RU2579553C1 - Method for erection of power distribution network and power distribution network, method of operating power distribution network, phase electric wire of overhead transmission line, overhead transmission line and method of laying phase electric wire of overhead transmission line, electric power transfer method - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to electrical engineering, methods of transporting power by overhead power transmission lines with phase high-temperature energy-saving electric power distribution networks, including methods for construction and operation. Power distribution network includes mounted on foundation tower supports with traverses, insulators, terminal and trunnion-type clamps nondamaging housing and structure of high-temperature composite electric wires fixed therein, each having a core at least one composite strand and multi-strand layer. Overhead lines of power distribution network are mounted during erection, operational repair or reconstruction method providing technologic and maintenance undamageability of electric wires due to complex developed process equipment used for laying of individual length upon electric wires line.

EFFECT: invention enables to exclude additional losses of transmitted electric power in electric wires connections which number is minimised.

21 cl, 8 dwg

Description

The invention relates to electrical engineering, specifically to overhead power lines and methods for their construction.

Known overhead power distribution line, including foundations, high-rise supports with traverses, on which electrical insulators are hung with tensioned and supporting clamps with multicore current-carrying wires, while current-carrying wires are made from a combination of aluminum and steel wires, from which the core and multicore external power (see the Handbook of High-Voltage Electrical Installations, M. Energoizdat, 1981, pp. 342-426).

Known overhead power distribution line, including a large span between the supports when crossing a wide natural obstacle, foundations with mounted anchor high-rise supports with traverses on which, electrical insulators are suspended, tension and support clamps in which live conductors are fixed (RU 2360345 C1, publ June 27, 2009).

There is a method of erecting an overhead power distribution line, including mounting foundations, erecting high-altitude anchor supports with traverses on them, suspending insulators, tension and supporting clamps, mounting devices for pulling a leader cable and multicore current-carrying wires (see ibid., RU 2360345 C1, published on June 27, 2009).

A known method of operating an electric power network of a district, city, metropolis, a method of operating an electric power network during the construction of construction objects of a district, city, megalopolis, a method of operating an electric power network during repair and / or reconstruction of a building, structure, complex of buildings, structures, industrial complex objects and method of operation power supply networks during the reconstruction and / or construction of objects of the transport complex of the district, city of the metropolis, which supply electricity by supplying electricity their lines dispenser and therethrough to said objects (RU 2240639 C1, publ. 20.11.2004).

A known method of power supply of a constructed or reconstructed structure, a complex of structures, a method of power supply of a settlement, microdistrict, city district, industrial, agricultural complex, metropolis, power supply network of a settlement, microdistrict, city district, industrial, agro-industrial complex, metropolis, providing for the separate laying of power lines and the supply of electricity to facilities from independent sources of electricity ((RU 2240638 C1, publ. 20.11.2004).

The disadvantages of the known methods of transporting electricity through known distribution networks and overhead power transmission lines of power lines, phase wires, these power lines, methods of their construction and operation are increased material consumption of current-carrying wires per unit voltage and design capacity of the line, which is due to the relatively low efficiency of electricity transportation, as well as increased laboriousness and low reliability that does not ensure the integrity of current-carrying wires in the process x broaches, rudder and fastening clamps supports during assembly and subsequent operation.

The problem solved by a group of inventions, united by a single creative concept, is to develop electric power transportation technology, a structural system and technologies for the construction and operation of a distribution network, an overhead power line with phase high-temperature composite electric wires, which provides increased economic efficiency of electric power transportation, maximum damage to electric wires, including their protective shells and the integrity of the multicore structure at all stages of preparation, ki wires and the subsequent operation of the power line.

