DE890688C - Periodically operated contact device - Google Patents

Description

For mechanical converters periodically operated contact devices have become known in which An armature driven by a rotating magnetic field causes a tumbling movement · on fixed contact segments executes and thereby the periodic switching connections necessary for the current direction manufactures. The anchors of these devices tend to except those necessary for rectification tumbling movement to execute a slow rotational movement, which leads to the direction of the current is not required. It has been found that the operational safety of such devices is increased if this rotational movement of the armature is prevented in a suitable manner. This depends together with that practically the rotational symmetry of the armature and the fixed contacts is not perfect, so that it produces irregular movements of the armature when it rotates which result in inaccurate contact times and give rise to short circuits.

According to the invention, means are provided which prevent the rotation of the armature during operation. For example, the arrangement can be made such that the armature is rotated by hand can be, so that if individual contact tracks are damaged, new, still undamaged contact points can come to work.

In the drawing, the invention is shown using an example. To one by a DC coil 2 excited center pole 1 are AC poles in the circle arranged, of which 3 and 4 with their excitation coils 5 and 6 in the plane of the drawing are visible. A running disk 7 lies on the center pole 1, and the armature 8 rolls on this away. A contact ring 9 is attached to the armature 8, which, when the armature moves, with fixed, Contact segments arranged on a circle comes into contact, of which 10 and 11 are visible in the plane of the drawing. The contact segments 10 and 11 are on one Contact carrier 12 attached isolated. The contact carrier 12 is by a ring nut 13 on the Center pole screwed tight. Some of the fixed contact segments are connected to the · DC pole connected and is used to draw power, while the remaining contact segments with the Phases of AC voltage are connected. In the center pole ι a bore 14 is attached, which a filler piece 15 contains. This filler piece 15 can rotate in the bore 14, this rotation will however, made more difficult by a hairpin spring 16. In the filler piece 15 is a pin 17 with the aid of a Split pin 18 attached. The pin 17 goes through a Hole in the washer 7 and in the armature 8 through and forms on the top of the armature an eyelet 19. The other end of the pin 17 runs along the surface of the anchor 8 and is on The circumference of the armature is bent down in such a way that its end 20 is in a slot 21 of the armature reaches into it and in this way prevents the armature from rotating relative to the filler piece 15.

The hairpin 16 brakes the filler piece so strongly that no rotation of the filler piece during normal operation occurs with the anchor. By turning the eyelet 19, however, the anchor can be manually twist together with the filler piece. A coil spring 22 is used to move the armature to the To push the pulley 7. In order to prevent wear and tear of the slot 21, it can be provided with a guide 23 are provided which, for. B. consists of hard tissue. You can do this guide piece Lubricate enough by hand or by yourself that it is durable. Likewise, the cavity 24 in the Ring nut 13 filled with oil, so that both the filler piece 15 and the barrel washer 7 and the Bore in armature 8 are lubricated. The anchor with the filler piece 15 can be attached to the eyelet 19 pull out. The filler piece 1.5 is slightly shorter than the hole 14 in the center pole 1. The magnetic pulling force of 8 and 1 causes the Filler 15 always pushes in so far that the washer 7 on the outer annular surface of the Poles ι comes to circulation.

Instead of the arrangement shown in the drawing, the brake pin 20 can be placed on pole 4 and attach the slot 23 to the armature 8 rotatably with friction. The one shown in the drawing However, the arrangement has the advantage that no parts are disassembled when the anchor is removed need to become. The pin 17, 19, 20 can be, for. B. made of spring steel.

Claims (6)

Patent claims: 1. Periodically operated contact device in which an armature moves under the influence of a magnetic one Field rolls on fixed contact segments in a tumbling motion, characterized in that that means are provided that the Eigenrotatibn of the anchor during operation impede. 2. Device according to claim 1, characterized in that that the non-rotating armature during operation by artificial intervention, e.g. from Hand that can be rotated. 3. Apparatus according to claim 1 or 2, characterized in that that the rotation of the armature is prevented by a brake pin which is approximately in the rolling plane on the armature attacks. 4. Apparatus according to claim 3, characterized in that the brake pin on the outer circumference of the anchor is arranged. 5. Apparatus according to claim 3 or 4, characterized in that the brake pin through a central Bore of the armature at the center pole of the device is rotatably mounted under friction. 6. Apparatus according to claim 3 or the following, characterized in that the brake pin above of the anchor forms an eyelet on which the anchor together with the brake pin of the Machine is lifted,