetic yoke 22 a verbun with signal connections 7 , 8 for outputting the blocking signal is formed contact element 24 , which can be transferred from the open to the closed state by the attracting auxiliary armature 30 . The con tact element 24 has fixed contacts 25 attached to the magnetic yoke 22 and attached to the auxiliary anchor 30 via a contact bridge 32 movable contacts 26 . The two magnetic systems, consisting of hinged armature 21 and magnetic yoke 22 on the one hand and auxiliary armature 30 and magnetic yoke 22 on the other hand, are dimensioned with respect to the masses of the hinged armature 21 and the auxiliary armature 30 and their air gaps in the rest position relative to the magnetic yoke 22 such that when a short-circuit current occurs through the main current path of the protective switch belonging to the magnetic release 20, the auxiliary armature 30 is attracted in advance of the hinged armature 21 .

Claims (7)

1. Arrangement for the selective triggering of series-connected, selectively staggered circuit breakers
with an actuating mechanism containing a latching device,
a circuit breaker directly affected by the short circuit outputs a blocking signal to the actuating mechanism or the triggering system of the upstream circuit breaker,
characterized in that
For each main current path, an electromagnetic short-circuit release ( 10 ) is provided, the spring-loaded hinged armature ( 11 ) of which is in the rest position against an adjusting element ( 4 ) for setting the tripping current and is attracted by a current-flowing magnetic yoke ( 12 ) in the event of a short circuit, and
between the hinged armature ( 11 ) and the magnetic yoke ( 12 ) a with signal connections ( 7 , 8 ) for outputting the blocking signal connected contact element ( 14 ) is formed, which can be performed by the attracting hinged armature ( 11 ) from the open to the closed state , 2. Arrangement according to claim 1, characterized in that the bearing point ( 13 ) of the hinged armature ( 11 ) on the magnetic yoke ( 12 ) with a La gerspiel to form an air gap between the rest position and the tightened position of the hinged armature ( 11 ) equipped and in the sem area the contact element ( 14 ) is provided. 3. Arrangement according to claim 2, characterized in that in the area of the bearing point ( 13 ) hinged armature ( 11 ) and magnetic yoke ( 12 ) are insulated from each other by plastic. 4. Arrangement for the selective triggering of series-connected, selectively staggered circuit breakers
with an actuating mechanism containing a latching device,
a circuit breaker directly affected by the short circuit outputs a blocking signal to the actuating mechanism or the triggering system of the upstream circuit breaker,
characterized in that
An electromagnetic short-circuit release ( 20 ) is provided for each main current path, the spring-loaded hinged armature ( 21 ) of which is in the rest position against an adjusting element ( 4 ) for setting the tripping current and is attracted by a current-flowing magnetic yoke ( 22 ) in the event of a short circuit.
A spring-loaded auxiliary anchor ( 30 ) is arranged outside the air gap area between the hinged armature ( 21 ) and the magnetic net yoke ( 22 ), which leaves an air gap between itself and the magnetic yoke ( 22 ) in the rest position and is attracted by the magnetic yoke ( 22 ) in the event of a short circuit.
and between the auxiliary armature ( 30 ) and the magnetic yoke ( 22 ) with signal connections ( 7 , 8 ) for outputting the blocking signal connected Nes contact element ( 24 ) is formed, which can be performed by the attracting auxiliary armature ( 30 ) from the open to the closed state is. 5. An arrangement according to claim 4, characterized in that the hinged armature (21) of the hinged armature (21) and the yoke (22) are insulated from each other by plastic in the region of the bearing point (23). 6. Arrangement according to claim 4 or 5, characterized in that the contact element ( 24 ) is equipped with a spring-loaded contact bridge ( 32 ). 7. Arrangement according to one of the preceding claims, characterized in that the different main current paths associated contact elements ( 14 ; 24 ) are connected in parallel.