RU93179U1 - COMBINED COMMUNICATION CABLE (OPTIONS) - Google Patents

Abstract

 1. A combined communication cable, including a core, conductive metal insulated conductors, a central power element, optical modules and core filler, waist insulation, a shield, an inner sheath, a protective cover, an outer sheath and a contact wire, characterized in that the four conductive insulated conductors are twisted four around the central power element, while the conductive wires are made of oxygen-free copper, and their insulation is made of polyethylene or a foamed three-layer floor ethylene, the central power element is made of polyethylene or fiberglass, each of the four optical modules is made of a polybutylene terephthalate composition and contains from 8 to 10 optical fibers freely laid in them and filled with a hydrophobic filler, and water-blocking tapes or threads are used as core filler on top of the core belt insulation of polyethylene or polyethylene butyl rubber is applied, then a screen is applied longitudinally or spirally with overlapping of aluminum-polyethylene tape, inner Thread shell is made of polyethylene or polyethylene butyl rubber, a protective cover is made of steel or galvanized steel armoring tape wires, and the outer shell - of light-stabilized high density polyethylene or halogen-free composition and flame retardant. ! 2. Combined communication cable, including core, conductive metal insulated conductors, central power element, optical modules and core filler, waist insulation, shield, inner sheath, protective cover, outer

Description

The utility model relates to the cable industry, namely, to the designs of combined communication cables intended for use on digital subscriber access networks with distributed capacity of subscribers along the route to ensure the operation of broadband access equipment in pairs with copper conductors and to create a transit transport network on optical cables .

A combination cable is known for technological communication systems and automation, containing even shielded even-sized insulated shielded conductors enclosed in an insulating sheath, a central reinforcing bearing core and an insulating earthing conductor, equipped with optical modules located between insulated shielded conductors twisted around a fiberglass or polyethylene core and covered by an isolated shell with a hydrophobic aggregate with the formation of modular segments evenly th quantity twisted around the central bearing core, which are covered by an insulating sheath. The number of optical modules is even. The insulating shell consists of a dielectric coating, on top of which a copper control core is applied, as well as a metal shell with a dielectric insulation layer placed with a technological gap, a water blocking tape, a polymer shell and armor made in the form of a corrugated steel tape, on top of which an additional dielectric coating is applied (see RF patent No. 22264 "Combined cable for communication systems and automation", publ. March 10, 2002)

The closest technical solution to the proposed cable options is a combined cable for automation, telemechanics and communications, containing insulated conductive wires twisted around the corridor with the formation of star quadruples, each of which is wrapped in a spiral insulating tapes, optical modules and filling cordes twisted around the power elements covered by an insulating sheath with hydrophobic filling and jointly twisted into the core of the cable, wrapped in insulating tapes and ennye in an insulating sheath, as well as control uninsulated copper wire, central conductor and a grounding string is covered by an insulating outer sheath. The cable is equipped with filling cords located between the star quadruples and between the star quadruples 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 the core is made of solid material insulation, while the other veins have three-layer insulation with alternating layers of solid, porous and solid material, with the central th string is filling the strings are stellar fours and insulating tapes are made of water-blocking material. The inner space between the star fours is filled with a hydrophobic filler. Between the star fours, at least one pair of twisted insulated conductive conductors wrapped in insulating tape is inserted. A protective shield is made over the core, made in the form of a metal shell or metal-polymer tape with a tinned copper grounding conductor. On top of the insulating sheath of the cable core, armor is made in the form of a corrugated steel tape or winding with two steel tapes, outside coated with a bitumen layer. The armor is made in the form of corrugated steel-polymer tape. (see RF patent No. 31681 "Combined cable for communication systems and automation", publ. March 10, 2002)

One of the main disadvantages of the known combined communication cables is the impossibility of their use on digital subscriber access networks with distributed capacity of subscribers and the creation of a transit transport network on optical cables.

This utility model is based on the task of creating a combined communication cable with enhanced functionality both for use on digital subscriber access networks with a distributed capacity of subscribers along the route for the reliable operation of broadband access equipment in pairs with copper conductors, and for a transit transport network optical cables.

The technical result consists in expanding the functionality and ensuring the operational reliability of the digital and transit transport communication networks.

The technical result is achieved by the fact that in a combined communication cable for laying in the ground, including the core, conductive metal insulated conductors, a central power element, optical modules and core filler, waist insulation, shield, inner sheath, protective sheath, outer sheath and contact wire, four conductive insulated conductors are twisted in a four around the central power element, while the conductive conductors are made of oxygen-free copper, and their insulation is made of of polyethylene or foamed three-layer polyethylene, the central power element is made of polyethylene or fiberglass, each of the four optical modules are made of polybutylene terephthalate composition and contain from 8 to 10 optical fibers freely laid in them and filled with a hydrophobic filler, and water-blocking tapes are used as core filler or filaments, belt insulation made of polyethylene or polyethylene butyl rubber is applied over the core, then a screen is applied longitudinally or spirally with overlapping with aluminum-polyethylene tape, the inner shell is made of polyethylene or butyl rubber, the protective cover is made of steel armor tape or galvanized steel wires, and the outer shell is made of light-stabilized high-density polyethylene or a halogen-free composition that does not spread combustion.

