RU112490U1 - COMBINED WIRE - Google Patents

Abstract

 1. Combined wire containing a self-supporting insulated wire in protective insulation, which includes a central power element made of an alloy of aluminum or galvanized steel, conductive elements consisting of twisted and sealed wires made of aluminum or an aluminum alloy, and which contains at least at least one optical cable in a protective sheath, the protective insulation and the protective sheath being combined with each other, characterized in that the self-supporting insulated wire in the protective insulation and The optical cable in the protective sheath is separated from each other, and the protective insulation and the protective sheath are connected by a jumper, the thickness of which is less than the dimensions in the cross section of the wire in the protective insulation or cable in the protective sheath. ! 2. The wire according to claim 1, characterized in that under the protective insulation of the wire and under the protective sheath of the optical cable are placed ripcords. ! 3. The wire according to claims 1 and 2, characterized in that the protective insulation of the wire, the protective sheath of the optical cable and the jumper are made of the same material.

Description

The invention relates to cable technology, and, in particular, to designs of self-supporting insulated wires for overhead power lines up to 35 kV, containing optical fibers for transmitting information streams.

Known electrical conductors - combined wires containing at least one optical fiber, conductive elements made of aluminum or aluminum alloy, and a central power element made of aluminum alloy or galvanized steel, the optical fiber is placed inside a polymer tube, which is twisted around the central power element together with conductive elements, water-blocking threads or tape are placed between the elements, and a protective yatsiya made of the polymer composition. Another variant of the combined wire is a design with the optical cable placed outside and spirally wound around the protective insulation of the wire [RF Patent for Utility Model RU 40500 U1, 2004]. The invention was implemented at Sevkabel-Optik CJSC and is produced according to the Specifications “Combined cable with protective insulation for overhead power lines with a voltage of 10 kV, containing a phase wire and an optical module” TU-3587-201-23151983-06.

Placing an insulated conductive core and an isolated optical fiber in one protective sheath can reduce the weight and size parameters of the cable, the cost of its manufacture and provide galvanic isolation between the electrical and optical parts of the wire. When placing an optical cable around the wire, it becomes possible to combine the power and optical parts of the wire depending on the needs of the consumer.

However, the design of the wire has the following disadvantages that limit its use:

- When mounting an unfinished wire, it is difficult to use piercing or die clamps, for example [ENSTO products. Branch clamps. RF Cable website, 2011. htpp: //www.ruscable.ru/info/sip/ensto/r13 Date of access 08.07.2011], which can damage the optical part of the wire.

- When cutting and installing the wire at the branching point of its electrical and optical parts, conductive wires are exposed, which requires additional costs for their insulation and sealing.

- According to the recommendations of the wire manufacturer ZAO Sevkabel-Optik, in the area from the branching point of the electric and optical parts of the wire to the optical coupling, the polymer tube with optical fibers must be additionally protected by a special branching heat-shrinkable sleeve and a long heat-shrinkable tube, which requires additional time and money and use of non-standard products.

- When winding an optical cable around a wire, the length of the optical cable and the cost of its manufacture increase.

The closest technical solution is an information-power wire, containing a self-supporting sheathed wire, a conductive core consisting of twisted and sealed round or semi-circular wires, or in the form of a sector of a circle, or trapezoidal shape made of aluminum or aluminum alloy, in protective insulation, which contains at least one optical cable, or one LAN cable, or a combination thereof, located together with the conductive core in one protective sheath, the optical cable or LAN cable, or their composition is isolated from the conductive core with an insulated sheath [RF Patent for utility model RU 102837 U1, 2010].

The location of the insulated conductive core and the insulated optical cable and / or LAN cable in one protective sheath allows to reduce the weight and size parameters of the cable and the cost of its manufacture and to galvanically decouple the power and information parts of the wire.

However, the design of the wire has the following disadvantages that limit its use:

- The wire in the cross section has an irregular shape, which leads to difficulties in using standard tension and support fittings.

- The close location in one wire of its power and information parts does not allow the use of piercing and die clamps, which can damage the information (optical) part of the undivided wire.

- The design of the wire does not allow the installation of power and information parts of the wire to be carried out independently of each other without first cutting the common protective sheath.

- Cutting the wire into power and information parts is difficult when using a standard cutting tool that destroys the separation shell. In this case, there is a high probability of reducing or even damaging the protective insulation of the power part or the protective sheath of the information part of the wire.

- The cutting of the common protective sheath should be carried out with a special tool having a cutting blade, which should be located strictly between the insulated conductive core and the insulated optical cable and / or LAN cable, which increases costs.

