DE753557C - Electrical switch that is designed as a contactor and as an automatic switch - Google Patents

Description

ISSUED
May 26, 1953

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21C GROUP

K ιό 1445 VIIIb [21 c

Karl Kesl, Liege. (Belgium)

has been named as the inventor

(Ges. V. 7.51 / 15) Grant of patent announced on August 3, 1944

The invention relates to an electrical switch that acts as a contactor and as an automatic switch designed and with a lock released in the event of a short circuit or overcurrent by the release between the rotary lever connected to the armature and the rotary lever with this articulated! Contact lever, de * in the operational! Stripping and stripping - lines swings around a pivot, is provided. With the known switches this Type is the releasable lock between the lever (gear lever) controlled by the solenoid / and the contact lever coupled with this is mounted on the switching lever itself and is therefore used during operational and switches off. For switches with a high switching frequency, in particular Protect, thereby the locking device, which acts as a latch, toggle lock. like can be formed, although it is not opened in these circuits per se, as a result their inevitable lost motion worn out relatively quickly.

According to the invention, this deficiency is avoided in that the movable switching contact at one end of the arm one on

free end of a one-armed rotary lever (switching lever) controlled by the holding magnet swingable double lever (contact lever) is arranged, the other end of the arm carries the pivot for the operational switching on and off movement, which normally by means of one under the influence of the overcurrent or short-circuit release standing locking device against spring force ίο in one with the bearing pin of the shift lever equiaxed position is locked. With this arrangement, the locking device can be stationary be stored and moves as a result during the operational switching on and off of the switch, which significantly increases the service life of the switch will.

Figs. 1 to 4 show an embodiment of this arrangement again, namely demonstrate

Fig. Ι and 2 a diagram of the contactor in the on and off position,

Fig. 3 shows a practical embodiment of the contactor in side elevation and Fig. 4 in elevation.

In the shift levers 3, 3 ', which are connected by a bracket Oo, to which the armature of the switching magnet is attached, the pivot pins 1, i' are located, which are mounted in stationary bearings and around which the shift levers 3, 3 'at the operational switch-on and switch-off movements. The switching levers 3, 3 'also each carry a pin 4, 4', around which an insulating pole coupling 61 carrying the movable contacts 9 is rotatably mounted. With this the two-armed contact lever 5 is firmly connected. The movable contacts 9 work together with the fixed contacts 12, which are connected to the terminals 13 via an extinguishing coil 19 '. The end of the contact lever 5 carries a pin 6 (Fig. 2) which is coaxial with the pin 1, 1 'during operational switching. The pin 6 engages in the link 50 of the lever iö rotatable about the pin 20, which in turn is supported against an axis of semicircular cross-section 51. A strong tension spring 8 also acts on the pin 6. The axis 51 is controlled by means of suitable cam levers 53 through the bimetals 55 or through the overcurrent electromagnet 19 with the core 17 and the armature 54. The bimetals, in turn, are conductively connected to the terminals 14. . During operational switching, in which the armature of the switching magnet is pulled in the direction of arrow P , the two-armed contact lever 5 and thereby also the movable contacts relative to the switching levers 3.3 'are locked in such a way that the contact lever 5 moves as if it were would be rigidly connected to the shift levers 3, 3 ', since it is mounted coaxially with the pin 1 by the pin 6.
However, as soon as the lever 16 is released by rotating the axis 52 with the cutout 51 in the bearings 59, 59 'in the direction of the arrow S ₃ (Fig. 1), it will! taken in the direction of the arrow JT ₁ (Fig. 2), whereby the lever 5 is rotated at the same time as shown in Fig. 2. As a result, the movable contacts 9 are quickly separated from the fixed contacts 12, even if the switching levers 3, 3 'are still held in the switched-on position by the switching magnet. The switching off of the movable contacts of the contactor takes place very quickly without it being necessary to give the relatively heavy armature of the contactor a movement.

In order to bring the insulating pole coupling 61 together with the contact lever 5 back into the locked position after tripping, a cam-shaped disk 49 is provided which at the same time prevents the electromagnetic reconnection of the contactor contacts as long as the hand lever 65 actuating the cam disk 49 and thus the disk itself are not in their rest position has decreased. The cam-shaped disk 49 is rotated about the pin 57 by the hand lever 65 in the direction of the arrow S ₄ , a square 66 engaging between the extensions 58 of the disk 49. The square 66 can be designed in the form of a special tool, which alone allows the relocation to be carried out. The edge of the cam-shaped disc 49 lifts the pin 62 fastened in the contact lever 5 and returns it to its original position shown in FIG. 1, further rotation beyond the end position being prevented by the extension 56 ″. The lever 16 jumps behind the edge of the cutout 51 of the axle 52, whereby the Wiedereinrückung is completed. sawn before, however, the armature of the switching electromagnet is energized, it is not possible to perform the Wiedereinrückung, since the pin 4 to rotate the disc 49 in the direction of arrow S ± prevented. Likewise the armature can not be attracted to the electromagnet before the disc has not returned to its original, in Fig. 3 line position 49, since the periphery of the disc 49, a movement of the pin 4 is not permitted in the closing direction.

In Figs. 3 and 4 the practical implementation, that in Figs. 1 and 2 is only schematic is reproduced, drawn. The cam-shaped disk 49 is supported by the bearing 63 worn on the base 2 of the switchgear

is attached. The release lever 16 is rotatably mounted on the bracket, which is also the axis with the cutout 51 and the stops on which the latter carries the heating elements works. From the elevation of the contactor shown in Fig. 4 is the structural design the switching lever 3, 3 ', which have the same shape as the contact lever 5, can be seen, which the latter with the insulating coupling 61 forms the two-armed lever that around the pin 4, 4 'is rotatable.

Claims (4)

PATENT CLAIMS: i. Electrical switch that acts as a contactor and is designed as an automatic switch, characterized in that the movable Switching contact (9) on one arm end of a one-armed one at the free end of a one-armed device controlled by the switching magnet Rotary lever (3) swingable double lever (5) is arranged, the other end of the arm carries the pivot (6) for the operational inward and outward movement, which is normally under the influence of the triggers (54, 55) by means of one Locking device · (51, 16) against spring force (8) locked in a position coaxial with the bearing pin (1) of the rotary lever (3) is. 2. Electrical switch according to claim 1, characterized in that the bearing pin (6) such in a backdrop (50) one of which is under the influence of the trigger (54, 55) standing release shaft (51) locked ratchet lever (8, 16) out is that when the ratchet lever (8, 16) is locked, the pin (6) is coaxial with the bearing pin (1) lies. 3. Electrical switch according to the claims 1 and 2, characterized in that the rotary lever (3) and the double lever (5) are formed uniformly. 4. Electrical switch according to claims ι to 3, characterized by a hand-operated rotatable cam disc (49) with one acting on the double lever (5), this and the locking device (16) pushing into the starting and blocking position after they have been triggered Cam track (56) that is in the rest position of the cam disc when the switching magnet has fallen is released from the pin (4) of the rotary lever (3) and in the effective position of the cam disk is secured against further rotation. Please refer to the sheet of drawings 1 5012 5.53