FI75685B - ELDBESTAENDIG OPTISK TELEKOMMUNIKATIONSKABEL. - Google Patents

Abstract

1. An optical fire-resistant communication cable having at least one fibre suitable for optical communication, the optical fibre being surrounded by a sheath of plastics material and the cable containing supporting and/or stress relief reinforcements, characterised in that the fibre sheath (2), the supporting and/or strength reinforcements (3, 4, 5) and the outer cable sheathing (6) consist of a halogenfree, non-crosslinked polyolefin copolymer mixture with flexible properties which does not drip in the event of fire and is filled in a flame-resistant manner, the flame-resistant fillers consisting of 120 - 600 parts of metal hydroxide to 100 parts of polymer.

Description

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Fireproof optical communication cable

The invention relates to an optical telecommunication cable which is refractory and which is provided with at least one fiber suitable for data transmission, the optical fiber being surrounded by a plastic sheath and the cable comprising fastening and / or strain relief elements.

Such cables are known which contain fire-resistant components such as polyethylene, poly-10 propylene, wool or the like. On the other hand, such cables are already provided with refractory but halogen-containing materials, for example a cable sheath of polyvinyl chloride.

In the case of cables with fire-resistant components, there is a risk that the cables will also catch fire in the event of a fire. The use of halogen-containing materials releases corrosive decomposition results and, in the event of a fire, leads to strong smoke formation and the evolution of corrosive gases. Moreover, such cables, e.g. those containing PVC, have no or insufficient durability properties because PVC drips in the event of a fire, so they cannot withstand more intense fire tests such as bundle tests in a shaft furnace.

The object of the invention is to provide an optical data traffic cable which is very resistant in the event of a fire and from which no corrosive gases worth mentioning are emitted in such a case.

According to the invention, this object is achieved in that the fiber sheath and the fastening and / or strain relief reinforcements and the outer sheath of the cable are a halogen-free, fire-retardant, refractory-filled polyolefin copolymer blend with flexible properties, the refractory fillers consisting of 35,120 to 600 parts metal oxide hydrate per 100 parts of polymer.

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Cables designed in accordance with the invention have durability properties that meet the relevant regulations. That is, they allow optical transfers for 20 minutes, preferably 60 minutes, and 5 minutes, respectively, in a test performed at 800 ° C. In addition, they also withstand tougher fire tests, i.e. vertical bundle tests in shaft furnaces.

Suitable halogen-free, refractory materials are, for example, refractory EVA copolymers, ethylene-butyl acrylate (EBA) or ethylene-ethyl acrylate (EEA) with the addition of other polymers and metal oxides separating water in a fire, such as AllOH) and Mg ( OH) 2, possibly also inert gas (CO 2, N 2) scavengers such as metal carbonates MgCO 2 and

CaCO ^. Of course, other substances can also be used, for example anti-aging agents, inorganic and organic fillers, pigments, lubricants, etc.

The mixtures contain 120 to 600 parts, preferably 180 to 20 300 parts of metal oxide hydrates, based on 100 parts of polymers. They are non-crosslinked thermoplastic.

A fibrous sheath of such a material can then be fixedly fitted to the optical fiber or fibers or loosely extruded thereon.

The invention is explained below in connection with two exemplary cable drafts.

In this case, Fig. 1 shows a cross-section of a light wave conductor cable provided with a fastening coil and a strain relief strip, and Fig. 2 shows a cross-section of an LWL cable provided with thread-like strain relief means.

In connection with the optical cable according to Figure 1, the glass fiber 1 is provided with a sheath 2 in the form of a hose 35 of a refractory and halogen-free polyolefin copolymer mixture.

The fastening coil 3 consists of a combination of spun mineral 3 75685 wool and glass fiber, which is also refractory and halogen-free. The fastening coil 3 can also be made of, for example, alumina-based ceramic fibers or similar materials.

The fastening coil 3 and the glass fiber 1, including its sheath 2, are surrounded by a synthetic hose 4, the starting material of which is likewise based on a refractory and halogen-free polyolefin copolymer blend.

The active material hose 4 is followed by a concentrically surrounding strain relief strip 5, which is a fiberglass-reinforced active material which is likewise refractory and halogen-free. The outer cable sheath 6 surrounding the strain relief strip 5 is a synthetic sheath which is a refractory and halogen-free polyolefin copolymer blend.

15 It is common ground that an optical communication cable, the individual components of which are made of the abovementioned materials, is highly resistant in the event of fire. Therefore, the use of such a cable is particularly suitable, in particular, for trains, tunnels and structures.

The optical cable shown in Fig. 2 comprises one light waveguide with a glass fiber 7 without a synthetic sheath. The halogen-free, refractory layer 8 is in this case immediately and fixedly applied to the fiber 7. The glass fiber 7 with its cover 8 is surrounded by a refractory polyolefin copolymer blend hose 9.

Concentrated with respect to the hose 9, strain relief strands 10 of fiberglass and / or mineral wool or alumina-based ceramic fibers 30 are arranged.

The optical communication cable according to the invention is usable everywhere in the event of a fire due to its particularly good durability properties, in particular it is unnecessary to take into account special precautions.

Claims (12)

A refractory optical communication cable provided with at least one fiber (1) suitable for optical communication, the optical fiber being surrounded by a plastic sheath (2) and the cable comprising reinforced fastening and / or strain relief elements (3, 4, 5) , characterized in that the fiber sheath (2) and the fastening and / or strain relief reinforcements (3, 4, 5) as well as the outer sheath (6) of the cable 10 are a halogen-free, fire-retardant, refractory-filled polyolefin copolymer blend with flexible properties, the refractory fillers consist of 120 to 600 parts of metal oxide hydrate per 100 parts of polymer. Refractory optical telecommunication cable according to Claim 1, characterized by the use of alumina hydrate and / or magnesium hydroxide as refractory fillers. Refractory optical telecommunication cable according to Claim 1 or 2, characterized by the use of other fillers which decompose a gas which is inert to the fire, for example N2, CO2. Refractory optical telecommunication cable according to Claim 3, characterized in that magnesium carbonate and / or calcium carbonate are used as inert gas-dispersing fillers. 4,75685 Refractory optical telecommunication cable according to one of Claims 1 to 4, characterized by the use of one or more refractory ethylene vinyl acetate (EVA) copolymers. Refractory optical telecommunication cable according to one of Claims 1 to 4, characterized by the use of ethylene butyl acrylate (EBA) and / or ethyl ethylene acrylate (EEA) alone or in a mixture. Fire-resistant optical telecommunication cable according to one of Claims 1 to 6, characterized in that a sheath of optical fiber of halogen-free, refractory material is fixedly arranged on the fiber. Fire-resistant optical telecommunication cable according to one of Claims 1 to 6, characterized in that the sheath of the optical fiber of halogen-free, refractory material is extruded extruded onto the fiber. Fire-resistant optical telecommunication cable according to one of Claims 1 to 8, characterized in that it comprises a fastening coil (3) which is spun mineral wool / glass fiber. Refractory optical telecommunication cable according to Claim 9, characterized in that the fastening coil (3) is made of alumina-based ceramic fibers. Refractory optical telecommunication cable according to one of Claims 1 to 8, characterized in that it comprises strain relief strands (10) which are made of glass-fiber-reinforced plastic. Refractory optical telecommunication cable according to Claim 11, characterized in that alumina-based ceramic fibers are selected as the material for the strain relief strands (10). 75685