The technical result is achieved by the fact that in a combined communication cable for suspension on the supports of overhead communication lines (VLS), including a core, conductive metal insulated conductors, a central power element, optical modules and core filler, waist insulation, screen, inner shell, protective cover, the outer sheath and the contact wire, four conductive insulated conductors are twisted into a four around the central power element, while the conductive conductors are made of oxygen-free copper, and x insulation is made of polyethylene or foamed three-layer polyethylene, the central power element is made of polyethylene or fiberglass, each of the four optical modules are made of polybutylene-terephthalate composition and contain from 8 to 10 optical fibers freely laid in them and filled with a hydrophobic filler, and as a core filler water-blocking tapes or threads were used, belt insulation made of polyethylene or butyl rubber was applied over the core, then a longitudinal screen was applied but or spirally with an overlap of aluminum-polyethylene tape, the inner shell is made of polyethylene or butyl rubber polyethylene, the protective cover is made of Kevlar threads, and the outer shell is made of high-density light-stabilized polyethylene or a halogen-free composition that does not spread combustion.

The main distinguishing feature of the proposed combination cable options is their design and the combination of various polymers and materials used for the structural elements of the cable.

The applicant does not know the design of combined communication cables, representing the totality of all the features characterizing these options for a utility model, which indicates the novelty of the claimed objects.

The proposed design of the proposed options for a utility model is illustrated in the drawing, which shows a combined communication cable.

The combined communication cable for laying in the ground contains four conductive metal insulated conductors 1, the insulation 2 of which is made of polyethylene or foamed three-layer polyethylene, the central power element 3, four optical modules 4, the core of the cable is filled with filler 5, belt insulation is applied over the core 6, shield 7, inner sheath 8, protective cover 9, outer sheath 10. The cable contains a contact wire 11.

The conductive insulated conductors 1 are twisted into a four around a central power element 3 made of polyethylene or fiberglass, while the conductive conductors 1 are made of oxygen-free copper. Each of the four optical modules 4 is made of a polybutylene terephthalate composition and contains from 8 to 10 optical fibers freely laid in them and filled with a hydrophobic filler.

As a core filler 5, water blocking tapes or threads are used. Belt insulation 6 is made of polyethylene or polyethylene butyl rubber. The screen 7 is applied longitudinally or spirally with overlapping and is made of aluminum-polyethylene tape. The inner shell 8 is made of polyethylene or polyethylene butyl rubber.

The protective cover 9 is made of steel armor tape or steel galvanized wires, and the outer sheath 10 is made of light-stabilized high-density polyethylene or a halogen-free composition that does not spread combustion.

A distinctive feature of the combined communication cable for VLANs is the implementation of a protective cover 9 of Kevlar filaments of multidirectional coils.

The proposed options for a combined communication cable meet the patentability criterion of "industrial applicability", since their implementation is possible on the basis of well-known equipment, materials and technologies existing in the cable industry.

The proposed design solutions made it possible to create two variants of a combined communication cable for laying in the ground and VLANs, intended for use on digital subscriber access networks with a distributed capacity of subscribers along the route and a transit transport network on optical cables, which will ensure reliable operation of the equipment, as for broadband access, and transit transport network, and as a whole can improve the reliability and quality of communication lines.

Claims (2)

1. A combined communication cable, including a core, conductive metal insulated conductors, a central power element, optical modules and core filler, waist insulation, a shield, an inner sheath, a protective cover, an outer sheath and a contact wire, characterized in that the four conductive insulated conductors are twisted four around the central power element, while the conductive wires are made of oxygen-free copper, and their insulation is made of polyethylene or a foamed three-layer floor ethylene, the central power element is made of polyethylene or fiberglass, each of the four optical modules is made of a polybutylene terephthalate composition and contains from 8 to 10 optical fibers freely laid in them and filled with a hydrophobic filler, and water blocking tapes or threads are used as core filler, on top of the core belt insulation of polyethylene or polyethylene butyl rubber is applied, then a screen is applied longitudinally or spirally with overlapping of aluminum-polyethylene tape, inner Thread shell is made of polyethylene or polyethylene butyl rubber, a protective cover is made of steel or galvanized steel armoring tape wires, and the outer shell - of light-stabilized high density polyethylene or halogen-free composition and flame retardant. 2. Combined communication cable, including core, conductive metal insulated conductors, central power element, optical modules and core filler, waist insulation, shield, inner sheath, protective sheath, outer sheath and contact wire, characterized in that the four conductive insulated conductors are twisted four around the central power element, while the conductive wires are made of oxygen-free copper, and their insulation is made of polyethylene or a foamed three-layer floor ethylene, the central power element is made of polyethylene or fiberglass, each of the four optical modules is made of a polybutylene terephthalate composition and contains from 8 to 10 optical fibers freely laid in them and filled with a hydrophobic filler, and water blocking tapes or threads are used as a hydrophobic core filler, on top core insulation is made of polyethylene or butyl rubber, then the screen is longitudinally or helically superimposed with an overlap of aluminum-polyethylene l enty, the inner shell is made of polyethylene or polyethylene butyl rubber, the protective cover is made of Kevlar threads, and the outer shell is made of light-stabilized high-density polyethylene or a halogen-free composition that does not spread combustion.