PL237641B1 - Single-core cable with optical fiber with two-parameter monitoring - Google Patents

Description

Description of the invention

The subject of the invention is a single-core cable with optical fiber with two-parameter monitoring.

Known are single-core cables consisting of an insulation shell, a return conductor in the form of a layer of spiral wound metal wires, insulation and a working conductor.

Patent description PL222818B describes a single-core cable with copper conductors with polyethylene insulation, with a return conductor made of a metal strip arranged longitudinally and a coating made of thermoplastic or other materials, consisting of a working conductor, a conductor screen, insulation and a shield on the insulation and a semi-conductive tape intumescent, spirally arranged on the insulation screen, longitudinally arranged metal tape with an overlap, which is glued with a thermoplastic adhesive with the coating.

From the patent description PL225986B, a shielded power cable is also known, in which a single-wire metal core is placed between individual metal screens, and at least one optical fiber is placed inside the metal single-wire core.

Single core cable with optical fiber consisting of coaxial layers; an insulation shell, a return conductor in the form of a layer of metal wires wound in a spiral, insulation and a working conductor characterized in that at least two tubes with optical fibers are wound in the return conductor layer in such a way that the angular distance a between the axis of the first tube with optical fibers and the second the tube is greater than 120 ° and less than 240 °. Such a location of optical fiber tubes in the layer of the return conductor ensures that the measurement and information continuity of the optical fibers is maintained due to the direction and extent of damage related to the occurrence of a short circuit in the cable. The presence and positioning of the at least two tubes also ensures the exact location of the breakdown point and potential cable damage from impact or overheating.

The cable preferably comprises a third tube on an angular axis from the second tube comprised between 150 ° and 240 ° with respect to the axis of the first tube.

It is preferred that at least one multi-mode and / or one single-mode optical fibers are present in each optical fiber tube.

Preferably, the outer surface of the cable is dispersed or localized with reflective, fluorescent or magnetic substances permanently attached to the coating by means of extrusion or layering.

An advantageous feature of the power cable according to the invention is that in the event of partial damage to the cable caused by internal or external factors, the cable still allows measurement or information data to be transmitted.

The invention is explained in more detail in the embodiment and in the drawing, in which Fig. 1 shows a cross-section through a cable with two optical tubes with optical fibers, and Fig. 2 shows a cross-section through a cable with three optical tubes with optical fibers.

P r z k ł a d 1

As shown in Fig. 1, the cable consists of several coaxial layers; from the insulating shell (1), the return conductor (2) in the form of a layer of spiral wound metal wires, insulation (3) and the working conductor (4). In the layer of the return conductor, there are two tubes with optical fibers. the first tube (5a) and the second tube (5b). The tubes are arranged with respect to each other in such a way that the second tube (5b) is positioned at an angle comprised between 120 ° - 240 ° with respect to the axis of the first tube (5a).

P r z k ł a d 2

As shown in Fig. 2, the cable consists of several coaxial layers; from the insulating shell (1), the return conductor (2) in the form of a layer of spiral wound metal wires, insulation (3) and the working conductor (4). In the layer of the return conductor, 3 tubes with optical fibers are arranged in such a way that the second tube (5b) is arranged at an angular distance of 145 ° from the first (5a), and the third tube (5c) with the optical fiber is located along the axis of the angle of 200 °, i.e. 55 ° from the axis of the second tube (5b).

Claims (7)

1. Single core cable with optical fiber consisting of coaxial layers; an insulation shell, a return conductor in the form of a layer of metal wires wound in a spiral, insulation and a working conductor characterized in that at least There are two optical fiber tubes in such a way that the angular distance a between the axis of the first optical tube and the second tube is greater than 120 ° and less than 240 °. 2. Cable according to claim The method of claim 1, characterized in that it comprises a third tube on an angular axis from the second tube comprised between 150 ° and 240 ° with respect to the axis of the first tube. 3. Cable according to claim The method of claim 2, characterized in that at least one multimode and / or one single-mode, preferably at least one multimode and one single-mode optical fibers are inserted in each optical fiber tube. 4. Cable according to p. The method of claim 3, characterized in that reflective, fluorescent or magnetic substances are dispersed or localized on the outer surface of the cable. 5. Cable according to claim 4. The method of claim 4, characterized in that a strip of reflective, fluorescent or magnetic material is formed on the surface of the sheath or sheath along the length of the cable, permanently attached to the sheath by means of embossing or layering. 6. Cable according to p. 5. A method according to claim 5, characterized in that two non-wide information strips are provided on the surface of the sheath or sheath along the length of the cable, that the cable comprises 2 different measuring systems in situ, the distance between the strips preferably equals the width of the strips between 3 and 8 mm. 7. Cable according to p. 6. The method according to claim 6, characterized in that the strips are yellow in color, preferably containing a reflective, fluorescent or magnetic material permanently attached to the coating in a laminated manufacturing process.