- The parts of the wire obtained during separation have irregular shapes in cross sections, which leads to difficulties in using standard connectors and branching couplings (including optical ones) and the technology of their installation. The need for additional operations to refine the lead-in ends in the couplings requires additional costs.

The essential features of the claimed invention are:

- Combined wire, contains a self-supporting insulated wire in protective insulation, which includes a central power element made of an alloy of aluminum or galvanized steel, conductive elements consisting of twisted and sealed wires made of aluminum or aluminum alloy. The sign provides the transfer of electrical energy through the chains of overhead power lines.

- Combined wire contains at least one optical cable in a protective sheath. The sign provides the creation of an information channel overhead power lines.

- The protective insulation of the wire and the protective sheath of the cable are combined with each other (located in one protective sheath). The sign provides galvanic isolation of the power and information parts of the wire and reducing the cost of its manufacture.

- The self-supporting insulated wire in the protective insulation and the optical cable in the protective sheath are removed from each other, and the protective insulation and the protective sheath are connected by a jumper. The sign provides the possibility of using wedge anchor clamps, piercing and die clamps installed on the power part of the wire, the possibility of cutting the wire into a self-supporting insulated wire in protective insulation and on an optical cable in a protective sheath, a standard tool with guaranteed preservation of protective insulation and protective sheath. The lack of contact of the optical part of the wire with the clamps allows you to reduce the requirements for the allowable crushing force, and, therefore, reduce the cost of its manufacture.

- The thickness of the jumper is less than the dimensions in the cross section of the wire in the protective insulation or cable in the protective sheath. The sign provides a reduction in the cost of laying and installing the wire due to the use of standard tension, support and electrical fittings (including piercing and die clamps), convenience and ease of cutting the wire with a standard tool, obtaining the correct geometric shape of the wire and cable in cross section , which allows the use of standard connecting and branching couplings and technologies for their installation.

- Under the protective insulation of the wire and under the protective sheath of the optical cable, ripcords are placed. The sign provides ease of cutting the power and optical parts of the wire when they are cut.

- The protective insulation of the wire, the protective sheath of the optical cable and the jumper are made of the same material. The sign provides a reduction in the cost of manufacturing wires on standard cable equipment for receiving cable sheaths of type "8".

These essential features of the utility model allow to obtain a technical result, which consists in reducing the cost of installation and connection of construction lengths and branches of the combined wire. An accompanying technical result is the reduction of the risk of accidental damage to the optical part of the wire (protective sheath) during its laying and installation.

The salient features of a utility model are:

- The self-supporting insulated wire in the protective insulation and the optical cable in the protective sheath are removed from each other, and the protective insulation and the protective sheath are connected by a jumper.

- The thickness of the jumper is less than the dimensions in the cross section of the wire in the protective insulation or cable in the protective sheath.

- Under the protective insulation of the wire and under the protective sheath of the optical cable, ripcords are placed.

- The protective insulation of the wire, the protective sheath of the optical cable and the jumper are made of the same material.

The claimed technical solution is the separation of the power and optical parts of the combined wire and removal from each other by a distance H with a jumper of thickness h, which is smaller than the cross-sectional dimension of the wire in protective insulation or cable in a protective sheath. The separation of the power and optical (information) parts of the wire provides the convenience of working with both the power and optical parts of the wire at all stages of the product’s life cycle from manufacture to disposal.

Figure 1 shows a cross section of a combined wire. The numbers in figure 1 indicate: 1 - power element (SE) of a self-supporting insulated wire (SIP), 2 - conductive elements of SIP, 3 - protective insulation of SIP, 4 - optical cable (OK) with optical fibers inside, 5 - protective sheath OK , 6, 7 - ripcords. The letters in figure 1 denote: h is the thickness of the jumper, N is the distance between the wire in the protective insulation and the optical cable in the protective sheath, s is the thickness of the protective sheath of the optical cable, S is the thickness of the protective insulation of SIP.

