RU31681U1 - Combined cable for automation, telemechanics and communications - Google Patents

Description

Combined cable for automation, telemechanics and communications

The utility model relates to electrical engineering and can be used in the construction of cables for the construction of universal fiber-optic communication lines and means of automation and telemechanics in railway transport.

A known optical communication cable containing a central dielectric reinforcing element, on top of which superimposed dielectric modules with optical fibers with a hydrophobic filler, two perforated dielectric sheaths, armor, a metal sheath and an external polymer sheath (RF patent No. 2094869, class N 01 B 11/22 publ. 1997).

Such a cable allows to increase the corrosion resistance to lightning discharges, however, it is characterized by limited technological capabilities and insufficient power.

The closest known for its technical essence and the achieved result is a combined cable for automation, telemechanics and communications, selected as a prototype, containing insulated conductive conductors twisted around the cordele to form star quadruples, each of which is wrapped in a spiral with insulating tapes, optical modules and filling cords twisted around a power element, covered by an insulating sheath with hydrophobic filling and jointly twisted into a core laundry wrapped in insulating tapes and enclosed in an insulating sheath, as well as a copper control uninsulated conductor, a central corridor and a grounding conductor covered by an external insulating sheath (see RF certificate for utility model No. 22264, class N 01 B 7/04, publ. 2002).

However, such a cable also has relatively limited technological capabilities and insufficient protection from external influences.

The essence of the claimed utility model is striking in the aggregate of essential features sufficient to achieve the technical result provided by the proposed utility model, striving to expand technological capabilities by increasing the manufacturability and reliability of protection from various external influences.

The specified technical result is achieved by the fact that the cable is equipped with filling cords placed between the star quadruples and between the star fours and the insulating sheath of the optical modules, which are wrapped with insulating tapes, the copper control core is covered by insulation in the form of a layer of porous material or winding in the form of an insulating tape and, at least one insulated conductive core is made of insulation from solid material, and the other conductors have three-layer insulation with alternating layers of solid , Porous and solid material, wherein the center filling and strings are star quadruples and insulating tapes are made of water-blocking material.

Private essential features set forth in additional paragraphs of the claimed formula of the utility model, specify the various options for the structural implementation of the proposed cable.

The drawing shows a General view of a universal combination cable with optical fibers and copper conductors.

A universal combination cable designed for organizing technological communication and automation systems contains insulated conductive conductors 1 twisted around a corridor 2 to form star quadruples 3, each of which is wrapped in a spiral with insulating tapes, optical modules 4 and filling cordels 5 twisted around a power element 6, covered by an insulating shell with a hydrophobic filling, which is placed both in the star quadruples themselves and between them, and jointly twisted into the cable core, TED insulating ribbons enclosed in an insulating sheath, as well as control uninsulated copper wire 7, 8 and the string is central grounding conductor 9 covered by the outer insulating jacket 10.

The cable is also equipped with filling corridors 11 located between the star quadruples 3 and between the star quadruples and the insulating sheath of the optical modules 4, which are wrapped with insulating tapes, the copper control core 7 is covered by insulation in the form of a layer of porous material or winding in the form of an insulating tape, to a lesser extent, one insulated conductive core 1 is made with insulation from a continuous material, and the other veins have three-layer insulation with alternating layers of solid, porous and continuous material, At the same time, the central 8, filling 11 and corps of star quadruples 3 and insulating tapes are made of water blocking material 12.

The outer insulating sheath 10 of the cable consists of a dielectric coating 13, on top of which a power element 14 is made of polymer material, a belt insulation 15, a control 16 and an insulating grounding core 17, and a metal sheath 18 in the form of a 2-layer aluminum-polymer tape with a dielectric are applied insulation layer 19 and armor 20 of a 2-layer steel tape or corrugated steel tape, on top of which an additional dielectric coating is applied.

In special cases of constructive cable execution, a protective shield made in the form of a metal sheath or metal-polymer tape with a tinned copper grounding conductor can be applied over the core.

The armor placed on top of the insulating jacket of the cable core can be made in the form of corrugated steel tape or winding with two steel tapes.

outside covered with a bitumen layer. Armor can also be made in the form of corrugated steel-polymer tape.

The design works as follows.

The totality of the central dielectric element, the optical fibers in the dielectric tubes and the internal insulation coating is a cable dielectric optical core. Since the dielectric optical core is located under the inner metal sheath, it is not susceptible to the appearance of an electric arc between metal conductive elements, as well as to the effects of external electromagnetic fields, which allows to increase the shielding effect of isolated block-modular tubes and to exclude the possibility of electric breakdown as between block-modular tubes, and between block-modular tubes and shell.

Thus, due to the use of dielectric elements and armor, the electric and mechanical strength is increased, as well as the reliability and versatility of the cable, which ensures its widespread use in railway transport to organize reliable and uninterrupted operation of technological communications and automation systems in areas with electric and diesel traction .

Claims (7)

1. A combined cable for automation, telemechanics and communications, containing insulated conductive conductors twisted around a cornel with the formation of star fours, each of which is wrapped in a spiral insulating tapes, optical modules and filling cordes twisted around a power element, covered by an insulating shell with a hydrophobic filling and jointly twisted into the core of the cable, wrapped in insulating tapes and enclosed in an insulating sheath, as well as a copper control uninsulated conductor, The central core and the grounding conductor covered by an external insulating sheath, characterized in that the cable is equipped with filler corners placed between the star fours and between the four stars and the insulating sheath of the optical modules, which is wrapped with insulating tapes, the copper control core is covered by insulation in the form of a layer of porous material or windings in the form of an insulating tape and at least one insulated conductive core is made of insulation from a solid material, and the other conductors have three layer insulation with alternating layers of solid, porous and continuous material, while the central, filling corps of star quadruples and insulating tapes are made of water blocking material. 2. The cable according to claim 1, characterized in that the internal space between the star quadruples is filled with a hydrophobic filler. 3. The cable according to claim 1, characterized in that at least one pair of twisted insulated conductive conductors wrapped in insulating tape is inserted between the star fours. 4. The cable according to claim 1, characterized in that at least one insulating tape in the winding along the cable core is made of polymer material or paper. 5. The cable according to claim 1, characterized in that a protective shield is applied over the core, made in the form of a metal sheath or metal-polymer tape with a tinned copper grounding conductor. 6. The cable according to claim 1, characterized in that over the insulating sheath of the cable core, armor is applied, made in the form of a corrugated steel tape or winding with two steel tapes, externally coated with a bitumen layer. 7. The cable according to claim 6, characterized in that the armor is made in the form of corrugated steel-polymer tape.