The problem in view of the method of construction of a distribution power transmission network is solved by the fact that in the method of construction of a distribution power transmission network, including the construction of a plurality of electrical network facilities, including at least one overhead power line, at least one lowering station (PS), a consumer station ( PS), as well as at least one distribution (RP) and sectioning (SP) point, according to the invention, at least one overhead power line of the distribution network is raised to high-altitude supports with the placement of a current-carrying part on them, including at least one phase high-temperature electrical wire containing a core with at least one composite core and a multi-core external wire, and the construction of the line is carried out on the construction site with a length equal to the length of the specified line or parts of it, for this purpose, they prepare the route of the line being built, install the foundations, high-rise supports, equip the head and final construction and installation areas, respectively, in front of the first and last support, Adki, on the first of which is installed successively with rigid fixation on the basis of an aggregate such as a rolling goat, having a brake and an axle for hanging a drum with an electric wire, individual length, no less than the full anchor construction length of the mentioned construction and installation section, and also install a brake machine with the possibility load perception from the tension of the electric wire, the axis of the said unit is normal to the vertical plane of the span of the erected line, the drum is hung on the axis with the possibility erhney rolling and vanishing point above the electric wire from the reel hinge axis; on another of the aforementioned sites, a tension machine is similarly mounted with the possibility of hanging a drum with a leader cable on it; both braking and tensioning machines are placed on these sites with the possibility of supplying the electric wire to the first and leaving the last support at an angle to the horizon α≤30 °, while using individual electric wires for a given construction and installation section — not less than the full anchor construction length of the specified section , similarly, the leader cable is adopted by the total or cumulative length of at least the mentioned individual length of the electric wire; high-rise supports are mounted with traverses designed in compliance with the conditions for minimizing the interaction of operational electromagnetic fields of electrical wires, at least to an acceptable level; install electrical insulators on the traverses and hang tension and / or supporting clamps for electrical wires to them, observing the condition of their greatest mutual distance in the traverse field of the support; set end and intermediate rolling rollers, which for this purpose are made with a profiled bed, at least the outer contact layer of which is made of an elastically deformable material with a hardness lower than the hardness of the outer layer of the wires of the external coil of the electric wire by a value sufficient to ensure the installation and technological damage of the electric wire upon contact with the specified bed, the external working profile of which is adopted by the depth, width and / or reduced radius, not less than one and a half times exceeding them the overall radius of the cross section of the laid type of electric wire; they are passed through the expansion rollers in the direction to the leader-leader site of the cable, connect it at one end to the electric wire being laid at the outlet of the brake machine, and fasten the other end to the tension machine and lay the electric wire along the expansion rollers with a technological tension of not more than 0 , 7 on the tensile strength of the electric wire and the minimum bending radius on the rollers, the radius of which takes at least 40 overall diameters of the electric wire; after which, under technological tension, each electric wire is reassigned and fixed in operational tension and / or supporting clamps.

Moreover, when constructing at least one overhead power transmission line of the specified transmission network, the minimum bending radius of the electric wire on the expansion rollers on high-rise supports with at least one turn in plan at an angle α in the range of 5 ° <α≤60 ° can be achieved using rollers with a diameter on the bottom of the bed of the rolling roller, at least 60 overall radii of the electric wire, while the elastic bed is, for example, rubberized as an elastically deformable layer, and in the presence of one or more angular supports with an angle of rotation of more than 60 ° I use t rollers in a similar design, with a minimum diameter of at least 1000 mm, or use tandems of two or more rollers with a box that does not damage the electrical wire, with the tandem fixed to the support through one point.

For laying an electric wire of at least one overhead power transmission line of the specified network, a low-twisted rope with parallel-laid supporting strands in a protective sheath or in a tubular cross-stitch jacket having a length corresponding to the construction length of the electric cable plus at least six heights to the point of suspension of the indicated wire can be used as a leader cable electric wires.

When constructing at least one overhead power transmission line of the specified transmission network, a multi-strand braided metal cable of the cross lay can be used as a leader cable, while installation of a leader cable is carried out only on disconnected overhead lines, and a leader cable in areas near the brake and / or the tensioning machine is equipped with a roller earthing switch.

When erecting at least one overhead power transmission line of the indicated power transmission network, a drum with a leader cable can be placed on a tensioning machine and the specified cable is fed to the installation site in reverse mode, pulling it with a tensioning, for example, hydraulic mechanism, and, under minimum tension, it is fed onto the rolling rollers, after laying with the end of the electric wire at the brake machine.

When constructing at least one overhead power transmission line of the indicated power transmission network, the connection of the end of the electric wire to the leader cable can be performed through the swivel, the mounting loop and the mounting stocking in the form of a cross braid made of soft wire and a strip of protective tape that prevents damage to the end section of the electric wire.

When erecting at least one overhead power transmission line of the indicated power transmission network, the electric wire drawing can start at a minimum speed of 5 m / min, and after passing the first power line support, the drawing speed is increased to 100 m / min, and the brake machine is put into operation at the beginning of the process , which begins to let go of the wire, increasing the arrow of the sag, then turn on the tensioning machine and produce a broach.

