EP0951045A2 - Ground fault circuit braker - Google Patents

Abstract

The switch includes an electromagnetic error current release (25) which comprises a pestle (26), whose movement is transferred to a locking point (16, 18) of a switching lock, suitable for a conductor protection switch. A further locking point (30, 36) is arranged between the pestle and the first locking point, through which a spring-loaded trigger element (28) is activated to release the first locking point. The switch includes an electromagnetic error current release (25) which comprises a pestle (26), whose movement is transferred to a locking point (16, 18) of a switching lock, suitable for a conductor protection switch. A further locking point (30, 36) is arranged between the pestle and the first locking point, through which a spring-loaded trigger element (28) is activated to release the first locking point, so that the switching lock suitable for a conductor protection switch can be used in the error current protection switch. The release and an auxiliary control mechanism with the further locking point are fastened to a common carrier (27).

Description

The invention relates to a residual current circuit breaker according to the preamble of the claim 1.

The abbreviation "FI" means fault current.

Overcurrents and short-circuit currents are detected with a circuit breaker and lead to a shutdown, a so-called overcurrent, i.e. H. a stream that one determine percentage above the rated current, through a bimetal, and a Short-circuit current can be detected by an electromagnetic release; the movement Both triggers unlatch a latch lock point in a switch lock of the circuit breaker and thus a permanent switch-off the contact point. The release forces that are equal to or greater than 1 N, both of the electromagnetic as well as the thermal release are sufficient to unlatch the latching point in the switch lock of the circuit breaker, since they are caused by the mains electricity and are generated with mains electricity energy.

A residual current circuit breaker monitors residual currents in the milliampere range lie. This is done using a summation current transformer, which is supplied by the network conductors is interposed as the primary winding, in the event of a residual current in a secondary winding Generates secondary current, which drives a residual current release, the triggering forces are very low. These low trigger forces are not enough to get one for one Unlock the circuit breaker suitable and designed switch lock. Therefore, a switch lock commonly used in circuit breakers not be used with a residual current circuit breaker.

A residual current circuit breaker has become known (EP 0 495 771 B1), in which the line fault current is detected as a function of voltage, with a in the secondary circuit Relay is located, which closes a switch in a trip circuit in which there is a shunt release located. The trip circuit is with one leg on a phase conductor and connected with the other leg to the neutral conductor, so that the shunt release triggers depending on the mains voltage. In this case, a shunt trip a circuit breaker are used, so that here the switch lock a circuit breaker can be used.

You need a mains-independent FI circuit breaker where the The detection of the fault current and the triggering are independent of the mains voltage should, a sensitive specially adapted to the RCCB or its trigger Switch lock.

A residual current circuit breaker of the type mentioned is known from DE 37 33 595 A1 become. This residual current circuit breaker has a switch lock with a first one Interlocking point, which is referred to as the main switchgear. This main switch lock with the first latching point is an auxiliary switch with a second latching point assigned, which is actuated by a residual current release.

The individual components of both the main switchgear and the auxiliary switchgear are installed independently of each other in the housing of the circuit breaker, which means an increased assembly effort.

The object of the invention is to provide a residual current circuit breaker in which Switch lock also uses a switch lock designed for miniature circuit breakers can be, but in which the assembly is considerably simplified.

This object is achieved according to the invention by the features of claim 1.

According to the invention, both the trigger and the auxiliary switching mechanism are on a common one Carrier attached or attached.

This is a trip module with a standard residual current release created with which the switch lock of a circuit breaker unlatches can be. In contrast to the arrangement according to DE 37 33 595 A1, this can Tripping module according to the invention manufactured as a prefabricated component and in one Residual current circuit breakers are used.

The latching point, which is assigned to the residual current release, acts like an amplifier. It is released with the low tripping force of the residual current release, whereby an energy storage device is released, its energy on the trigger element is transmitted, which is then designed for a circuit breaker latch latch opens. So there are two latching points, from some by the weak release force and the other by a strong one Release force is released.

To form the carrier, a plate is provided, on which is formed perpendicular to it Arms are attached to which the trip relay can be fixed.

A flat retaining wall, which is approximately a rectangular, is also formed on the plate Has shape and runs parallel to the plate; there are two L-shaped ones on the retaining wall Holding arms attached to which a circuit board running parallel to the holding wall is fixed is, in the space between the circuit board and the retaining wall, the auxiliary switch is arranged.

It can be between the retaining wall and the board, on this and perpendicular to both a rotatable first release lever can be provided on which the plunger of the trigger acts and pivots it against the force of a spring. With the first Release lever, the spring-loaded release element is latched, such that by Swiveling the first release lever the spring-loaded release element for unlatching the latch lock point can be released.

If the circuit breaker has a switch release lever that works with a latch lever forms the switching latch latching point, then the trigger element acts on the key switch release lever. The movement of the ram can of the residual current circuit breaker perpendicular to the path of movement of the tripping element run.

