DE2728633A1 - Monofilament or multifilament, flameproof optical fibre - comprises light-transmitting fibres surrounded by loosely fitting fluoro-plastics mantle - Google Patents

Abstract

Flame-resistant optical cable comprises a loosely enveloped optical fibre. The loosely fitting envelope is a laminated extrudate consisting of two plastics layers with an interposed, high-tensile, fibrous lamina. The plastics layers consist of fluoropolymers. The fibrous intermediate layer is a spun prod. The loosely fitting envelope contains >1 optical fibre, each of which may be reinforced by strong plastics sheatings.

Description

Flame-retardant fiber optic cable

The invention relates to a flame-retardant fiber optic cable loosely covered optical fiber. The arrangement of optical fibers in cable structures is always of particular difficulty because the extremely sensitive, very furane Glass fiber as far as possible from all external influences such as stretching, compression, torsion, Bending or shear stress must be protected. Doing so has proven to be the best option the hollow construction of a cable structure, since the optical fiber in such Constructions can initially evade all stresses. Because the alternative Preventing compression, stretching, notching or excessive bends is one thing Change of the attenuation behavior of the optical fiber, and this is for the transmission capacity of vital importance, avoided.

On the other hand, however, the loose cover must be subject to certain external stresses can withstand. This includes all mechanical loads that occur during of the manufacturing process, the finished cable being wound onto a drum must, or the use, whereby the cable certain mechanical stresses when laying in cable ducts. Previous cable constructions were relatively thick, as the sheath materials were soft and low-melting Plastics were used. In the case of a multilayer Core construction inner and outer sheaths made of polyurethane or polyvinyl chloride were used, whereby the soft materials, in order to achieve sufficient strength, are proportionate had to have high wall thicknesses.

The object of the invention is to provide an optical fiber cable, in particular to produce a single-core cable with a loose sheath that is small in size and sufficient leeway for the optical fiber a sufficiently stable cladding construction Has.

This object is achieved in that the loose shell is made of two extruded ones Plastic layers with an intermediate fiber layer is formed. The cable structure according to the invention is due to its construction of two pipes pushed into one another with an intermediate fiber layer sufficiently elastic for the necessary bends occurring during manufacture and installation , but it has one special thing because of the use of the extruded plastic hard plastic, therefore, sufficient stability against mechanical stresses. This is due to the shrinkage of the outer tube occurring in the course of production A special cross-sectional stability is achieved on the inner tube with the yarn layer, because mutually supporting clamping forces are generated in the manufacturing process.

According to a preferred embodiment of the invention, the inner and outer plastic layer can be formed from fluoropolymers. Fluoropolymers are absolutely non-flammable, very good weatherproof and have because of their hard surfaces an extremely favorable coefficient of friction, which is what is loose in the envelope lying fiber benefits. Preferred is a fluoropolymer sold under the name Halar is known in the trade.

The fiber layer can expediently be spun. In this way a resilient intermediate layer is created, which increases the mobility of the two pipes against each other and thus has a positive effect on elasticity. But it is also LMQalich. the fiber layer axially parallel to insert. In this cable construction, the fiber layer serves in addition to theirs the properties described above to increase the tear resistance and thus the protection the optical fiber for special demands. Can also be in the loose cover a plurality of optical fibers can be arranged. Depending on the necessary transmission capacity a certain number of optical fibers will be required, with correct Dimensioning of the sheath without interfering with the necessary movements of the cable to disturb, can be arranged in a shell. It seems advantageous to when the optical fibers are stranded together. This known measure is used the uniform stress on all fibers during mechanical movements of the cable. The individual optical fibers can advantageously be reinforced by solid plastic sheaths be.

In addition to the mechanical protection of the fiber through the reinforcement is used this plastic coating, when several fibers are arranged in a sheath, to prevent any crosstalk.

In the figure, an optical waveguide cable according to the invention is in section shown. Here, 1 is the inner tube with an inner diameter of 1 mm and 0.2 mm Wall thickness from the fluoropolymer known under the trade name Halar with 2 one Layer of spun yarn known as Kevlar with a thickness of 0.15 mm and with 3 the outer tube also made of Halar with a wall thickness of 0.2 mm. 4 with an optical fiber is referred to, which is loose in the tube lies.

1 Figure 7 claims

Claims (7)

Patent claims 1. Flame-retardant fiber optic cable with loosely sheathed Optical fiber, which does not show that the loose cover is made two extruded plastic layers with a tensile strength in between Fiber layer is formed. 2. Optical fiber cable according to claim 1, d a d u r c h g e k e n n z e 1 c h n e t that the inner and outer layers are formed from fluoropolymers is. 3. Optical fiber cable according to claim 1, d a d u r c h g e k e n It should be noted that the fiber layer is spun. 4. Optical fiber cable according to claim 1, d a d u r c h g e k e n n z e i c h n e t that the fiber layer is inserted axially parallel. 5. Optical fiber cable according to one or more of the preceding Claims, d a d u r c h e k e n n n z i c h -n e t, that in the loose cover several Optical fibers are arranged. 6. Optical fiber cable according to claim 5, d a d u r c h g e k e n nz e i c h n e t that the optical fibers are stranded. 7. Optical fiber cable according to one or more of the preceding Claims that the optical fibers are individually reinforced by solid plastic covers.