DE2302662C2 - Communication cable - Google Patents

Description

a) A number of optical fibers (2) loosely twisted with one another with a finite lay length are closed a basic bundle (1) combined and covered,

b) all optical fibers are surrounded by a protective layer, ι-:

c) several basic bundles are covered with a first protective jacket (6) applied with play,

d) a metal foil (8) is arranged on the first protective jacket,

e) on the metal foil (8) is a second protective cover (9) arranged,

f) between the basic bundles are an or several strain relief wires (7) arranged,

g) are the spaces (4) between the optical fibers and the spaces between the basic bundles filled in with lubricants

Z communication cable according to claim 1, characterized in that the sheathed basic bundle and the protective layers of the individual fiber optics sern made distinguishable by color coding sine '

The present invention relates to a communication cable comprising a plurality of optical fibers according to the Preamble of claim 1.

A communication cable of the type mentioned is known from DE-OS 20 12 293. With this cable are the Optical fibers are arranged around the centrally arranged strain relief element and run parallel to this organ. The central strain relief element and the covering surrounding it and the fibers consist of textile fibers.

The object of the invention is to provide a communication cable of the type mentioned that is resistant to mechanical, is resistant to thermal and chemical influences.

This object is achieved by the combination of features specified in the characterizing part of claim 1 solved.

There are also curved optical fibers with diameters for the optical transmission of messages of a few tenths of a millimeter are used, many thousands of optical fibers can be used combine them with a thin bundle of optical fibers. To avoid the external and mutual mechanical damage as well as to avoid the w> crosstalk, the optical fibers are with a Protective layer surrounded, which is flexible, a low coefficient of friction, a high absorption and is invulnerable to vaporous and dripping water. Then the light can turn on hi Inhomogeneities in a fiber are no longer scattered outwards and pass into neighboring fibers. Each The basic bundle contains so many optical fibers that the total diameter including protective sheath is one The basic bundle is so large that it can be stranded on the usual core stranding machines for communication cables is possible Several basic bundles are covered with a first protective jacket, which is applied with play, so that the entire cable can be bent when laying without risk of damage. To that To make cables retractable in ducts, one or more strain relief elements are required between the bundles Made of high-strength metal or plastic, roped up against the bundles to prevent penetration Water vapor and other vapors present in the vicinity of the cable in the cable is this first Protective jacket wrapped with a metal foil as a vapor barrier On this is a second outer protective jacket arranged, which resists external damage when laying Laying the cable both the optical fibers and the basic bundle move against each other are between the optical fibers and between the basic bundles lubricant to avoid mechanical Injuries arranged. At the same time, the lubricants prevent optical coupling between neighboring ones Fibers.

Only if all of these individual features are present does a bundle multiplex system with a large message transmission capacity result, which has a structure that is resistant to all external influences.

The basic bundle and the protective layers Made externally distinguishable by means of an individual color code using the optical fibers be (claim 2).

The subject matter of the invention is explained in more detail below with reference to the figures.

F i g. 1 shows a cross section through an optical cable according to the invention,

F i g. Figure 2 is a side view of a basic bundle.

In Fig. 1, three basic bundles 1 are twisted Glass fibers 2 with a diameter of a few tenths of a meter shown. To avoid mutual mechanical injuries and mutual optical Influence, every single glass fiber is covered with a protective fiber layer, which is flexible, has a low coefficient of friction and a high absorption constant. Each basic bundle is 1 enveloped with a basic bundle protective jacket 3 made of polyethylene with a layer of soot against UV radiation. The interspaces 4 between the glass fibers 2 and the basic bundle protective jacket 3 as well as the interspaces 5 between the basic bundle protective jackets 3 and a further comprising the basic bundle 1 Cable protection jacket 6 are to increase the flexibility with a lubricant from a gel-like petroleum derivative filled. Within the cable sheath 6, there are 1 strain relief wires 7 between the basic bundles inserted with game. The surface of the protective cable jacket 6 is completely covered by an aluminum foil 8 as Vapor barrier wrapped around, on which finally a against external mechanical damage to the cable resistant outer jacket 9 is arranged.

In FIG. 2 are inside the basic bundle protective jacket 3, the glass fibers 2 coated with the fiber protection layers are loosely twisted with one another. Through this the individual glass fibers 2 are relieved of tension or pressure when the basic bundle is bent. the Interstices 4 are filled with the lubricant so that the glass fibers 2 do not bend

I. ³

ί | Risk of damage can slide past each other. 5 _: The radii of curvature of the glass fibers are like this

U chosen that radiation losses are avoided and

ΐ that the cable is used for mono and multimode operation

, 4 can be used. ί

1 sheet of drawings

Claims (1)

Patent claims: 1. Communication cable with high communication capacity, which consists of a large number of optical fibers and a strain relief element, which are surrounded by a sheath, characterized by the combination of the following features: