DE654207C - Process for the manufacture of air-space-insulated electrical telecommunication cables - Google Patents

Description

. The invention relates to a method for producing airspace-insulated Telecommunication cables, especially high-frequency cables, in which the one made of plastic insulating material existing, initially tubular spacers retain their shape after shaping is made. As is known, the insulation of the conductors of these cables is carried out by air spaces between the conductor and the outer shell by appropriately shaped spacers made of malleable insulating material, which, after they have been made dimensionally stable, face the conductor in the middle position hold the case. The invention aims to be simple and cheap; Method of manufacture create such cables.

According to the invention one proceeds in such a way that the tubular spacer, after the structure consisting of the conductor, spacer and outer shell is complete has been assembled, brought into its final shape by inflation with compressed gas and then made dimensionally stable, after which the compressed gas is then released again.

The material used for the spacer is preferably ^ non-vulcanized rubber, the shape of which is determined by subsequent vulcanization; it can do that too synthetic rubber, a cellulose preparation or another material (plastic) of the known properties corresponding to the specified conditions. at Application e.g. B. of rubber is the tubular body after completion of the production des made of ladder, tubular! Insulator and outer shell existing structure inflated by introducing a compressed gas until it is with a certain pressure comes to rest against the inner wall of the shell. The on this Way assumed by the tubular spacer is then by ordinary Vulcanization (or some other stabilization process if it is not rubber), whereupon the pressure of the gas can be released without further ado can.

The tubular spacer made of insulating, initially malleable material can be equiaxed be arranged to the conductor; in this case he will be on the ladder himself at certain intervals by ties or Also set by means of a helically laid cord or the like around it, so that after its expansion it comes into contact with the conductor at spaced locations remain. This apparently keeps the conductor centered in the sheath. The constrictions can be made by means of a thread

ordinary fiber material or better by means of an elastic thread or cord, e.g. made of rubber. The tubular body is stretched by the inflation and if its walls are thinned, the thread or the like holds the conductor again in the center of the structure.

The tubular body made of insulating, initially malleable material can also be around the

ίο ladder between it and the outer shell be wound up. The tubular body is then expanded on the outside of the inner wall of the shell and inside rest on the ladder with strong pressure; special constrictions or ties are then superfluous.

Some exemplary embodiments of the invention are shown in the drawing.
iVbb. i, 3 and 5 show, partly in longitudinal section, pieces of three different cable forms prior to expansion of the tubular body, and

Fig. 2, 4 and 6 show the same pieces of cable after stretching.

In the one shown in Figs The embodiment is around a tubular spacer 2 made of deformable insulating material, which encloses a conductor 1 and has an outer diameter which is substantially smaller than that of the cable jacket 4, helically a thread, e.g. B. made of elastic rubber, laid around, who presses him against the ladder accordingly. In the pipe 2 gas is introduced under pressure, possibly by the conductor itself, if it is a stranded conductor. This stretches the tubular body between the turns of the constriction until its wall rests against the inner wall of the casing with strong pressure (Fig. 2). The elastic Cord 3 can press the wall parts affected by it firmly against the conductor. The so The shape obtained - the tubular body is now vulcanized or otherwise set in the manner mentioned above, so that the structure even after the cessation of Gas pressure remains in the form shown in Fig. 2, in which the tubular spacer 2 by a helically extending rib securely holds the conductor 1 in relation to the sheath 4 centered.

Figs. 3 and 4 show a similar arrangement. Only is the helical one Wrap 3 replaced here by separate bonds 3 'of ring shape. The production of the cable is done as described in Fig. 1 and 2.

In the embodiment according to Figs. 5 and 6, a tubular, thick-walled spacer 2 ' made of plastic insulating material is wrapped in a helical shape around the conductor ι according to Fig. 5. This Avird inflated by blowing in pressurized gas and assumes the shape according to FIG. In this case too, the gas pressure can be eliminated after the substance of the tubular body has solidified.

Claims (5)

Patent claims: 1. A method for producing air space-insulated telecommunication cables, in which the initially tubular spacer consisting of malleable insulating material is made dimensionally stable after shaping, characterized in that the tubular spacer (2, 2 '), after the conductor (1), spacer (2, 2 ') and outer shell (4) existing structure has been completely assembled, is brought into its final shape by inflation. 2. The method according to claim i, characterized characterized in that the tubular spacer made of unvulcanized rubber after inflation is made dimensionally stable by vulcanization. 3. Telecommunication cable manufactured in accordance with the procedure described in Disclosures 1 and 2, characterized in that the spacer consists of a pipe coaxially enclosing the conductor, the by a helically wrapped cord, e.g. B. made of elastic Rubber, attached to the ladder (Fig. Ι and 2). 4. Telecommunication cable according to claim 3, characterized in that as fastenings for the spacer on the conductor spaced annular bonds (3 ') one optionally elastic (e.g. rubber) cord are used. 5. Telecommunication cable produced by the method according to claims ι and 2, characterized in that the spacer consists of a helically wound tube (2 ') around the conductor, which after inflation and solidification both on the conductor and on the outer shell in a helix is present. 1 sheet of drawings