DE3304715C2 - - Google Patents

Description

The present invention relates to a method for producing longitudinally watertight Cables and conductors, in particular communication cables with one out a plurality of cores consisting of plastic insulated cores, wherein in the space between the wires and in the space between the cable core and the Enclosed a water-sealing mass based on silicone rubber introduced is.

In the news cable technology, it has long been known by stopping the cable core the longitudinal propagation of possibly penetrated Prevent water or restrict it to a narrow space. The Use of plastic-insulated wires in this technique, where the danger The axial spread of moisture is particularly large, then led in Over time, many suggestions for sealing the cable core. That's the way it is z. B. from DE-OS 14 90 21 known in the soul of a news cable to incorporate swelling materials under the action of moisture. These swellable substances can be introduced as powder or in gel form, but they can also be in the form of strands or threads or even as Foils can be arranged in the cable core. In this context was too already proposed, these swellable substances are not continuously in the Insert cable core, but only at longer intervals.  

It also already has (DE-OS 25 25 934) in the soul of Nachrichtenkabeladern under the action of humidity vulcanizing silicone rubbers introduced, which should provide for a Abstopfung. This kind However, the stuffing is not suitable if, as is the rule, the Abstopfung takes place in the same operation with the application of the jacket. Because with the extrusion of the sheath material over the stuffed Soul, the soul is sealed to the outside, so that for networking or vulcanization of the known silicone rubber necessary Humidity is prevented from entering.

But also other silicone rubbers, such as condensation-curing - so-called 2-component types, can not be used in such cases, since their Cleavage products would have to be completely removed again.

In closed systems, so also in an electrical cable, can therefore only be used with so-called addition-vulcanizing silicone rubbers. However, this results in the difficulty that by suitable Machines to be introduced masses with discontinuous clogging so highly viscous must be that until the cross-linking of the plug, which in the Usually takes a few hours, do not flow so far into the unfilled area, that they do not fulfill their purpose of forming a plug in the smallest of spaces. But such masses are no longer optimal to mix, promote and in the Distribute cable core. In addition, these materials have the Disadvantage of a very low stickiness with other materials, eg. Belly the insulating materials of the wires of the electric cable, which occurs when water enters possibly leads to infiltration.

But also a temperature increase of the mass to reduce the pot life is unhelpful, as is the case with electrical cables because of the metal part high heat capacity of the soul, the melt temperature very quickly low Effect on lowering the viscosity to improve the flow rate.

Based on this prior art, the invention is therefore the task underlying a way to find, even in closed systems to achieve a uniform, safe stoppering.  

This object is achieved according to the invention in that as silicone rubber An addition-curing 2-component silicone rubber in thixotropic Form is used.

In this way it is possible to use easily pourable sticky masses in the processing machine easy to promote and evenly and safely in the cable or conductor to be darned to distribute. Due to the intended thixotropy of the introduced stuffing material it is achieved that the plug in retirement does not flow and so long so that its sealing function loses, until through the crosslinking reaction even a long-term course is excluded with certainty.

In carrying out the inventive concept is useful as a base rubber a low viscosity material of about 700 to 1500 mPa · s, preferably 900 to 1100 mPa · s, using fillers and thixotropic agents enriched.

A longitudinally sealed by such means cable or conductor cable retains its original flexibility, bending stresses during the Production, laying or operation do not lead to a release or picking up the individual wires tightly connected to the earth. Also at Cables with multi-layered core bandages ensure longitudinal water-tightness.

A composition which is particularly suitable for the purposes of the invention, d. H. both in terms of processability and in terms of uniformity Distribution in the cable, results when, as a filler chalk, Kaolin or similar materials in an amount up to 100 parts per 100 Parts of silicone rubber are used. In this context, as Thixotropic agents have proven to be very beneficial to an amorphous silica in an amount of 2 to 50 parts. To influence the stickiness The mixing ratio of the rubber components A and B can be changed become.

Below are examples of mixtures for the invention particularly well usable Specified silicone rubbers.

Example I Silicone rubber component A 50 parts Silicone rubber component B 40 parts amorphous silica 30 parts

Example II Silicone rubber component A 50 parts Silicone rubber component B 50 parts chalk 10 parts amorphous silica 5 parts

As silicone rubber can, for. B. a product of the company. Wacker chemistry used which is available under the designation VP 7612.

An embodiment of the invention is based on the figure explained in more detail.

The z. B. from a rotating stranding device, not shown, single cores, quads or stranding elements of higher order 1 are supplied to the device 2 , which is equipped in its output side part with a stranding nipple and in the input part with an introduction of the sealant from the reservoir 3 . The relatively stable, but easily conveyable and sticky mass is introduced immediately before the stranding of the individual elements 1 between them, so that in the subsequent calibration through the stranding nipple, the core 4 of the cable is tightly filled. In the subsequent retirement of the mass, this does not flow because of the selected thixotropic properties, until bleeding is fundamentally precluded by the onset of the crosslinking reaction. This means in the present case that applied by means of the extruder 5 or in the spray head 6, the outer shell, if necessary, after a previous additional harness the soul 4 and thus the soul can be completed.

Depending on the desired tackiness of the silicone rubber used for sealing the mixing ratios are to be varied. As for the purpose According to the invention most favorable mixing ratios of the components A and B between 6: 4 and 4: 6 proved.  

Deviating from the embodiment shown in the figure also the seal or foreclosure a conductor z. B. a high or medium voltage cable possible. Such conductors are made of stranded or unsewn combined bare single wires of copper or aluminum, the Structure of the rope can also be done in layers. Do you want to get up? refrain from a continuous stuffing, you can z. B. proceed as it is described in DE-OS 28 08 438. After that, it's about the creation a conductor cable for electrical power cables, the good bending properties owns and not to mechanical damage of the conductive layers or even the Insulation leads, but still the demands for a longitudinal water-tightness enough. Because of this, are at intervals in the conductor cable Plugs made of a cross-linked rubber-elastic material arranged, whose axial length small compared to the axial distance over the length of each other following stopper is.

These plugs in the conductor cable are advantageous from the addition-crosslinking Two-component silicone rubber in thixotropic form according to the invention manufactured. Since it is in the case of the Abstopfung a conductor cable to is a closed system, in which in the continuous pass first the inner conductive layer and then applied the insulation is, again apply the benefits mentioned above.

Claims (5)

1. A method for producing longitudinally watertight cables and conductor cables, in particular communication cable with one consisting of a plurality of plastic insulated cores core, wherein introduced into the space between the cores and in the space between the cable core and the sheath a water-proofing mass based on silicone rubber characterized in that the silicone rubber used is an addition-crosslinking two-component silicone rubber (components A and B) in thixotropic form. 2. The method according to claim 1, characterized in that as the base rubber a low viscosity material of about 700 to 1500 mPa · s, preferably 900 to 1100 mPa · s, using fillers and thixotropic agents enriched. 3. The method according to claim 1 or 2, characterized in that as a filler Circles used in an amount up to 100 parts per 100 parts of silicone rubber is. 4. The method according to claim 1 or 2, characterized in that as Thixotropic agent amorphous silica is used.   5. The method according to claim 1 or one of the following, characterized that the silicone rubber components A and B to optimize the tackiness be varied between the mixing ratios 6: 4 and 4: 6.