RU188619U1 - Electric cable section - Google Patents

Abstract

The utility model relates to the field of electrical engineering, in particular, to the design of a special cable section designed to connect primary modules with central modules of a string in a structured cable system for collecting and transmitting information data of the Baikal deep-water neutrino telescope NT 1000 / 1. The electric cable section contains the main telecommunication cable, predominantly underwater, at least one end plug with a connecting wire, at least one main coupling o cable telecommunications with wire connecting end plugs. The main telecommunication cable is made of a combination, containing one coaxial pair, one symmetric twisted shielded pair, two power supply conductors and polyurethane sheath twisted in a core, and the end plug contains five brass contact pins enclosed in a rubber tight case, and the connection wire contains five insulated copper cores and rubber sheath. The core of a combined telecommunications cable may be filled with a sealing compound. In each coupling, a protective hermetic The sheath can be made of a two-component cold polymerization polyurethane composition formed in a special mold, on top of which at least two layers of winding are made from self-curing tape based on ethylene-propylene rubber. The advantage and usefulness of the proposed section of electrical cable is that it provides a reliable connection to depths up to 1.5 km of primary modules with central modules of the string in a structured cable system for collecting and transmitting information data from the Baikal Deep-Water Neutrino Telescope NT 1000/1. 2 hp f-ly, 3 ill.

Description

The utility model relates to the field of electrical engineering, in particular, to the design of a special underwater cable section of telecommunications designed to connect, at depths of up to 1.5 km, primary modules with central modules of a string in a structured cable system for collecting and transmitting information data of the Baikal Deep-Water Neutrino Telescope NT 1000/1 .

Known sections of electrical cable, mainly through water barriers, which contain the main cable with temporary inserts in a coaxial pair of 2.6 / 9.4 (1.2 / 4.6) for connection to equipment or in a symmetrical circuit to restore the service connection. The ends of the cables used for temporary inserts, previously in stationary conditions, are equipped with connecting devices.

The connection of temporary inserts of the KMS-1 cable with a length of 15 m to the intercom line of the coaxial cable is performed using twisting and soldering.

A mounted insert, consisting of KSKPEP cable building lengths, is connected to coaxial pairs using a 15-meter long KSKPEP coaxial cable, one side of which, reinforced with an IFPM.434531.001 connecting device (coupling) (IFPM.434531.002), is connected to 2.6 / coaxial pair 9.4 (1.2 / 4.6), and the other side, reinforced with the РХ3.645.240 plug, is connected to the junction of the mounted flexible insert.

The insertion of temporary insertion cables into the main cable is carried out either by using special connecting devices or by twisting the cores. The service circuits of the coaxial cables of the above transmission systems, except LA-140 x2KX, are connected to the equipment in the NUP (NRP) using a KMS-1 cable 15 m long, reinforced at one end with a 2RM22KP10 plug, which must be connected to a 2RM22KP10 outlet at the end of the cord connect.

(Internet. Website. Http://aquagroup.ru/normdocs/8080#i715925). Moscow, 07.06.2018, p. 13-37. Guidance document of the industry РД 45.211-2001 "Instructions for conducting emergency repair work on cables of intercity transmission lines").

The disadvantage of these sections of electric cable is the absence of cable circuits for transmitting digital information such as "twisted pair", as well as separate conductors for power transmission.

These cable sections are completely unsuitable for use in water with high hydrostatic pressure, because there are large air cavities inside the cable core that allow the cable to deform at high pressure, leading to compression and deterioration of communication parameters of coaxial pairs. The section completely loses its performance in case of damage to the outer cable sheath, since it is not hermetic in the longitudinal direction and is filled with water in the event of an accident.

In addition, the coupling sleeves are molded with heat shrink tubing, which do not guarantee the tightness of the joint, because at high pressure, the external diameter of the cable decreases and a gap forms between the cable jacket and the heat shrink tubing.

The present utility model is based on the task of creating such an electrical cable section that would reliably connect the primary modules to the central modules of the string in the structured cable system for collecting and transmitting information data of the Baikal deep-water neutrino telescope NT 1000/1 at depths up to 1.5 km high-quality transmission of digital information, analog signals and power supply, including when exposed to hydrostatic pressure of up to 15 MPa and kept working n Damage to the cable sheath.

The task is achieved by the fact that in the section of electrical cable, including the main telecommunications cable, mainly underwater, at least one end plug with a wire connecting at least one coupling of the main telecommunication cable with a wire connecting the end plug, according to the utility model The telecommunication cable is made of a combination, containing one radio-frequency coaxial pair twisted into a core, one symmetric twisted shielded pair, two cores power supply and sheath made of polyurethane, and the end plug contains five brass contact pins enclosed in a sealed rubber case, and the connection wire contains five insulated copper wires and a rubber sheath.

The implementation of the main telecommunications cable combined, which contains twisted into the core one coaxial pair, one symmetric twisted shielded pair, two power wires and polyurethane sheath, and the end plug contains five brass contact pins enclosed in a sealed rubber case, and the connection wire contains five insulated copper cores and rubber shells, which ensures a reliable hermetic connection at depths up to 1.5 km of primary modules with central modules of the string in a structure The cabled system for collecting and transmitting information data from the Baikal Deep-Sea Neutrino Telescope NT 1000/1 provides high-quality transmission of digital information over a shielded twisted pair, and analog signals over an RF coaxial pair.