The utility model is as follows. At the manufacturing stage, the twisting of the power part of the wire made of aluminum, aluminum alloy or galvanized wire 1, 2, as well as the core of the optical part of the wire 4 — optical fibers in a modular tube made of polymeric material or a modular fiber around a dielectric central element (in FIG. shown). Then part of the wire 1, 2 is covered with protective insulation 3, and part 4 is covered with a protective sheath 5, which are then connected by a jumper. Under the protective covers can be additionally placed water-blocking materials and dividing tapes (not shown in figure 1). An embodiment is a combined wire under protective insulation and under the protective shell of which ripcords 6, 7 are placed, which ensures ease of cutting the power and optical parts of the wire. Another embodiment is a combined wire, which on extrusion equipment is simultaneously covered with protective insulation (sheath) 3, 5 with the formation of a jumper with sizes h and N. Using existing technologies for manufacturing SIP wires and optical cables of type “8”. Prior to the stage of extrusion of protective insulation (sheath) 3, 5 with the formation of a jumper, a different combination of standard and special power and optical parts of existing CIP wires and optical cables is possible. At the stage of laying the combined wire, the power and optical parts of the wire are separated by cutting the jumper tangentially to the SIP and OK surfaces. Cut the wire lengthwise into power and optical parts using a standard cutting tool. The standard mounting stockings are installed on the power part of the cut end of the self-supporting insulated wire. Using a leader cable connected through a swivel with a mounting stocking, simultaneously lay the power and optical parts of the wire. The combined wire is fixed in the anchor clamps at the ends of the building lengths and in the supporting clamps on each support. When cutting the optical part of the wire 4 leave the necessary margin for mounting the optical coupling. At the same time, on the cutting section, remove the jumper with sizes h and H and completely separate the combined wire for SIP and optical cable. Anchor wedge (or other type) clamps or supporting clamps are installed on the power part of the combined wire, cut to the required length. To protect the jumper from destruction at each clamp, tie straps are installed on the combined wire, for example, CCI [Fastening materials and fittings. SICAME products. Website of SIKAM LLC, 2011. htpp: //www.sicame.ru/krepezhnye_materialy_i_armatura.htm Date of access 08.07.2011] or the like. The connection of the building lengths and branches of the power part of the wire 1, 2, 3 are carried out according to the existing technology, including using piercing and die clamps. The connection of the building lengths and branches of the optical part of the wire 4, 5 is also carried out according to the existing technology using standard optical couplings and technology for their installation. Optical sleeves and stock of the optical part of the cable, as a rule, are placed on supports. Repair of the power part or the optical part of the combined wire is performed by a team of electricians or a team of opticians independently of each other, using standard technologies and tools, which significantly reduces the risk of accidental damage to the optical part of the wire. After the end of its service life, the combined wire is removed from the supports, disassembled, pulling out ripcords 6, 7, sorted into metal and non-metal elements and separately disposed of.

An example of a utility model is, for example, a combined wire, comprising a power part from a single-core stranded wire with a wire of aluminum wires reinforced with a steel wire, for a rated voltage of up to 20 kV with a conductive conductive cross-section of 50 mm ² of sealed aluminum, reinforced with a steel wire, in a protective insulation from light-stabilized cross-linked polyethylene (corresponds to the parameters of the power part of the wire SIP-3C-O TU-3587-201-23151983-06 of ZAO Sevkabel-Optik), and the optical part - the digital optical center with a module with a coiled tubing of PBT sheath filled with a hydrophobic compound with 48 optical fibers in accordance with ITU-T Rec. G.652d. The nominal outer diameter of the power part of the wire in the protective insulation is 12.6 mm. The nominal outer diameter of the optical part of the wire in the protective sheath is 7.2 mm. The nominal overall size of the combined wire is 22 mm. Jumper thickness 4 mm. As tension clamps, for example, Anchor clamps RA 25-120-1500 [Anchor clamps. SICAME products. Website of SIKAM LLC, 2011. htpp: //www.sicame.ru/ankernyj_zazhim.htm Date of access 08.07.2011]. As supporting clips, for example, pendant clips ES 54-14 (ES 70-14) [Supporting clips. SICAME products. Website of SIKAM LLC, 2011. htpp: //www.sicame.ru/podderzhivayuschij_zazhim.htm Date of access 08.07.2011].

Claims (3)

1. Combined wire containing a self-supporting insulated wire in protective insulation, which includes a central power element made of an alloy of aluminum or galvanized steel, conductive elements consisting of twisted and sealed wires made of aluminum or an aluminum alloy, and which contains at least at least one optical cable in a protective sheath, the protective insulation and the protective sheath being combined with each other, characterized in that the self-supporting insulated wire in the protective insulation and the optical cable in the protective sheath is removed from each other, and the protective insulation and the protective sheath are connected by a jumper, the thickness of which is less than the dimensions in the cross section of the wire in the protective insulation or cable in the protective sheath. 2. The wire according to claim 1, characterized in that under the protective insulation of the wire and under the protective sheath of the optical cable are placed ripcords. 3. The wire according to claims 1 and 2, characterized in that the protective insulation of the wire, the protective sheath of the optical cable and the jumper are made of the same material.