DE2358752B1 - Longitudinally sealed, plastic-insulated telecommunication cable and process for its manufacture - Google Patents

Description

According to the invention, the method consists in that the fusion zones generated by means of UR radiation or by means of dielectric heating in a high-frequency field are advantageously the energy used for the fusing by pulse sensing is generated and the production of the fusion zones takes place in a continuous process. The advantage of such devices is their easy handling and quick operation, in particular if the locking points are generated in a continuous process will.

The invention will be explained in more detail with reference to an example from leadership. It shows F i g. 1 the soul of a plastic-insulated telecommunication cable, F i g. 2 the cable core with bamboo structure, FIG. 3 the melting of a zone in the radiation field.

According to FIG. 1 is the core of the plastic-insulated telecommunication cable made of ladders with a waterproof plastic, which is usually polyethylene is. The insulated cores are stranded in pairs or fours and in layers or in bundles wired. Above this is the polyethylene inner jacket as core insulation. Instead of polyethylene, other thermoplastic insulating materials can also be used will.

In FIG. 2 is such a cable core through the action of heat fused in a narrow zone 5 to 10 mm wide over the entire cross-section. This melting zone represents and becomes a blocking point for penetrating water repeated at regular intervals. These blocking points can be in any Distances are merged, but result in distances of 50 cm or 100 cm Sufficient longitudinal tightness for telecommunication cables.

Stiffening of the cables at these distances, impairment impregnations of the Recognition of the characteristics of the stranding elements, difficulty in processing of the cable ends during the inspection in the test field and during assembly on the route are excluded with a remote control cable manufactured using this method.

The electrical properties of the cable are also retained.

According to FIG. 3 is suitable for cross-sectional merging spatially limited UR radiation field or dielectric heating in the concentrated High-frequency field, possibly using a pulse-controlled process. These procedures work contactlessly in the most practical way in the production process of the cable during application of the inner jacket for the cable core. In this way, the inner jacket is also included melted down, so that the bamboo-like fusing is not only longitudinal tightness but also results in transverse tightness.

A particularly not specifically shown embodiment for protection in the case of polyethylene-insulated cable cores, the well-known one offers against water ingress Layered jacket. Its aluminum tape is copolymer coated on both sides. This construction enables the sheathed cable during the production process both with the polyethylene inner sheath of the core and with the outer sheath of the cable to seal optimally.

Claims (7)

Claims: 1. Cable with plastic-insulated wires and a plastic-insulated sheath, in particular telecommunication cables, with introduced at intervals Blocking points to prevent the longitudinal propagation of anything that has penetrated the cable Water, characterized in that the locking points as fusion zones from the the insulation forming plastic are formed. 2. Cable according to claim, characterized in that the width of the Fusion zones is about 5 to 10 mm. 3. Cable according to one of claims 1 or 2, characterized in that that the merging zones at regular or irregular intervals are introduced. 4. Cable according to one of claims bis3, characterized in that that the distance between the fusion zones is about 0.5 to 1 m. 5. A method for producing a cable according to one of the claims bis4, characterized in that the fusion zones by UR radiation or by means of dielectric heating in the high frequency field. 6. The method according to claim 5, characterized in that the for The energy used in the fusing is generated by pulse sensing. 7. The method according to claim 5 or 6, characterized in that the production of the fusion zones takes place in a continuous process. The invention relates to a cable with plastic-insulated cores and a plastic sheath, in particular telecommunication cables, with introduced at intervals Blocking points to prevent the longitudinal propagation of anything that has penetrated the cable Water. The subject matter of the invention also includes a method of production such a telecommunication cable. This is in particular a telecommunication or communication cable with locking points in the plastic-insulated cable core. In the case of telecommunication cables insulated with plastic, the cable core exists usually made of cores with thermoplastic, preferably polyethylene, insulation. On the other hand, however, such cables have the disadvantage that In the event of a fault, water penetrating the soul mantle in the axial direction can spread and flow on. This causes a disruption of the message transmission, z. B. as a result of pore defects in the veins, or a local deterioration in the transmission properties at a point on the cable that is not the sheath fault. Since a location of the actual cladding fault, i. H. the agency the ingress of water is not possible, then you have to eliminate the disturbance larger Cable sections are exchanged. Therefore, telecommunication cables with plastic-insulated Veins required that water does not penetrate at a sheath fault can spread over a greater distance. A method is now known, plastic-insulated telecommunication cables to make longitudinally watertight (DT-AS 1 640 608), in which the isolated cores at intervals sealing plugs in the form of a liquid, a propellant Containing plastic are applied, the propellant with adjustable Reaction time delivers a foam from closed pores. The disadvantage here is that for the formation of the sealing plug the injection of a filler material in the cable core is necessary. The material limits the choice of cable insulation materials a. Because here the compatibility of the stuffing agent mix of the insulation must be considered will. In addition, the one associated with the injection is manufacturing technology Effort a disadvantage. Furthermore, a method is known, high-voltage cables with a made of plastic insulation and an inner conductor designed as a stranded conductor to make longitudinal watertight (DT-AS 2 154749). For this purpose, the stranded conductor provided with locking points by closing the cross-section of the stranded wire Gaps impermeable by means of welding or soldering at the desired intervals is made. The disadvantage here is that for welding or soldering the braid a separate work process is required to cope with the continuous manufacturing process of the cable. The invention is based on the object of a cable of the initially specified type, in which the locking points are designed so that incompatibilities do not occur with the cable insulation. The object is achieved according to the invention in that the locking points are designed as fusion zones from the plastic forming the insulation. The cable core according to the invention has the advantage that additives for production of blocking points are dispensable. This does not even ask the question their adverse effects. Such a cable core is also suitable for the low-frequency and carrier frequency range suitable. Since the merging zones are not just about the Form core insulation, but also form the inner sheath of the cable core at the same time grasp, there are the further advantages that the cable longitudinally and transversely watertight and a special jacket construction for covering the cable core is unnecessary. It is also advantageous that the width of the melt zones is approximately 5 to 10 mm, that the fusion zones in regular or irregular Distances are introduced and that the distance between the fusion zones at about 0.5 up to 1 m. Width and mutual spacing of the melt zones are only of the claims made dependent. The invention also relates to a method for producing such a Communication cable.