DE2731847A1 - Overload cut=out with protection against short circuits - has intermediate lever, supporting lever and contact finger forming unit - Google Patents

Abstract

Switch handle, magnetic trip and arc extinguishing chamber are directly one below the other, and the switch latch is between these components and the bimetal trip. Contact rods are operated through an intermediate lever and an interlocked connecting rod. The intermediate lever (6) has a point of support opposite its stationary pivot (7) are a protective lever (12), and the contact finger (14) is mounted between the two pivots (7, 11). The interlocked rod (15) grips the intermediate lever (6) at the level of the contact finger (14) pivot (22), and is supported by the supporting lever (12). The supporting lever (12) contact finger (14) and intermediate lever (6) are nearly parallel to each other and form a unit.

Description

Overload circuit breaker in narrow design The invention relates focus on overload circuit breaker in chmnlbauweise, in which overcurrent the contacts by automatic release of mechanical energy that opens by previous Operation of a manual reset mechanism has been saved. Such switches are used in electrical installation systems for overload and short-circuit protection, In the case of miniature circuit breakers, the switching contact will hold out quickly strives for low mass movement of the switch lock members. In addition, the key switch should Allow as little space as possible in favor of the arc chamber. That's the way it is belannt, the switch lever, the magnetic trigger and the arc chamber directly to be arranged one below the other and the space remaining on the side for the bimetal release, the contact device and the switch closed to use (DT-GM 7 500 060). To the It is also known to accelerate the switch-off movement, even before termination of the declining process to cause the contact finger3 to be thrown open, for this purpose either additional magnet systems are arranged (DT-GM 1 840 006) or electrodynamically effective contact arrangements are used (DT-AS 1 079 176).

The effort and space required for self-switches with two different Magnetic triggers for unlatching and actuation of the movable contact is, however undesirably high, especially for miniature circuit breakers in narrow design.

In order to utilize the electrodynamic forces, two are in opposite directions current-carrying, closely spaced contact paths of considerable length required, However, there is no space for the permanent contact with miniature circuit breakers a current loop available, through clever use of the existing components Solutions have already become known that improve the spatial conditions, however, additional elements are still required (DT-AS 2 115 030, DT-OS 2 135 557, DL-PS 113 275).

It is the aim of the invention to provide a key switch with a high opening speed using a simple switching mechanism using electrodynamic ones and electromagnetic effects to design additional components.

The invention is based on the object, the components of the switch lock to be arranged and designed in such a way that in the sense of a quick shutdown when it occurs from short circuit.

electrodynamic and electromagnetic forces flow.

The object is achieved according to the invention by an intermediate.

lever opposite its fixed bearing point a bearing point for one Has support lever and mounted between the two bearing points of the contact fingers is that the coupling level with the bearing point of the gontaktfingers on the intermediate lever force.

conclusively engages and is supported by the support lever and that the Intermediate lever, the contact finger and the support lever run almost parallel and Form a structural unit, a bearing bracket of the magnet release forms the yoke and the soft magnetic intermediate lever the left one of an additional magnet frame, in that the intermediate lever serves as the contact finger for all current-carrying conductors umeohliess.

He continues to practice. Contact through which the short-circuit current flows.

finger on the soft magnetic support lever electromagnetic forces in the declining sense.

In addition, the armature of the magnetic release hits the support lever and the intermediate lever the contact finger on. In addition, the bimetal release forms a tight current loop with the contact finger, which leads to the electrodynamic flinging of the contact finger leads in the event of a short circuit.

The invention is to be explained in more detail using an exemplary embodiment will. The accompanying drawing shows the overall view of an inventive Circuit breaker when the cover is open. In a housing 1 are among each other a switching lever 2, a magnetic trigger 3 and an arc chamber 4. The magnetic frame of the magnetic release 3 has a closed in the direction of switching extended bearing bracket 5 for an intermediate lever 6 with the bearing point 7, a Bimetal trigger 8, the gear lever. 2 and an abutment 9 for the reset or Contact pressure spring 10.

The intermediate lever 6 points at the opposite end from the bearing point 7 a cutter bearing 11 for a support lever 12.