In the section, the electrical cable core of the combined telecommunications cable can be filled with a sealing compound, that is, sealed in the longitudinal and radial directions, which ensures reliable operation of the section in water at a hydrostatic pressure of up to 15 MPa without distorting the characteristics of data transmission channels; emergency damage to the cable sheath.

In the section of electrical cable protection sheath of each coupling (the main telecommunication cable with the terminal plug connection wire) can be made of a two-component cold polymerization polyurethane composition formed in a special injection mold, over a protective sheath superimposed at least two layers of winding from an ethylene-propylene-based self-curing tape rubber that provides reliable tightness of the coupling.

The proposed utility model is shown schematically in FIG. 1-3. FIG. 1 depicts an electrical cable section. FIG. 2 shows a cross-section of a combined telecommunications cable. FIG. Figure 3 shows the connection of the combined telecommunications cable to the wire connecting the end plug. Where: 1 - combined telecommunication cable; 2 - end connecting plug; 3 - wire connecting the terminal plug; 4 - coupling coupling of a combined telecommunication cable with a connection wire; 5- symmetric twisted shielded pair; 6 - power supply; 7 - radio frequency coaxial pair; 8 - filling with a sealing compound; 9 - core fastened with a film; 10 - polyurethane casing; 11 - protective winding of self-vulcanizing tape based on ethylene-propylene rubber; 12 - layer of a two-component polyurethane composition of cold polymerization; 13 - a place for soldering wires, conductors and telecommunication cable shields to the wires of the terminal plug connection wire.

Example. The electric cable section (Fig. 1) contains a combined telecommunications cable 1 of the KBT-PK50 + brand (2 × 0.29) e + 2 × 0.75 with a length of about 92 m (FIG. 2), where the symmetric twisted shielded pair 5 contains two copper current-carrying conductors with a cross-section of 0.29 mm ² , each in isolation from high-density polyethylene, twisted in a pair, over which is filled a filling from low-density polyethylene and a screen in the form of a sheet of copper wires with a surface density of at least 90% coated with polyethylene terephthalate film.

The power supply conductor 6 contains a copper conductive conductor with a cross section of 0.75 mm ² in isolation from high density polyethylene.

RF coaxial pair 7 with a wave resistance of 50 Ohms contains an inner conductor with a diameter of 0.96 mm, twisted from 7 copper wires, insulation from high density polyethylene, an outer conductor in the form of a sheet of copper wires with a surface density of not less than 95% coated with polyethylene terephthalate film. The cable core is filled with a sealing compound 8 based on polyisobutylene and sealed with polyethylene terephthalate film 9. The outer sheath of the cable 10 with a thickness of 1.3 mm is made of polyurethane of the Desmopan 385E brand orange. Outer cable diameter about 10 mm.

The electric cable section (Fig. 1) also contains two end plugs 2 (sealed connectors of the brand LPIL5M SubConn Low Profile 5 contacts) with five contact brass pins pressed into a sealed rubber case and with a connection cable 3 about 0.2 m long, which consists of five insulated copper wires in a rubber sheath.

The electric cable section (Fig. 1) also contains a coupling 4 of a combined telecommunications cable of the brand KBT-PK50 + (2 × 0.29) e + 2 × 0.75 with a wire connecting the connector LPIL5M SubConn Low Profile 5 contacts, which is shown in FIG. 3, where the cores of the combined cable 1 are connected to the cores of the connection wire 3 by soldering and insulated with heat-shrinkable polyethylene tubes, the connection section 13 is surrounded by a protective sheath 12 of two-component polyurethane cold polymerization composition of the brand Germokast 0285, on top of which at least two layers of the protective winding 11 of self-curing tape based on ethylene-propylene rubber brand Scotch 23.

The protective sheath of the coupling 12 of the polyurethane composition of cold polymerization is formed in a special injection molding form, forming a tight connection with the rubber sheath of the connection wire and the polyurethane sheath of the combined telecommunication cable.

The proposed utility model of the electric cable section can be implemented in mass production, the declared technical characteristics are confirmed by the corresponding tests of the samples.

Claims (3)

1. Electric cable section, including the main telecommunication cable, mainly underwater, at least one end plug with a connecting wire, at least one connecting coupling of the main telecommunication cable with an end plug connecting cable, characterized in that the main telecommunication cable is combined. containing one coaxial pair twisted into a core, one symmetric twisted shielded pair, two power supply conductors and a sheath made of polyurethane, and the end plug contains There are four brass contact pins enclosed in an airtight rubber case, the connection wire contains five insulated copper wires and a rubber sheath. 2. Electric cable section according to claim. 1, characterized in that the core of the combined telecommunications cable is filled with a sealing compound. 3. The electric cable section according to claim 1, characterized in that, in each coupling, the protective hermetic shell is made of a two-component cold polymerization polyurethane composition formed in a special injection mold, and at least two layers of the winding of an ethylene-propylene-based self-vulcanizing tape are applied over the shell rubber.

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