RU22264U1 - COMBINED CABLE FOR COMMUNICATION AND AUTOMATION SYSTEMS - Google Patents

Abstract

1. A combined cable for technological communication systems and automation, comprising an even number of insulated shielded conductors enclosed in an insulating sheath, a central reinforcing bearing core and an insulating earth conductor, characterized in that it is equipped with optical modules located between insulated shielded conductors twisted around the supporting core made of fiberglass or polyethylene cordell and covered by an insulated sheath with a hydrophobic aggregate to form modular an even number of segments twisted around a central support core, which are covered by insulating obolochkoy.2. The cable according to claim 1, characterized in that the number of optical modules is even. The cable according to claim 1, characterized in that the insulating sheath consists of a dielectric coating over which a copper control core is applied, as well as a metal sheath with a dielectric insulation layer, a water blocking tape, a polymer sheath and armor made in the form of corrugated steel tapes over which an additional dielectric coating is applied.

Description

Combined cable for communication systems and cars.

The utility model relates to electrical engineering and can be used in the construction of optical cables for the construction of universal cables ans110рте;

A well-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 a non-sealed polymer sheath (RF patent No. 2094869, class N 01 B 11/22 publ. 1997).

Such a cable makes it possible to increase the corrosion resistance to lightning discharges, however, it has been limited by limited technological capabilities and insufficient power.

The closest known for its technical essence and the achieved result is a combination cable selected as a prototype, containing even shielded insulated shielded wires of even quantity enclosed in an insulating sheath, a central reinforcing bearing core and an insulating ground conductor (see RF patent No. 1686484, class H 01 B 7/04, publ. 1991).

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

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

The claimed combination of essential features is in direct causal relationship to the achieved result.

Comparison of the claimed technical solution with the prototype huzvolzov to establish compliance with its criterion of novelty, as it is not known from ur vtvhshpsi.

The proposed device is schyumyshlgano 1 essential, because it can be implemented by existing technical means.

Thus, the proposed technical taxiing meets the established conditions of patentability of a utility model.

The other known technical solutions for a similar purpose with similar significant features by the applicant was not found.

The drawing shows a general view of a universal combined cable with optical fibers and copper conductors.

A universal cable for organizing technological communication and automation systems, contains insulated sheathing 1 even shielded insulated conductors 2, a central reinforced supporting core 3 and an insulating earth conductor 4. The cable is equipped with an even number of optical modules 5 located between the insulated shielded cores 2, torsion-resistant fiber core bearing core made of fiberglass b or polyethylene cordel 7 and covered with an insulated sheath with a hydrophobic aggregate 8 with the formation of even-numbered segments 9 of 9 glutinous fibers twisted in a central reinforced supporting core 3, which are covered by an insulating sheath, and the hydrophobic aggregate 8 is placed both in and between the modular segments 9 themselves.

The insulating sheath of the cable consists of a dielectric coating 10, over which a copper control core 11- is applied, as well as a metal sheath 13 with a dielectric insulation layer 14 placed with a technological gap 12, water blocks “- / 2: i

a cutting tape 15, a polymer shell 16 and a background 17, embedded in a steel corrugated tape, over which an additional dielectric coating is applied

The design works as follows.

The combination of the central core element, the optical fibers in the dielectric tubes and the inner insulation coating is the dielectric optical core of the cable. 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 the sheath.

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 (3)

1. A combined cable for technological communication systems and automation, comprising an even number of insulated shielded conductors enclosed in an insulating sheath, a central reinforcing bearing core and an insulating earth conductor, characterized in that it is equipped with optical modules located between insulated shielded conductors twisted around the supporting core made of fiberglass or polyethylene cordell and covered by an insulated sheath with a hydrophobic aggregate to form modular an even number of segments twisted around a central support core, which are covered by an insulating sheath.  2. The cable according to claim 1, characterized in that the number of optical modules is even. 3. The cable according to claim 1, characterized in that the insulating sheath consists of a dielectric coating over which a copper control core is applied, as well as a metal sheath with a dielectric insulation layer, a water blocking tape, a polymer sheath and armor made in the form corrugated steel tape, on top of which an additional dielectric coating is applied.