DE2503463C3 - Communication cable - Google Patents

Description

The present invention relates to a communication cable with a plurality of at least three-core cables Stranding elements with tension absorbing members and a jacket surrounding the core.

Each electrical cable must have a certain tensile strength so that tensile forces that, for. B. at the Laying on tfas cables can attack, not damage the cable or impairment the electrical transmission properties of the cable. This required tensile strength can be a electrical cable through the cable core, through the cable sheath or through additional devices obtained in the cable core or the cable sheath are arranged.

For multi-core power cables, it is z. B. known, in the outer wrinkles formed by the veins the cable core to provide tensile organs in the form of wire ropes, which, in case of tensile loads Twists of the cable should be avoided as much as possible and must be applied in a long stroke (DE-OS 22 21 466). The soul of multi-core communication cables on the other hand, it is round and offers no space for such things, which are arranged between the soul and the jacket Traction organs. These would also compress the soul of the communication cable too much under tensile stress, so that its electrical transmission properties would be changed in an inadmissible manner. For multi-core communication cables, other precautions are therefore required for their tensile strength design and also been found.

The soul of multi-core communication cables is only capable of absorbing tensile forces up to the specific one Copper cross-sectional load capacity suitable, as it would otherwise become uncontrollable when subjected to tensile forces Stretching can experience, whereby the electrical transmission properties in not manageable Change way. For this reason, the sheath is also used in communication cables for greater tensile loads Provide receiving organs for the tensile forces. Such tensile organs attached to communication cables are z. B. embedded in the cable jacket and running in the longitudinal direction of the line synthetic fiber or Glass fiber threads (DE-OS 16 40 929). Steel wire armourings, such as round and flat wire armatures, are also known or steel wire mesh.

Sheath constructions for cables with such additional Pull organs are of course very heavy. One has therefore switched to a lighter construction, at which the cable jacket is built up like a layered jacket or corrugated steel jacket. For cables with Such a jacket construction, however, lacks the classic pulling elements, such as steel, round or Flat wires or steel wire mesh.

The present invention is based on the object of specifying a communication cable of the type described above which, without having the classic pulling elements, has the required tensile strength, but which is lighter with the same diameter,
This object is achieved in that in the inner interstices formed by the veins of the respective stranding elements continuous, tensile organs made of glass fiber or synthetic fiber threads are arranged in the longitudinal direction. As material for the

ίο Polyamide, for example, comes in Question.

The invention takes advantage of the fact that the stranding elements of a telecommunication cable because of the round shape of the cores stranded together, both inside and outside gusset. These gussets i each mean that a relatively high proportion of air voids is present within the stranding elements. The air in the Weaving between the wires is definitely desirable as an insulating medium in the cable. Through the invention the inner gussets of the stranding elements are now given a Another function, namely to be a placeholder for the tensile organs.

It is known that fours made of plastic-insulated cores without a heart cord have a much higher stability,

d. H. Dimensional stability as a quad from paper-insulated cores has shown tests that quad from plastic-insulated cores without a missive heart cord have better electrical coupling properties, as a foursome who identify such a heart cord.

Surprisingly, it has now been shown that glass silk threads because of their high flexibility plastic-insulated wires can be inserted into the interstices of the stranding elements, without the electrical coupling properties being impaired. The ones in the inner gussets of the On the contrary, stranded glass filaments lead to even better constancy of the Core configuration of the stranding elements.

The arrangement according to the invention of organs with high tensile strength in the inner gusset spaces of stranding elements can also be used on stranding elements made of paper-insulated cores. It are suitable especially stranding elements with internal gusset formation, d. H. so threesomes, foursomes, fives, etc.

The advantages of the invention are in particular that in the communication cable the soul is significant can absorb greater tensile forces. The communication cable is lighter than that with the same diameter known communication cable with an additional tension armoring provided on the jacket Easily create tensile cable terminations because the fiberglass threads are exposed at the ends of the cables. The fiberglass threads are not compatible with other materials such as B. metal or plastic foils or the Jacket material connected. The production of the tensile stranding elements can be carried out without any special effort the usual and known machines.

Exemplary embodiments of the invention are shown in the drawing. Fig. I shows a cross section through the communication cable shown in FIG. 2, 3 and 4 contain cross-sections through the stranding elements,

1 with a communication cable is referred to. It consists of the core 2, which consists of the stranding elements 3 is constructed, and the cable jacket 4 surrounding the core. The stranding elements 3 in turn consist of the cores 5. In the interstices formed by the cores 5 of each stranding element, as shown in FIGS. 2 to 4 can be seen, organs with high tensile strength 8

Γ 'arranged. The cores forming the stranding elements

u in turn each consist of the conductor 6, which is from

> \ an insulating sleeve 7 is surrounded. This insulating sleeve can

f ^: consist of plastic or paper. The cable-

Ii- jacket 4 can be made entirely of a suitable plastic

k exist or in the manner of the well-known Schictuenman

I tels to be built up. Then it contains a concentric

I layer of a metallic layer 9,

1 sheet of drawings

Claims (1)

Claim: Communication cable with a large number of at least three-core stranding elements, with tension receiving members and a coat surrounding the soul, characterized in that in the von The inner interstices formed by the cores of the respective stranding elements are continuous in the longitudinal direction organs with high tensile strength made of glass silk or synthetic fiber threads are arranged.