Further advantageous refinements and improvements of the invention are the see further subclaims.

Using the drawings, in which an embodiment of the invention is shown is, the invention, further refinements and improvements and others Advantages are explained and described in more detail.

Fig. 1 und 2

unterschiedliche Ansichten der erfindungsgemäßen Auslöseeinheit der FI-Schalteranordnung,

Fig. 3 und 4

die Anordnung gemaß Fig. 1 und 2 in Auslösestellung,

Fig. 5 und 6

die Anordnung der Fig. 1 und 2 in Rückstellung,

Fig. 7

eine Aufsicht in Pfeilrichtung VII-VII der Fig. 6,

Fig. 8 und 9

zwei unterschiedliche Ansichten des Trägers, und

Fig. 10 und 11

die Prüfanordnung für den Schalter gemäß den Fig. 1 bis 6.

Show it:

1 and 2

different views of the trip unit of the RCD switch arrangement according to the invention,

3 and 4

1 and 2 in the release position,

5 and 6

the arrangement of FIGS. 1 and 2 in provision,

Fig. 7

a view in the direction of arrow VII-VII of Fig. 6,

8 and 9

two different views of the wearer, and

10 and 11

the test arrangement for the switch according to FIGS. 1 to 6.

Reference is now made to FIGS. 1 and 2.

These show that cooperating with a switch 10 of a circuit breaker Trip unit according to the invention in the on position. The key switch 10 is e.g. B. is shown in DE 196 53 266 A1. One belongs to this switch lock 10 pivotable contact lever 11, at its free end a movable contact piece 12 is attached, which cooperates with a fixed contact piece 13.

The contact lever 11 is mounted in a contact shaft 14, on the eccentrically a transmission bracket 15 is hinged, the other end is against a stop surface 16 on a push button-like actuating element 17 and on a stop surface 18 a ratchet lever 19 is present. This pawl lever 19 is on an axis of rotation 20 Actuator 17 pivotally mounted; the free end has a nose 21 which is supported behind a stop 22 on a ratchet lever 23; the two components 21 and 22 form the latching point of the key switch 10.

A trigger unit 24 is assigned to this switch lock, which has a trigger 25 which is a permanent magnet release, from whose housing a plunger 26 protrudes, which (as shown below) in the event of tripping in the direction of arrow P slides out or is pushed out of the housing of the trigger 25.

The trigger unit 24 has a carrier element or carrier 27 which is shown in FIGS. 8 and 9 is shown in more detail. The carrier 27 has a rectangular, flat plate 40, on the Narrow side edges 41, 42 L-shaped arms 43 and 44 are formed, the free Give perpendicular to the plane of the plate 40 and in the ears 45 and 46 of the Trigger 25 can be inserted, so that on the plate 40 with the perpendicular to it Legs of arms 43 and 44 of trigger 25 is fixed.

A holding wall 48 is formed on the plate 40 on one longitudinal side edge 47 thereof, on which two holding arms 49 and 50 are formed perpendicularly, the holding arm 49 runs parallel to the leg 44a of the arm 44 approximately in alignment with this. The support arm 50 is aligned perpendicular to the holding wall 48 and to the support arm 49 and on the support arms 49 and 50 a board 51 is fixed, which is perpendicular to each other extending edges has tabs 52 and 53 which contain eyelets 54 and 55, into which the support arms 49 and 50 are inserted and therein in a manner known per se be jammed, so that this is between the holding wall 48 and the circuit board 51 results in a receiving space 56 for an auxiliary switching mechanism. In the holding wall 48 and the Circuit board 51, guide slots 57 and 58 are introduced, the guide slot 57 opens into the edge of the carrier wall 48 opposite the tab 52, whereas the guide slot 58 approximately midway between the guide slot 57 and the tab 52 having edge runs.

FIG. 7 shows a top view in the direction of arrow VII of FIG. 8 with the trigger 25 and ears 45, 46.

In the receiving space 56 and in the slots 57 and 58, a sliding carriage 28 is guided to reciprocate in the double arrow direction P ₁ as a triggering element. This sliding carriage 28 is under the pressure of a spring 29 which wants to move it to the left (in the embodiment and representation according to FIG. 2). There is a stop 30 on the sliding carriage 28. Between the holding wall 48 and the circuit board 51 and on pins 59 and 60 serving as axes, a transmission lever 31 is rotatably mounted about an axis 32 (see FIG. 2), this being by means of a spring 33 Transmission lever 31 is continuously applied clockwise around the axis 32. The transmission lever 31 is a double arm lever, one arm 34 of which is connected to the spring 33, while the other arm 35 covers the plunger 26. With a nose 36, the transmission lever 31 bears against the stop 30, so that here a stop and a latching point is formed for the sliding carriage 28.

