RU115513U1 - CABLE OPTICAL DIELECTRIC, HEAT RESISTANT AND FIRE-SAFE - Google Patents

Abstract

1. An optical dielectric cable, heat-resistant and fireproof, containing one or more optical fibers in a buffer coating of silicone rubber, laid around a central power element, with concentric layers in the form of dense braids and sheaths successively applied over them, characterized in that the optical fibers have a multilayer heat-resistant protective coating made of carbon and a heat-resistant polymer selected from the group: polyimide, polyamidoimide, polyamide, polyetheretherketone and polyacrylate with an extended temperature range, located in a buffer coating made of silicone rubber, which forms a ceramic layer during exposure to flame and high temperatures, located around the central power element made of fiberglass rod, they have triple mechanical and fire protection in the form of two layers of braid made of glass fibers or basalt threads with an inner sheath made of ceramizing rubber located between them, and The outer shell is made of a heat-resistant fireproof polymer composition based on silicone rubber, polyetheretherketone, fire-resistant polyethylene or polypropylene. ! 2. A cable according to claim 1, characterized in that the central strength element is wrapped (wound) with a water-swellable element. ! 3. A cable according to claim 2, characterized in that a water-swellable tape is applied (wound) over the optical fibers under the braid of threads.

Description

The utility model relates to cable technology, namely, to the construction of optical cables intended for indoor installation at stationary objects with high security requirements, as well as moving objects of military and civilian equipment.

A known optical on-board heat-resistant cable containing three optical fibers in a common sheath of silicone rubber (Utility Model Patent of the Russian Federation No. 67295) and an optical fire-resistant and heat-resistant cable containing three optical fibers in a common inner sheath of silicone rubber over which reinforcing synthetic fibers are applied and the outer shell is made of silicone rubber, forming a ceramic layer in the process of flame exposure, over the outer shell a braid of glass fiber or metal cutting (utility model patent of the Russian Federation №67294).

These technical solutions are the closest to the proposed combination of features.

A disadvantage of the known cables is their low resistance to mechanical loads, insufficient protection of optical fibers with conventional protective coatings from high temperatures during operation, and the risk of degradation of coatings of OM during cable production under the influence of high-temperature technological processes (about 300 ° C) associated with being in a tunnel ovens.

The task was to develop a fireproof dielectric optical cable with an extended range of operating temperatures, resistance to bending and aggressive environments with small weight and size characteristics.

The technical result is achieved in that the optical cable contains heat-resistant optical fibers with a multilayer protective coating of carbon and a heat-resistant polymer selected from the group: polyimide, polyamidoimide, polyamide, polyetheretherketone and polyacrylate with an expanded temperature range, in a buffer coating made of silicone rubber, forming a ceramic layer in the process of exposure to flame and high temperatures, has a central reinforcing element and two braid layers of basalt or glass fiber d I increase the resistance to mechanical stress, to improve resistance to flame and high temperatures are layers of braided strands located between the inner sheath keramiziruyuscheysya rubber and a protective hose of fireproof resin composition based: silicone rubber, polyetheretherketone, fire resistant polyethylene or polypropylene.

The utility model is illustrated in the drawing, which shows a cable in section.

The optical dielectric cable is heat-resistant and fireproof contains heat-resistant optical fibers 1 in a buffer coating of ceramicizable organosilicon rubber 2, laid around a central power element 3 made of fiberglass, with concentric layers sequentially applied to the core in the form of a dense braid 4 of fiberglass or basalt threads, the inner shell of ceramizing rubber 5, the braid 4 of fiberglass or basalt threads and the outer shell of heat-resistant 6 robezopasnogo polymer.

The following is evidence of the industrial applicability of the utility model.

In the manufacture of the cable using well-known materials manufactured on an industrial scale. The cable fabrication technology includes the operation of applying a protective buffer coating 2 to the optical fibers 1, twisting the optical fibers in the buffer coating into the core around the central power element, applying 2 layers of braid from the threads and applying between these layers the inner shell of their ceramicizing rubber, applying the outer shells made of heat-resistant fireproof polymer. The buffer coating 2 and the inner shell 5 are applied on special extrusion equipment with subsequent vulcanization in a tunnel kiln. The operation of braiding glass fiber 4 is performed on a braiding machine. The outer shell 6 is applied on extrusion equipment, allowing the cylinder to be heated to a temperature of 400 ° C.

Characteristics of a cable of optical dielectric heat-resistant and fireproof:

- resistance to temperature during operation in the range from minus 60 ° C to 200 ° C;

- resistance to tensile load not less than 500 N;

- resistance to bending with a radius equal to 15 cable diameters;

- non-proliferation of combustion;

- non-toxicity;

- resistance to ammonia (with a concentration of 1000 mg / m ³ for 10 days), ozone (with a concentration of 250 mg / m ³ for 2 hours), nitrogen dioxide (with a concentration of 100 mg / m ³ for 10 days), mold fungi.

Claims (3)

1. The optical dielectric cable, heat-resistant and fireproof, containing one or more optical fibers in a buffer coating of silicone rubber, laid around a central power element, with concentric layers sequentially applied over them in the form of dense braids and sheaths, characterized in that the optical fibers have multilayer heat-resistant protective coating of carbon and a heat-resistant polymer selected from the group: polyimide, polyamidoimide, polyamide, polyetheretherketone and expanded polyacrylate temperature range, located in a buffer coating made of silicone rubber, forming a ceramic layer in the process of exposure to flame and high temperatures, located around a central power element made of fiberglass, have triple mechanical and fire protection in the form of two layers of braid made of fiberglass or basalt threads with an inner shell of ceramicizable rubber located between them, and the outer shell is made of a heat-resistant fireproof polymer com ozitsii based on silicone rubber, polyetheretherketone, fire resistant polyethylene or polypropylene. 2. The cable according to claim 1, characterized in that the central power element is wrapped (wrapped) with a water swelling element. 3. The cable according to claim 2, characterized in that a water-swelling tape is applied (wound) over the optical fibers under a braid of threads.