DE1513341A1 - Circuit breaker with current-limiting contact system - Google Patents

Description

Automatic switch with current-limiting contact system The invention relates to an automatic switch with current-limiting contact system in which the switch contacts are opened by electrodynamic current forces and / or an electromagnetic release acting as a tension or impact armature. Simultaneously with the opening of the contacts, the switching mechanism must also be unlatched , which should be ready to be switched on again as soon as possible after the switch has been switched off . This is only possible if, when the contacts are opened, the switching mechanism is also brought into the switch-off position and the contact carrier is locked again with the switching mechanism in this position. In switching devices that work with a strike armature, it is known to also cancel the locking of the switch mechanism by the action of the strike armature. For this purpose , a release linkage is used which is under the action of a spring which ensures that the release linkage is also brought into the starting position after the impact armature has returned to its starting position. It is also known to return such a release linkage to the starting position by hand.

It has also already been proposed that, with the movement of the contact carrier or a lever carrying the contact carrier, trigger an energy storage device, in particular a spring force storage device, which acts on the triggering shaft and thus unlatches the switching mechanism. However, this is relatively unfavorable since the spring force store must first be provided as a separate component and, moreover, the release shaft can only be released again when the spring force store is returned to its starting position by a corresponding counterforce. This counterforce must also be applied by the switch.

The invention is based on the object of improving an automatic switch of the type described at the outset in this regard . According to the invention, this is achieved by the fact that the switching mechanism is unlatched by a support lever involved in the opening of the contact system , in that one or more other levers are articulated on this support lever that direct the opening movement of the contact system to the release shaft to unlatch the switching mechanism and transmit the trigger shaft when falling back of the contact carrier in the on-position infol "ge of the hinge connections inevitably release it again. at a rotatably mounted, with the contact carrier articulated support lever two levers can be pivoted, of which the rotatable sTORED a about a fixed point and cooperating via its free end with a release shaft on the outlet mounted trip lever. the lever is a two by a slot fastening comparable-bound parts are made, the tolerances is possible with the adjustment and compensation.

In folgeirden reference is made to the drawing, is shown in the in FIGS. 1, 2 and 3, an embodiment of the inventions dung in various switching positions. According to the drawing, 1 denotes a fixed contact which is connected to a connecting line 2. The movable contact 3 is attached to a contact carrier 4, which is connected to the switching shaft 6 and the levers 7 and 8 of the switching mechanism via the locking device 5. The movable contact carrier 4 is supported at the point 9 on a supporting lever 10 rotatable about a fixed point 11 bar ist.Zur actuation of the switch, the switching shaft 6 is rotated via an unillustrated drive member and in the on-position shown in Figure 1 by a Latching switch latch gehalten.Die unlatching of Schaltschlos- ses caused by the tripping shaft 12th Advises on the switching speed is also still a very fast acting of electromagnetic '@ uslöstr 13 is provided which acts on the ge Zugstan- 14 to the supporting lever 10 degrees. The. The pull rod 14 is articulated to the support lever 10 at point 15 . At point 15, an Iiebel 16 also engages, which is articulated to Iiebel 18 at point 17. The Iiebel 18 is rotatably mounted in a fixed point 19. The free end 20 of the lever 18 extends into the pivoting range egg nes with the trip bar 12 connected to the release lever 21st

In the contact system, the fixed contact 1 together with the movable contact 3 form an anti-parallel current loop. With a high short-circuit current a repelling WIR comes as a result of current forces elektrodynamsichen kung concluded between the two contacts. The contact carrier 4 with the movable contact 3 initially pivots around the upper contact point 22. This releases the locking of the contact carrier 4 with the switching mechanism in the locking device 5 and the support lever 10 is rotated clockwise around the fixed point 11. The rotation of the support lever 10 is still supported by the electromagnetic release 13 that responds at the same time or in the case of very high short-circuit currents a little later. About the two levers 16 and 18 which act as a double lever, the training will solve wave 12 is rotated counterclockwise, and this leads to in- unlatching the latching mechanism. By dividing the lever 16 into two parts, which are connected to one another by an elongated hole fastening 23, an adjustment and compensation of any structural tolerances is possible without difficulty. The actuation of the release shaft 12 takes place inevitably and without delay. In Fig. 2 , the switch is shown in the open position, as it is achieved by the electrodynamic current forces. Die'Schaltwelle 6 is still in the on position, because although the trip shaft is already pressed, it takes a certain time, is guided to the Schloßentklinkung transit _.

In the illustration according to FIG. 3, the switching shaft 6 has meanwhile also returned to the starting position and the contact carrier 4 is locked again via the locking device 5 with the switching mechanism. In this case also the support lever 10 has provided exit position back into its-and by the lever 18, the trip shaft is .freigegeben again, so that this is also decreased under the action of a return spring not shown in the starting position. The switching device is now ready to be switched on again.

The switch-off takes place in the same way if the short-circuit current is not so great that the opening takes place through the electodynamic forces alone. In certain areas of the short-circuit current , the main breaking work is performed by the electromagnetic release 13 and the inevitable movement of the support lever 10 causes the contact to be opened in the same way , since the support lever 10 is provided with a stop and the contact carrier 4 pivoted with the movable contact 3 in the same way as when electrodynamic current loop forces occur.

Claims (1)

Claims @ 1. Even switch with current-limiting contact system hei which the opening of the switch contacts through elec- trodynamische current forces and / or acting as a train or impact armature elektomagnetischen training occurs solver, characterized in that the unlatching of the switching mechanism by an involved in the opening of the contact system supporting lever ( 10) inevitably takes place in that one or more further levers (16, 18) are articulated on this support lever (10) , which transfer the opening movement of the contact system to the release shaft (12) for unlatching the switching mechanism and when the contact carrier (4 ) in the on position as a result of the articulated connections, the release shaft (12) is inevitably released again. 2, circuit breaker according to claim 1, characterized in that two further levers (16, 18) are articulated on a rotatably mounted carrying lever (10) articulated to the contact carrier (4), one of which Lever (18) is rotatably mounted about a fixed point (19) and interacts via its free end (20) with a release lever (21) attached to the release shaft (12). 3. Automatic switch according to claim 1 and 2, characterized in that the one lever (16) consists of two parts connected by an elongated hole fastening (23) .