DE3031482A1 - SWITCHING MECHANISM FOR CIRCUIT BREAKER - Google Patents

Abstract

1. Operating mechanism for a circuit breaker, in which a control handle acts on a sprung contact lever (1; 20) by means of a ratchet lever (4; 23) and with the help of a bar (8) pivoted thereto forms a latch with the ratchet lever, characterised in that the ratchet lever (4; 23) and the contact lever (1; 20) are pivotable as a pre-assembled unit about a common axis (5; 24) fixed to the housing and the ratchet lever (4; 23) acts in the contact closing direction on the contact lever (1; 20) by means of a leg spring (6; 25), and a separately supported release lever (11) is provided for unlatching.

Description

FH 80/11 -3 " - if -

"Switching mechanism for circuit breakers"

The invention relates to a switching mechanism for circuit breakers, in which an operating toggle acts on a spring-loaded contact lever via a ratchet lever and forms a VerklinkungsstelIe with the help of a bracket hinged to it with the ratchet lever.

The switching mechanism mentioned at the beginning is described in DE-OS 2,651,158. This only proportionally Mechanism that has few components is disadvantageous because the opening movement of the contact lever is caused by a forced guidance of the switch arm pawl system hinders will.

The invention is based on the object of improving the switching mechanism mentioned above so that it can be operated with the least Components required the lowest possible unlatching forces and short switch-off times achieved. He should also be easy to assemble and take up little space. According to the invention this is achieved in that the ratchet lever and the contact lever as a preassembled unit are pivotable about a common axis fixed to the housing and the ratchet lever via a leg of a shaft looping around the axis opening leg spring supported with the other leg on the housing when switched on in Contact closing direction acts on the contact lever.

The invention is particularly advantageous because the fixed bearing point of the mechanism allows it to be mounted outside the device and allows installation in the clamped state. Contact pressure and opening force are controlled by a single Spring generated. Further refinements of the invention are the subject of the subclaims.

FH 80/11 ^η -X-

The invention will be explained in more detail using an exemplary embodiment with the aid of the drawing.

Fig. 1 shows the switching mechanism in the switched-on position, while in

Fig. 2 shows the switch-off position. In Fig. 3, the so-called. Switching on is shown.

The switching mechanism consists of a double-armed contact lever 1, which forms a contact piece 2 at one end of the lever arm, which interacts with a stationary contact 3. The contact lever is mounted on a shaft 5 fixed to the housing, together with a double-armed ratchet lever 4. One at the same time Leg spring 6 serving as a switch-off and contact pressure spring wraps around the axis 5 and engages with one leg 6a between the ratchet lever 4 and the contact side'in Lever arm of the contact lever 1, while the other leg 6b is supported on a housing stop 7. The ratchet lever 4 acts with a shoulder 4a on the leg spring 6 and engages with this shoulder on an angled portion 1a of the contact lever 1 at. The contact lever has a U-shaped cross-sectional profile at its contact-side end, so that the leg 6a the leg spring 6 and also the contact-side lever arm of the ratchet lever is located between the side cheeks of the contact lever. The contact lever 1 forms a unit together with the ratchet lever 4, the leg spring 6 and the axle 5, which can be pre-assembled and thus completely inserted into the switch housing. At the verklinkungssoitigen end A steel ball 4b is attached to the ratchet lever, preferably welded, which together with a bend 8a of a bracket 8 forms the notch. The bracket 8 is hinged to an operating toggle 9 and is also still under the action of a pivotable about an axis 10 fixed to the housing Release lever 11. The release lever acts with a lever arm 11a

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FH 80/11 -JS-

with the bracket 8 together. A plunger 12 of a magnetic trip coil, which is only indicated, engages on the other lever arm 11b 13 at. Coupling means 14 for unlatching adjacent mechanisms are also provided on this leg 11b. The leg of the contact lever 1 remote from the contact can also influence the release lever 11 on its leg 11a.

In the switched-on position according to FIG. 1, the steel ball is 4b of the ratchet lever latched to the bend 8a of the bracket 8. The approach 4a of the ratchet lever presses on the leg 6a of the leg spring, which in turn rests against the back of the web 1b of the contact lever and this in the Contact closed position holds. The contact pressure for the closed position is thus created by the leg 6a of the leg spring generated. In the event of an electromagnetic short-circuit release, the plunger 12 of the release coil 13 strikes the Leg 11 b of the release lever and rotates it counterclockwise so that the leg 11 a of the bracket 8 of the Steel ball 4b of the ratchet lever pushes away, causing the latch will be annulled. The leg 6a of the leg spring now also rotates the ratchet lever via the projection 4a Counterclockwise until it strikes against the bend 1a of the contact lever 1 and takes it with it. The contact point 2, 3 is thus opened. At the same time, the release lever strikes the contact lever and with a shoulder 11c accelerates the contact opening by this impact effect. The control knob goes through a not shown Spring also into the switch-off position shown in FIG. 2.

The mechanism is switched on again as follows (Fig. 3), that the hand control toggle 9 is pivoted counterclockwise, whereby the bracket 8 meanwhile with his

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FH 80/11 fc -Si-

Angled portion 8a again rests against the steel ball 4b, taking the ratchet lever 4 with it, which in turn with the projection 4a presses on the leg 6a of the leg spring. By placing this leg 6a on the back of the web 1b of the contact lever profile the contact lever is taken along and moved into the closed position. When swiveling the hand control knob In the position shown in Fig. 1, the leg spring 6 is further biased. The approach 4a of the The ratchet lever lifts from the bend 1a of the contact lever, so that the distance reached in the switched-on position is available as a burn-off reserve between the approach and the bend.

6 pages description

4 claims

1 sheet of drawing with 3 fig.

Claims (1)

Licentia Patent-Verwaltungs-G.m.b.H. 6 Frankfurt / Main, Theodor-Stern-Kai 1 FH 80/11 kn-ni August 19, 1980 Patent claims: Θ Switching mechanism for miniature circuit breakers, for the an operating toggle acts on a spring-loaded contact lever via a ratchet lever and with the help of a his hinged bracket forms a VerklinkungsstelIe with the ratchet lever, characterized in that the Ratchet lever (4) and the contact lever (1) as a preassembled unit around a common axis fixed to the housing (5) are pivotable and the ratchet lever over a leg (6a) of one of the axis wrapped around with the other Leg (6b) on the housing supporting opening leg spring (6) in the on position in the contact closing direction acts on the contact lever. Switching mechanism according to claim 1, characterized in that one leg (6a) of the leg spring (6) between the end of one lever arm of the double-armed ratchet lever (4) and the back of the contact lever (1) and this end with a shoulder (4a) of the likewise doppelarmiyen contact lever in Ausdltrichtung cooperates. FH 80/11 - Z - Switching mechanism according to Claims 1 and 2, characterized in that between the contact lever / ratchet lever unit (1, 4, 5, 6) and an electromagnetic trigger (13) a double-armed release lever (11) pivotable about an axis (10) fixed to the housing is provided is, whose one lever arm (11b) can be influenced by an armature (12) of the triggering element and as a striking element serves for the contact lever, while the other lever arm (11a) unlatches the bracket (8) from the ratchet lever (4) and in turn can be influenced by the non-contact lever arm of the contact lever. Switching mechanism according to Claims 1 to 3, characterized in that the release lever (11) has coupling means (14) for unlatching neighboring mechanisms.