RU190410U1 - Electro-optic cable - Google Patents

Abstract

The utility model relates to cable technology and can be used primarily for cables used for the simultaneous transmission of data via optical fibers and electrical energy via electrical wires. The technical result consists in expanding the arsenal of technical means that can be used for the simultaneous transmission of optical information signals and electrical energy or electrical signals through a single cable while simultaneously increasing the durability and reliability of an electro-optical cable, is achieved in an electro-optical cable covered with an external protective sheath and containing two insulated conductors, as well as a fiber-optic module with optical fibers, inter-insulated two conductive wires, and two power elements in the form of rods of durable insulating material, installed along the fiber-optic module, made in the form of optical fibers enclosed in a reinforcing modular tube, placed in a hydrophobe, and an intermediate insulating sheath in which the fiber-optic module is enclosed and rods of durable insulating material, with rods of durable insulating material installed close to the fiber-optic module, and insulated conductors , mounted close to the outer surface of the intermediate insulating sheath, are placed alternately through equal central angles relative to the longitudinal axis of the electro-optical cable. 3 hp f-ly, 1 ill.

Description

The utility model relates to cable technology and can be used primarily for cables used for the simultaneous transmission of data via optical fibers and electrical energy via electrical wires.

Known cable [US 2011/0011617, Al, H01B 7/08, 11.01.2008], made of twisted together insulated aluminum wires of large cross section, moreover, the neutral conductor is made of reinforced aluminum, including with reinforcing steel wires, and Light-stabilized cross-linked polyethylene is used as a protective insulating sheath in such cables.

The disadvantage of this technical solution is relatively narrow functionality, since when performing the function of transmission of electrical energy does not provide the function of information transfer.

The closest in technical essence to the proposed is a cable [RU 74004, U1, H01B 9/00, 10.06.2008], containing conductor wires laid in parallel in one plane or twisted among themselves, covered with plastic or rubber insulation and enclosed in a corrosion-resistant tape armor, in this case, in the spaces between the veins are laid one or more optical modules, each of which is a bundle of fiber-optic fibers placed inside the polymer shell.

The disadvantage of the closest technical solution is the relatively low reliability under the influence of significant mechanical and thermal loads that occur during operation, for example, with the joint transmission of electrical energy and information via an electro-optical cable. This is caused, for example, by the fact that corrosion-resistant tape armor, conductive wires and optical modules, each of which is a bundle of optical fiber fibers, have different characteristics in terms of flexibility, strain resistance, coefficients of thermal expansion, etc. However, twisting them or placing the optical fibers directly between the conductive wires can cause undesirable deformations, which degrades the performance of cables in terms of reliability and durability.

The task of the utility model is to create an electro-optical cable that can be used to simultaneously transmit optical information signals and electrical energy through a single cable, and characterized by increased durability and reliability under the conditions of possible temperature and mechanical effects.

The technical result achieved in the implementation of the utility model is to expand the arsenal of technical means that can be used to simultaneously transmit optical information signals and electrical energy or electrical signals through a single cable while simultaneously increasing the durability and reliability of the electro-optical cable.

The problem is solved, and the required technical result is achieved by the fact that an electro-optical cable, covered with an external protective sheath and containing two insulated conductors, as well as a fiber-optic module with optical fibers, laid between insulated conductors, according to the utility model, two power elements are introduced in the form of rods of durable insulating material installed along the fiber-optic module, made in the form of prisoners in a reinforcing modular tube optical fibers, placed in a hydrophobe, as well as an intermediate insulating sheath, which encloses a fiber-optic module and rods of durable insulating material, while rods of durable insulating material, installed close to the fiber-optic module, and insulated conductors installed adjacent to the outer surface of the intermediate insulating sheath, alternately placed through equal central angles relative to the longitudinal axis of the electro-optical cable.

In addition, the required technical result is achieved by the fact that the rods are made either of fiberglass, or of aramid yarns, or polyester yarns, or of glass roving.

In addition, the required technical result is achieved by the fact that the number of optical fibers in a fiber-optic module can be from 1 to 8.

In addition, the required technical result is achieved by using copper conductors with a cross-sectional area of 0.5-2.5 mm ² as the current-carrying conductors.

The drawing shows an electro-optical cable.

The electro-optical cable is covered with an external protective sheath 1 made of non-combustible halogen-free polyethylene or polymer of predominantly high density and contains two insulated conductors 2, as well as a fiber-optic module 3 with optical fibers, laid between insulated conductors 2.

In addition, the electro-optical cable contains two power elements in the form of rods 4 of durable insulating material, for example, fiberglass, aramid yarn, polyester yarn or glass roving, installed along the fiber-optic module 3, made in the form of prisoners in a reinforcing modular tube optical fibers placed in a hydrophobe.

In the electro-optical cable there is also an intermediate insulating sheath 5, which encloses the fiber-optic module 3 and rods 4 of durable insulating material.

A feature of the electro-optical cable is that the rods 4 of durable insulating material, mounted close to the fiber-optic module, and insulated conductors installed close to the outer surface of the intermediate insulating sheath, are alternately placed through equal central angles relative to the longitudinal axis of the electro-optical cable.

The number of optical fibers in a fiber-optic module can be from 1 to 8; copper conductors with a cross-sectional area of 0.5-2.5 mm ² are used as conducting veins.

Used electro-optical cable as follows.

The proposed electro-optical cable is used for simultaneous transmission of data via optical fibers and electrical energy or electrical signal through electrical conductors. It is covered with an outer protective sheath and contains two insulated conductors, as well as a fiber optic module with optical fibers, laid between insulated conductors.

The peculiarities of the electro-optical cable is that it uses two power elements in the form of rods of durable insulating material, installed along the fiber-optic module, made in the form of optical fibers enclosed in a reinforcing modular tube, placed in a hydrophobe.

In addition, it uses an intermediate insulating sheath, which encloses the fiber-optic module and rods of durable insulating material. At the same time, rods of durable insulating material, mounted close to the fiber-optic module, and insulated conductors installed close to the outer surface of the intermediate insulating sheath, are alternately placed through equal central angles relative to the longitudinal axis of the electro-optical cable.

This design of the electro-optical cable eliminates the twisting or placement of optical fibers directly between the conductive wires, which can cause undesirable deformations and that degrades the performance of cables in terms of reliability and durability. This significantly increases the resistance of the cable under the influence of moisture, temperature fluctuations and mechanical effects, which provides increased durability and reliability of the electro-optical cable. This achieves the required technical result.

Claims (4)

1. Electro-optical cable, covered with an external protective sheath and containing two insulated conductors, as well as a fiber-optic module with optical fibers, laid between insulated conductors, characterized in that two power elements are introduced in the form of rods of durable insulating material installed along fiber-optic module made in the form of optical fibers enclosed in a reinforcing modular tube, placed in a hydrophobe, as well as an intermediate insulating sheath, which encloses a fiber-optic module and rods of durable insulating material, while rods of durable insulating material installed close to the fiber-optic module, and insulated conductors installed close to the outer surface of the intermediate insulating sheath are alternately placed through equal central corners relative to the longitudinal axis of the electro-optical cable. 2. Electro-optical cable according to claim 1, characterized in that the rods are made of either fiberglass, or aramid yarns, or polyester yarns, or glass roving. 3. Electro-optical cable under item 1, characterized in that the number of optical fibers in a fiber-optic module can be from 1 to 8. 4. Electro-optical cable according to Claim. 1, characterized in that copper conductors with a cross-sectional area of 0.5-2.5 mm ² are used as conductor cores.

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