RU48667U1 - COMBINED LOAD CARRYING MARINE CABLE - Google Patents

Abstract

The utility model relates to cable technology, namely to load-carrying marine cables. The cable contains a central power element made of aramid filaments in a polyethylene sheath, around which copper conductive cores insulated with polyethylene insulation are twisted and an optical module in the form of a polymer tube inside which an optical fiber is located. The intramodular space is filled with a hydrophobic aggregate, and the space between the conductive conductors is sealed. The cable contains a common sheath of the polymer composition. The technical result is an increase in the mechanical strength of the cable and the expansion of its functionality.

Description

The utility model relates to cable technology, namely, to the designs of marine cargo cables intended for connecting and suspending underwater vehicles, devices, lowering systems, towing objects behind a towing vessel.

A marine load-carrying cable is known, containing a central power element made of lavsan fiber, around which copper conductive conductors of different sections with insulation made of a polyethylene composition are twisted, and a sheath of thermoplastic polymeric material (Flexible load-bearing cable, grade KGPV-36-20. TU 16-705.412- 86).

This technical solution is the closest to the proposed combination of features.

Known cable is designed to transmit electrical signals in sea water and air. This cable has insufficient mechanical properties in the field.

The task was to develop a load-bearing marine cable with high mechanical characteristics while expanding its functionality.

The technical result is achieved by the fact that a load-carrying marine cable containing a central power element around which copper conductive conductors of different sections are twisted, each of which is coated with insulation from a polyethylene composition, and the protective sheath made of thermoplastic material located on top of them is additionally equipped with an optical module in the form of a polymer tube inside of which at least one optical fiber is located, the intramodular space is filled with a hydrophobic filler, and the space your between conductive conductors sealant, and the central

the power element is made of aramid threads in a shell of a polyethylene composition.

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

The cargo-carrying marine cable contains a central power element 1 with a fastening tape 2 and a sheath 3 of copper conductive conductors 4 coated with insulation 5, an optical module in the form of a polymer tube 6, in which an optical fiber 7 and a hydrophobic filler 8, a fastening tape 9, a protective sheath 10 are placed , under which the space between the conductors is filled with sealant 11.

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. For the manufacture of a central power element, in particular, RUSAR aramid threads can be used. Design differences do not make any significant changes to the manufacturing technology of the cable itself, which boils down to the following. The overlay 3 on the central power element 1, insulation 5 on the conductive wires 4 and on top of them a protective sheath 10 is carried out on standard extrusion equipment. The application of a protective coating in the form of a tube 6 on an optical fiber 7 with the simultaneous supply of an intra-modular hydrophobic aggregate 8 is carried out on a standard extrusion line. The twisting of the optical module and insulated conductive conductors with the simultaneous application of sealant 11 is carried out on a machine belonging to the classical type of unidirectional twisting machines, which includes a tape wrapping device that provides winding of the twisted cable workpiece with a fastening tape 9.

Resistance to increased tensile force of the combined load-carrying marine cable provides a central force element made of aramid yarns with well-balanced physical and chemical properties. Tensile tests showed that aramid yarns are able to withstand large longitudinal loads with low elongation (50 times less) than dacron yarns with the same loads.

Claims (1)

A load-carrying marine cable containing a central power element, around which copper conductive conductors of different sections are twisted, each of which is covered with insulation from a polyethylene composition and a protective sheath made of thermoplastic material located on top of them, characterized in that it is additionally equipped with an optical module in the form of a polymer tube, inside of which at least one optical fiber is located, the intramodular space is filled with a hydrophobic filler, and the space between the conductors as coming sealant conductors and the central strength member is made of aramid yarns coated polyethylene composition.