DE1113486B - Method for stranding electrical wires or cores into groups for electrical cables, in particular telecommunication cables - Google Patents

Description

Method for stranding electrical wires or cores into groups for electrical cables, in particular telecommunication cables The invention relates to a method for stranding electrical wires or cores into groups for electrical cables, in particular telecommunication cables.

Stranded pairs are generally made by means of stranding machines manufactured by winding the single wire onto a spool and two such spools arranged in a cage that rotates so that the two coils walk around each other. While the cage rotates with the two coils, will the wires are pulled off upwards, in which case they are joined together, and then run via a take-off disc onto a storage drum.

In the case of stranding machines, the spools are arranged in a different way known in the rotating cage. Here the coils only rotate around their own Axis, and the veins are removed by rotating arms around them and to the Stranding point guided.

The speed of the revolution is limited in both methods by the rotational forces and the forces created by the unbalanced centrifugal forces be generated.

The invention completely eliminates these difficulties a different type of method in which, according to the invention, first the individual stranding elements wound up parallel next to each other on a spool and then in a substantially parallel to the bobbin axis direction withdrawn and thereby be twisted.

According to a development according to the invention, for. B. two production lengths of insulated conductors side by side - wound on a spool, being one in parallel Form an adjacent pair of wires. The two wires can advantageously pulled directly from a double-action machine applying the insulation and wound on the bobbin. If now the wound coil is fixed and the two parallel wound cores from the coil in the direction of the coil axis are withdrawn, the unwound wire pair is withdrawn for each individual Turn can be twisted once.

However, if the coil can rotate on its axis while the wire pair is withdrawn from the spool in the direction of the axis, then form accordingly the speed of rotation of the spool, larger and smaller stranding lay lengths the end. In this way, wire pairs for electrical cables can be produced, which have different stroke lengths, such as the one to avoid cross-talk effects is required.

The new method is explained in more detail with reference to the drawings. the 1 shows a coil 1 which carries a few turns of the pair of wires 2. If that Wire pair is now pulled from the coil in the direction of the axis of the coil, like that is shown at 3, the two wires are stranded together, the lay length depends on the circumferential length of the wire on the spool.

In general, however, such a lay length as normal Coils would be too long for use in telephone cords. For this Basically, the coil 1 is allowed to rotate while the wire pair is pulled to the side. This process is shown in FIG. The coil rotates in the direction of the arrow, and there is a much shorter stroke at 3. The stroke length is outside also depends on the speed of rotation of the spool on the spool diameter or of the diameter of the winding layer from which the cores are unwound just pulled off the spool.

Fig. 3 shows a schematic representation of a device for Implementation of the new procedure. The spool 4 is generally on a vertical one Axis arranged. The turns 5 of the parallel wire are from the coil guided over the rollers 6, 7 and 8, which are mounted on a rotating arm 9 appropriate are. With each round run of the arm 9, a twisting twist of the pair of wires occurs. The non-running arm 10 has a counterweight at 11 and is supported by the ball bearing 12 attached to the axis13. The one exercised by the trigger disk, not shown Tension on the wire pair causes the arm to rotate.

The lower flange of the spool is mounted on a plate 14 which is attached to the axis 13. At 15, a driver is arranged on the plate 14. The spool itself can be driven via a gear 16 and the shaft 17, whereby the lay length of the stranding can be changed.

This method presents much less difficulty in terms of Consideration of centrifugal forces as the known method where two Coils are arranged in a frame and rotate around each other. As with the new one If the coil only rotates around its own axis, it can do so without any Disadvantages can be relatively difficult. The stripped wires only have the very light rotating arm to move. With the new procedure, this is also not necessary Pinching individual wires in the turns below them, which was previously the case caused disruptions to the known procedures. By precisely regulating the number of revolutions of the shaft 17 in Fig. 3, it is also possible to determine the lay length of the stranded To determine the veins exactly.

During the stranding process, the diameter of the winding layer, from which the wires unwind, reduced in size after each individual layer has been unwound will. The resulting change in lay length can be continuous a change in the speed of rotation of the spool can be compensated for. For certain In some cases, however, it may be desirable not to apply this compensation, i.e. the Lay length over the entire manufacturing length of the cores continuously or after any one Change control program. It is of course possible without further ado, even more than two Stranding cores together.

Claims (6)

CLAIMS: 1. A process for stranding of electric wires or wires to form groups of electric cables, in particular telecommunication cables, characterized in that first the individual twisting elements (2, 5) side by side wound parallel together on one coil (1, 4) and then in a are withdrawn substantially parallel to the coil axis direction and twisted thereby. 2. The method according to claim 1, characterized in that that the reel from which the stranding elements are withdrawn, in one the number of the twisting turns per unit length increasing direction around its own axis rotates. 3. The method according to claim 1 and 2, characterized in that the result The unwinding diameter changes caused by the unwinding of the wires from the reel resulting change in the strand lay length by changing the Circulation speed of the bobbin affects, is advantageously prevented. 4. The method according to claim 1 to 3, characterized in that the on the spool parallel stranding elements from the spool via one or more rotating ones Guide arms are withdrawn, the axis of rotation of which coincides with the axis of the reel. 5. The method according to claim 1 to 4, characterized in that two individual wires stranded into a pair of wires. 6. The method according to claim 1 to 5, characterized in that that more than two individual cores are stranded into groups of cores. Considered Publications: German Patent No. 445 312.