In the event of tripping, that is to say in the event of a fault current, the plunger 26 moves upward in the direction of arrow P, pivots the transmission lever counterclockwise, so that the stop 30 on the slide 28 is released from the nose 36 and due to the spring 29 is moved to the left.

As a result, the slide 28 comes against an arm 37 of the pawl lever 23 and pivots the pawl lever 23 counterclockwise, so that the trigger lever 19 also pivoted clockwise and releases the bracket 15. 4 shows the extended plunger 26 and the transmission lever 31 in the pivoted Shape; the carriage 28 has moved to the left and has the ratchet lever 23 panned. At the same time, the push button 17 slides due to an inside of the Pushbutton arranged spring (not shown) in the direction of arrow P, causing the bracket 15 the shaft 14 pivots so that the contact lever 11 with the movable Contact piece 12 can remove itself from the fixed contact piece 13 and again against the stop surface 16 and against the surface 18, causing a latch again of the bracket 15 is effected. When the switching mechanism 10 is opened, the sliding carriage 28 moved to the right via a bracket which is mounted in the shaft 14; also the ram via the transmission lever 31 and another spring 38 26 swiveled back into its ready-to-release position (trigger is reset) and in addition, the slide 28 is locked again in which the stop 30th snaps behind the nose 36 of the transmission lever.

With this configuration, the relatively small release rate of the release 25 over the first latching point 30, 36 translated to the second latching point 21, 22, whereby a force boost is generated in order to be able to open the switching lock 10.

According to the invention, the carrier 27 therefore has two functions; on the one hand, it serves Holding the trigger 25 and on the other hand for guiding and holding the auxiliary switching mechanism, in which the trigger is attached to the plate 40 and the auxiliary switch in Intermediate space 56 is arranged between the holding wall 48 and the circuit board 51. In order to becomes, as can be seen from FIGS. 2, 4, 6 in connection with FIGS. 8 and 9, a modular Tripping unit created that the magnetic trigger 25 and the associated Auxiliary switch contains; this trip unit can be prefabricated and from the manufacturing site to a final assembly point for the finished residual current circuit breaker as a unit be transported.

An L-shaped lever 80 is formed on the carrier 27; by means of this lever 80 the Carrier 27 with auxiliary switch and trigger 25 on the main circuit breaker of the circuit breaker be connected.

The arrangement according to FIGS. 1 to 6 is one shown in FIGS. 7 and 8 Associated with the test arrangement, which has a test button 70, which has an extension 71 presses on a spring so that a test resistor 72, which is in a test circuit 73rd lies, can be switched on, whereby a fault current is simulated, the trigger 25 triggers. Such a test arrangement is known as such.

Claims (8)

Residual current circuit breaker, with an electromagnetic release (release relay), which has a plunger, the movement of which is transmitted to the switch latching point of a main circuit breaker suitable for a circuit breaker, an auxiliary switching mechanism with a further latching point being arranged between the plunger and the switching latch latching point, through which a spring-loaded trigger element It can be actuated that the latch lock latching point is unlatched, characterized in that a carrier (27) is provided, to which both the trigger (25) and the auxiliary switching mechanism are attached or attached, as a result of which a modular, prefabricatable release unit is formed. Circuit breaker according to claim 1, characterized in that the carrier (27) has a plate (40) with arms (43, 44) integrally formed thereon, on which the trigger (25) is fixed. Circuit breaker according to claim 1 or 2, characterized in that at the Plate (40) is formed on a flat retaining wall (48), which is approximately a rectangular shape has and carries two holding arms (49, 50) on which a circuit board (51) is fixed, the runs parallel to the holding wall (48), so that a receiving space between the two (56) is provided for the auxiliary switching mechanism. Circuit breaker according to one of the preceding claims, characterized in that that between the retaining wall (48) and the circuit board (51) and on this one vertically to both rotatably mounted first release lever (31) is provided, on which the plunger (26) acts on the trigger (25) and pivots it against the force of a spring, that between the retaining wall (48) and the circuit board (51) the release pin (28) is displaceably guided perpendicular to the direction of movement of the plunger (26), that by pivoting the first release lever (31) the spring-loaded release element (28) can be released for unlatching the switching lock latching point. Circuit breaker according to claim 4, characterized in that the compression spring (29), which acts on the spring-loaded trigger element (28) between the Tripping element and the arm (49) is arranged, which is opposite to the direction of displacement of the trigger element (28) is integrally formed on the holding wall (48). Circuit breaker according to claim 5, characterized in that in the receiving space (56) a further spring (38) is provided which actuates the first release lever (31) and thus also pushes the plunger (26) of the release (25) back into the release-ready position. Circuit breaker according to one of the preceding claims, characterized in that that the trigger element acts on the switch release lever. Switch according to one of the preceding claims, characterized in that the movement path of the ram of the FI release is perpendicular to the movement path the trigger pin runs.

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