The support lever supports itself against the pressure when it is switched off the return spring 13 of the magnetic release 3 on the intermediate lever 6, also exercises a Contact finger 14, which is mounted at point 22 in the intermediate lever 6, by means of the reset or contact ..

druokfeder 10 near the camp point 11! a. torque on the Support lever 12 in the direction of the armature, intermediate lever 6, support lever 12 and contact fingers 14 run almost parallel to one another, with the contact finger 14 in the area of the magnetic release 3 is encompassed by the U-shaped intermediate lever 6, Duroh a coupling 15 is the switching lever 2 with the intermediate lever 6 in operative connection. When pressing of the hold lever 2, the coupling 15, a wire bracket, is shifted and you are moved the intermediate lever 6 and thus brings the contact ..

finger to attach to the plague contact 16. When attaching to the fixed contact 16 becomes the rigid purity of intermediate lever 6, contact finger 14 and support lever 12 canceled, the contact finger 14 is released from the intermediate lever 6 and leads a Rolling-sliding movement at the contact point, The unlatching takes place by the bimetallic release 8 or the magnetic release 3, the support lever 12 is in the Knocked away clockwise, as a result of which the coupling 15 is released from the intermediate lever 6 can. The entire intermediate lever group is released and moves into the starting position, The resetting of the shift lever 2 and the re-latching of the coupling 15 is achieved by a torsion spring 17 mounted in the shift lever 2, the legs of which are once supported on the shift lever 2 itself and on the other hand on the coupling 15, wherein this leg at the same time the coupling 15 given a torque to a plant on the support lever 12 to ensure safe re-latching.

The intermediate lever 6 consists of soft magnetic material and encloses U-shaped the contact finger 14. It thus acts as an anchor and rotates in the event of a short circuit around its bearing point 7 in the direction of the magnet frame, the bearing bracket 5 being the yoke of the additional magnetic circuit. The soft magnetic support lever 12, Designed as an armature flap, it is controlled by the magnetic forces of the current flowing through it Switch contact influenced in the unlatching direction. Furthermore, the bimetal forms ~ release 8 with the strands 18 and 19 and the contact finger 14 a current loop, d. H. the electrodynamic forces occurring during a short circuit accelerate the Switching off movement of the contact finger 14. In addition, the armature 20 strikes the support lever 11 against the intermediate lever and thus against the contact finger 14 in the opening direction. The arcing at the contact point with its pressure wave is through causes a projection 21 to move effectively into the arc chamber, The laminated core is offset by half,

Claims (5)

Claims: Overload circuit breaker in narrow design with Short-circuit protection in which the toggle switch, the magnetic release and the arc chamber are directly below each other and the switching closed between these elements and the bimetallic release is arranged, the loading actuation of the contact finger takes place via an intermediate lever and a latched coupling, characterized in that that the intermediate lever (6) has a bearing point opposite its fixed bearing point (7) for a support lever (12) and between the two bearing points (7; 11) of the Contact finger (14), is mounted that the coupling (15) at the level of the bearing point (22) of the contact finger (14) on the intermediate lever (6) engages positively and from the Support lever (12) supported eats and the intermediate lever (6), the contact finger (14) and the support lever (12) run almost parallel and form a structural unit. 2, overload circuit breaker, characterized in that a bearing bracket (5) of the magnetic release (3) the yoke and the soft magnetic intermediate lever (6) forms the armature of an additional magnetic frame by using the intermediate lever (6) encloses the contact finger (14) serving as a conductor through which current flows. 3. Overload. Line breaker, characterized in that the from Short-circuit current flowing through the contact fingers (14) on the soft magnetic support lever (12) exercises electromagnetic harvesting in the unlatching sense. 4, overload circuit breaker, characterized in that the armature (20) of the magnetic release (3) via the support lever (12) and the intermediate lever (6) the contact finger (14) after unlatching takes place. 5. Overload circuit breaker, characterized in that the bimetal release (8) forms a tight current loop with the contact finger (14) leading to the electrodynamic Schleuedern the contact finger (14) leads in the event of a short circuit