DE1563831B2 - ELECTRIC CIRCUIT BREAKER WITH OVERCURRENT SHORT CIRCUIT AND FAULT CURRENT RELEASE - Google Patents

Description

The invention relates to an electrical circuit breaker with overcurrent, short-circuit and Residual current release with a trip indicator and a switch knob. Contactor switches that mentioned the three Fulfill protective functions are known. It is also known to have a switch with a display element to provide. This element indicates that the switch has tripped. But it does not reveal through which one the three triggers the shutdown was effected (German Auslegeschriften 1022 298 and 1084 821). ': /; ".

Since in the event of a fault triggering, switching on again without eliminating the fault for the person switching on can be life-threatening ", it is appropriate that Residual current tripping ■ additionally recognizable to do. According to the invention this is done in the aforementioned circuit breaker in that for the Residual current release an additional display device assigned to it is provided which has a Indicates fault current trip. This gives a warning against thoughtless restarting. Normally, the display can be switched on again by appropriate coupling of the display element and switching element are deleted again. The protective effect can, however, also be more simple Can be increased by a restart lockout. It is then necessary to switch the Circuit breaker only possible if the display has been deleted.

Exemplary embodiments of the invention are shown in the drawings. It shows

F i g. 1 a view of the circuit breaker with switching mechanism, contacts and switching linkage, ■ .. · ::. ; ■

F i g. 2 is a plan view. _; .

Fig. 3 is a rear view of the same switch Residual current release and mechanical residual current display device,

F i g. 4 shows a fault current display device with a glow lamp.

The structure of the switching mechanism of the circuit breaker according to the invention is shown in FIG. In a housing 1 are Licntbogerilöschvorrictitung 2, Fixed contact3, movable contact4, switching mechanism and toggle 6 housed. The switching mechanism 5 switched with the toggle 6 is actuated via a switching linkage 7 a movable contact 4. The switching toggle 6 is held on a in the housing Axis 8 supported.

3 shows the fault current tripping mechanism and the fault current display device. A summation current transformer 9 is connected with its secondary winding via the relay connection line 10 to a fault current release 11. An anchor 12 a of the trigger 11 is also the ratchet lever 12 b for the trigger mechanism. The ratchet lever 12 b is mounted on the axis 8, on which the switch toggle 6 is also seated. Also on this shaft 8 is a roller body 13, which bears a label on a surface 14. A shaft 15 of the switching mechanism 5 is also the fulcrum for a driver lever 17, while a release lever 18 is mounted on a shaft 16 of the switching mechanism 5.

If the switch is switched on, the release lever 18 rests with a stop 19 on a nose 20 of the ratchet lever 12 b . This is brought about by the spring force produced by a leg spring 21. An intermediate lever 23 is rotatably mounted on the release lever 18 at the pivot point 22. A bolt 24 of the switch toggle 6 is guided in an elongated hole in the intermediate lever 23.

The switch is drawn in both views in the off position. In this position the residual current release mechanism is also not operational. If the switch is turned on, the toggle 6 moves to the right (Fig. 3). At the same time, the bolt 24 is in the elongated hole the intermediate lever 23 guided to the left, so

ίο that the release lever 18 under the action of the leg spring 21 is supported with its stop 19 on the nose 20 of the ratchet lever 12 b . As soon as a fault current is detected in the summation current transformer, an electrical voltage occurs on the secondary winding, and the armature 12 α is attracted by the fault current release 11. The release lever 18 is unlocked and rotates counterclockwise around the pivot point 16 under the action of the spring 21.

ao hebeis 18 and the shaft 16 connected to it, the switch lock is unlocked. At the same time, however, the release lever 18 takes the driver lever 17 with it via its web 25. The driver lever 17 releases the roller body 13 resting against it with a surface 26, which also rotates counterclockwise around the axis 8 by a spring force (not shown) until the marking is visible on its surface 14 in the viewing window 29. The toggle 6 goes back to the "off" position drawn and, via the bolt 24, leads the intermediate lever 23 and the release lever 18 rotatably connected to it back into the "shown" position. 3: the switch toggle position shown corresponds to the switch-off position) turned to the right and takes the roller body 13 with it into the position shown guided in the elongated hole of the intermediate lever 23 to the left so that the stop 19 of the trigger lever latches 18 with the nose 20 of the pawl lever 12 b. the fault current tripping mechanism is again ready for operation.

A second possible embodiment of the circuit breaker according to the invention is shown in FIG. 4 shown. All statements not required for explanation

:. Positions have been omitted and are correspondingly from FIG. 3 to take over. The function of the residual current tripping mechanism is analogous to that on hand F i g. 3 described. Only the roller body 13 has been replaced by a movable contact 30. If the mechanism is triggered by a fault current, the driver lever 17 unlatches the movable one Contact 30, and this closes the circuit of a glow lamp 27 with a fixed contact 31. The Glow lamp 27 lights up and indicates tripping due to fault current. When switched on again, the movable contact 30 in the same way as the roller body 13 in the drawn latching position returned.

Through the guide slot in the intermediate lever 23, the switch can both by hand with the Knebei 6 as well as by overcurrent and short circuit, without the trigger mechanism of the Residual current release is switched. Due to the special design of the shaft 16 (possibly freewheel)

only the release movement is transmitted from the release lever 18 to the switching mechanism 5, but not from Derailleur on the release lever.

The in F i g. 3 circuit breaker version shown can easily be provided with a restart lock. The intermediate lever 23 not be coupled directly to the toggle 6, but with one also on the axis 8 seated second toggle. Tripping - caused by the residual current release - would have the effect that the toggle 6 is brought into the off position by the switching mechanism 5. The second toggle, on the other hand, remains in the on position and thus holds over the intermediate lever 23 and the release lever 18, the switching mechanism 5 is unlatched. Only by turning the locking knob is The release lever 18 is brought back via the intermediate lever 23, so that when the unit is switched on again the Switching mechanism and also the release lever 18 can latch.

Claims (5)

Patent claims: 1. Electrical circuit breaker with overcurrent, short-circuit and residual current release, with a Trip indicator and with a toggle, d a marked by,. that for the Residual current release (11) an additional display device assigned to it is provided which indicates a fault current trip. 2. Electrical circuit breaker according to claim 1, characterized in that the display member (13 or 27) of the display device is coupled to the switch knob (6) so that when switched on again the circuit breaker clears the fault current display. 3. Electrical circuit breaker according to claim 1, characterized in that the display device is coupled with a restart lockout. 4. Electrical circuit breaker according to claims 1 to 3, characterized in that the display member of the display device is designed as a rotatably mounted part (13), which at Residual current release is rotated under a viewing section (29). 5. Electrical circuit breaker according to claims 1 to 3, characterized in that the display element of the display device as a light source which lights up in the event of a fault current release (27) is formed. 1 sheet of drawings