DE2021726C3 - Telecommunication cable with plastic-insulated cores and process for its manufacture - Google Patents

Description

The invention relates to a telecommunication cable, the wires of which are insulated with plastic. the Cable core is surrounded by an outer jacket and the cavities in the cable core and between The cable core and jacket are filled with waterproof material.

In the case of telecommunication cables, it is necessary to check the penetration of moisture into the installed cable Possibility to prevent. This is particularly true for telecommunication cables whose cores have a Have insulation made of plastic or where the surface of the insulation is closed on all sides and off is constructed of a moisture-impermeable material. In the case of such cores, it is able to get into the cable penetrated water between the cable core and the jacket, but also in the one through the veins formed gussets in the longitudinal direction of the cable core. This can lead to that only after For a long time the ingress of water is noticed, if There is an insulation fault at any point on a wire, which means that this wire is connected to the water Earth potential comes to rest, or when the water reaches a connection or branch sleeve and there causes a short circuit between the wires Since a relatively long piece of cable is then under water, it is usually necessary to change the cable as it is quite difficult and time consuming to replace the actual cable Finding water penetration in the coat, this too

ίο close and the cable is operational again do.

Telecommunication cables have already become known in which the cavities within the cable core are filled with masses of petrolatum, wax or wax compounds. Such masses have the disadvantage that on the one hand they considerably increase the weight of the cable and on the other hand the electrical properties deteriorate, since the operating capacity is not insignificantly increased. There is another disadvantage that such masses for extracting the heat stabilizers from the plastic of the core insulation can lead, whereby a strong swelling of the plastics and thus a channel formation between enters the conductor and its insulation, thereby eliminating the longitudinal watertightness of the cable.

The invention is based on the object of specifying a telecommunication cable that is absolutely longitudinally watertight and its weight and electrical properties compared to known cables without longitudinal watertightness are changed only insignificantly. This object is according to the invention with a Telecommunication cable of the type described above solved in that the mass with foamed balls Plastic made up of closed cells

.15 exists, is enforced. The advantage of the invention is to be seen in the fact that the addition of the plastic balls consisting of closed cells loosens the mass of the filling compound by the air trapped in the balls so that on the one hand the increase in weight of the longitudinally watertight cable is insignificant and on the other hand the trapped air is the Cable operating capacity improved.
For example, a polystyrene mixed with propellants can be used as the plastic for the foamed spheres with closed cells. However, it is just as possible to use a closed-cell rigid polyurethane foam that foams without pressure as the plastic. Of course, the invention is not limited to the use of these two plastics. However, it turned out to be the cheapest in testing. In the following, the production of a telecommunication cable according to the invention is explained using two possible production methods.

A propellant-added polystyrene becomes very finely ground and below its foaming temperature in a melted, vaseline-like mass, which to be used to seal the cable core, evenly distributed. It is sufficient here if the Filling the mass with the polystyrene is carried out so that the polystyrene is 2 to 5 wt.% Of the total Mass matters. The mass filled in this way is then up to the foaming temperature of the polystyrene heated and then introduced into the cable core or its cavities in any process. Around to foam the foamed particles of polystyrene to a diameter of about 6 to 8 μm, and

Although with a density of about 0.04 g / cm ^J , the ground polystyrene particles in the non-foamed state must have a diameter of about 2 to 3 μm.

In a second method, the procedure is that the liquid starting components - polyol and Isocyanate - a closed-cell rigid polyurethane foam that foams without pressure in a suitable Mixing chamber mixed in a continuous process and atomized under pressure to form a finely divided mist will. The droplet size of the fog can be controlled in a known manner The droplets obtained from the mixed propellant polyurethane hard foam components by themselves on, for example by exothermic reaction between the Polyo! and the isocyanate, or are through Temperature supply foamed, the foaming rate by changing the reaction temperature can vary. It has been found to be particularly useful to atomize the mixed rigid polyurethane foam components aimed at a liquid. As a liquid For example, an atactic polybutene can be used. However, it is also possible to include any use other liquids such as oils. By introducing the droplets of the Polyurethane Hartschaunis in this liquid results

ίο a paste enriched with foam beads that then directly or with the vaseline-like mass that is used to seal the cable core can be cut to the desired consistency.

Both methods of manufacturing the telecommunication cable can advantageously be carried out in such a way that that all procedural steps are carried out one after the other in the same operation.

Claims (7)

Patent claims: 1. Telecommunication cable with plastic-insulated wires, the core of which is surrounded by an outer jacket and in which the rooms in the cable core and between the cable core and cable sheath with a Mass filled on the basis of wax and vaseline, characterized in that that the mass with balls made of foamed plastic, which consists of closed cells, is interspersed. 2. Cable according to claim 1, characterized in that the plastic for the balls as with Propellants added polystyrene is formed. 3. Cable according to claim 1, characterized in that the plastic used is polyurethane and the balls are produced by pressure-free foaming. 4. A method for producing a telecommunication cable according to claim 1, characterized in that First finely ground polystyrene mixed with propellants distributed evenly in the mass is that the mass is then heated to the foaming temperature of the polystyrene and that then the mass prepared in this way is introduced into the cavities of the cable. 5. The method according to claim 4, characterized in that that the polystyrene 2 to .5 wt.% Of the total mass. 6. A method for producing a telecommunication cable according to claim I, characterized in that First of all, the liquid starting components of a pressure-free, foaming, closed-cell rigid polyurethane foam mixed, atomized under high pressure to a finely divided mist, foamed and for the paste-like enrichment of a liquid be used that afterwards the enriched paste with the mass to a desired Consistency is blended and that then the mass prepared in this way into the cavities of the Cable is introduced. 7. The method according to claim 6, characterized in that the liquid is atactic polybutene is used.