DE1128905B - Electrical switch with a movable contact bridge - Google Patents

Description

Electrical switch with a movable contact bridge A switch with a movable contact bridge is already known in which, when the switch is closed, after it has been placed on the mating contacts fixed in the switch housing during the remaining movement stroke of a plunger controlling the contact bridge within this plunger, it is guided in such a way that it carries out a dragging movement with respect to the fixed mating contacts. Occurs to the fixed contacts and the contacts of the contact bridge as a result a so-called self-cleaning, i. H. an automatic removal of burn-off products or of dirt and the like that may have deposited on the contact surfaces.

The invention is based on the object in a switch with a movable contact bridge despite maintaining this self-cleaning effect Contact wear due to the dragging motion introduced between the contacts to avoid.

According to the invention to solve this problem with this contact bridge movement in the plunger, the contact bridge move against the force of a leaf spring, which when placing the contact bridge on the mating contacts a small but finite Contact pressure causes during the movement of the contact bridge in relation to the plunger is tensioned and a maximum contact pressure in the end position of the contact bridge evokes.

Figs. 1 and 2 show an embodiment of the invention.

In Fig. 1, two switching points of a cam switch with bridge contacts, consisting of movable contact bridges 1 and 2, ten BEWE with two contacts, and the fixed contact pairs 3, 4 and 5, 6, which are ebracht on one leg of a ". These contacts Angle piece 7 ang are actuated when the shaft of the switch is rotated by the cam 8 , which lifts a plunger 9 via a roller 10 against a spring force 11. Contacts, plungers, springs and the connections for the power line are mounted on a molded body 12, several of which can be combined by lining up to form a switch package which is held together by screw bolts in the holes 13 .

The movement of the plunger itself is guided on the one hand by groove-like depressions 14 in the pressed material body, on the other hand by grooves 15 in the plunger and corresponding cams 16 on the stationary contact parts. Press material slides on metal, which ensures good guidance.

In Fig. 1, the switch is shown as being open to the upper contact bridge 1. The contact bridge 1, in the middle of which two cams 17, 18, also visible in section in FIG. 2, are attached, rests with these two cams at the lower end of two lower guides 19, 20 which are attached in the plunger 9 and also in FIG. 2 are indicated. A leaf spring 21, which is attached in its center to the upper inclined surface of the plunger 9 and in the position of the plunger shown still exerts a finite non-zero force on the contact bridge, presses the contact bridge with its cams 17, 18 against the lower end the guide grooves 19, 20. the compression spring 11 is under maximum tension. If the plunger 9 moves downwards when the switching cam 16 is rotated, the leaf spring remains in the position shown in FIG. 1 until the contact with the fixed contacts 3, 4 begins by the contacts on the bridge 1 ; it only relaxes the compression spring 11. As soon as the bridge contacts touch the stationary contacts 3, 4 and the movement of the bridge can no longer follow the movement of the plunger 9 during its remaining movement stroke, the cams 17, 18 migrate into the during this remaining movement stroke grooves 19, 20 upwardly, and move thereby the bridge contacts along the surface of the fixed contacts 3, 4. the contact pressure is initially low since in the illustrated in Fig. 1 position, the leaf spring 21 with less force on the Contact bridge 1 pushes and only increases in the course of the migration of cams 17, 18 in grooves 19, 20, up to the lowest extreme position of the plunger, in which cams 17, 18 have arrived at the upper end of grooves 19, 20 , the leaf spring 21 rests completely on the contact bridge 1 , as shown in Fig. 1 on the lower contact bridge 2, and thus generates a maximum pressure between the contacts. The compression spring 11 is then partially relaxed, but still presses the plunger against the switching cam 8 with considerable force.

For opening the contacts of the upper switching point, the plunger 9 is now moved up again, wherein first again a displacement of the bridge contact along the surface of the fixed contacts 3, 4 takes place while at the same time 18 shown, the cams 17, again in the in Fig. 1 Position within the grooves 19, 20 arrive. The leaf spring 21 has then again assumed the shape shown in FIG. 1 at the upper switching point and accordingly exerts only a small force on the stationary contacts 3, 4.

The rubbing lateral movement existing between the contacts does not therefore take place continuously with the same contact pressure. In the Schalterschheßung rather the contact pressure is low at first and -Take in the course of the lateral Be mentioned # movement up to a maximum value, by the urging force of the leaf spring 21 in its cocked position in which this leaf spring flies to having its entire length on the contact bridge , is determined. When the switch is opened, the contact pressure is initially at a maximum at the start of the frictional movement of the switch contacts, and in the course of this lateral movement it decreases to a minimum value which, however, is not zero. Compared to a switch, in which the contact pressure would have its maximum value during the entire lateral movement of the switch contacts, the contact wear is therefore significantly less.

Claims (1)

PATENT CLAIM: switch having a movable contact bridge, by which it is guided in the Schaltersähließung after their placement on the solid in the housing counter contacts during the remaining stroke of movement of the contact bridge controlling plunger within said plunger in such a way that it performs a sliding movement relative to the fixed mating contacts, characterized in that during this contact bridge movement in the plunger (9) the contact bridge (1) moves against the force of a leaf spring (21) which causes a low but finite contact pressure when the contact bridge is placed on the mating contacts (3, 4), is tensioned when moving the contact bridge relative to the plunger and causes a maximum contact pressure in the end position of the contact bridge. Contemplated publications: German Utility Model No. 1738 663;. French patent specification No. 1083 368.