When constructing at least one overhead power transmission line of the specified power transmission network, installation work on laying the electric wire can be performed using a tensioning machine, which is equipped with a winch with a smoothly varying speed of pulling, a reverse device, a device for changing traction, a limiter of a given maximum tension and a capstan, while the capstan It has a diameter less than the diameter of the drum of the brake machine and is intended for winding only a leader cable.

When constructing at least one overhead power transmission line of the indicated power transmission network, the brake machine can be equipped with a smooth control of the braking force, which ensures the adjustment of the tension and sag of the electric wire, and, in addition, this machine is equipped with a double brake drum with a diameter exceeding the minimum allowed by the condition non-destructive bending of an electric wire containing composite conductors; at the same time, the operation of the brake and tensioning machines is automatically coordinated with the provision of the required tension in the entire permissible range of speeds for pulling the electric wire.

When constructing at least one overhead power transmission line of the indicated power transmission network, the transfer of the electric wire from the roller to the operational tension and / or supporting clamps may be carried out by means of a mounting beam with a winch.

When constructing at least one overhead power transmission line of the indicated transmission network after installation in operational clamps, the electric wire may be equipped with a vibration damper.

Moreover, at least one power line can erect a line voltage of 10-0.4 kW.

At least one lowering station of 110/35/10 kV substation and at least one 35 / (6) / 10 kV substation station, as well as at least two consumer stations 6 (10), can be built as part of this network ) / 0.38 kV; 20 / 0.38 kV; distribution RP and sectioning SP points.

As high-temperature composite, electric wires of the LUMPI-BERNDORF type of electric wires can be used.

The problem in part of the second object of the invention is solved by the fact that the distribution power transmission network, according to the invention, contains a set of network electrical objects, including at least one power transmission line with a voltage in the range of 0.38 ÷ 110 kV, at least one lowering station PS 110/35 / 10, substations 35/6 (10) kV, consumer stations substations (10) / 0.38 kV, 20 / 0.38 kV, as well as at least one distribution distribution point and a sectioning joint venture, while including at least one aerial power transmission line containing elevated structures erected on foundations traverses on which electrical insulators are mounted with multicore current-carrying wires suspended from them by means of tension and supporting clamps, as well as lightning protection wires and fittings, including vibration dampers, while high-temperature composite wires, each of which contains a core of at least with one composite residential and multi-core external wire, and the distribution power network is made as described above, the construction of the distribution network power.

At the same time, at least in lightning protection it may contain at least one stranded wire such as LUMPI-BERNDORF electrical wires, or fiber-optic cable-type wires.

The problem in part of the third object of the invention is solved by the fact that in the method of operating the power distribution network of an industrial complex, a machine-building enterprise, a complex for processing agricultural products of a gas-, oil-producing enterprise, a field, an integrated oil-refining enterprise, a forestry, woodworking complex, a transport complex, a district, a city, according to the invention are obtained from a power source, transported over the network and released to consumers electricity, monitor the modes, regulate flows, enable and disable network sections, maintain a system of overhead power lines, lower stations of substations, distribution and sectioning points of RP and SP, carry out network expansion, repair, reconstruction and / or restoration of electrical network objects with replacement old and / or damaged supporting and current-carrying structures and electrical wires, including at least one new power transmission line for power lines, or by the above method of constructing a distribution power transmission network in at least one of the overhead power transmission lines, or in the construction and installation section of the power transmission lines of the specified network, high-temperature composite multicore electric wires, each of which contains a core with at least one composite core and multicore external wire, for which the place is determined the construction of a new power line, or choose another power line that requires replacement or reconstruction of the current-carrying part, and form at least one construction and installation site, length, p implicit length of said transmission line or constituent part thereof; carry out the required repair or reconstruction work, including the necessary dismantling of unsuitable for further operation, and also to the necessary extent install new foundations and high-rise supports, while all of these actions are performed by the construction of the distribution power transmission network described above.

The problem is solved in terms of the phase electric wire is solved by the fact that the phase electric wire of the overhead power transmission line VLEP, including the current-carrying part with multicore phase electric wires mounted on high supports with cross-arms, according to the invention, is at least made high-temperature composite, contains a multi-core external winding, the core is at least than with one composite core and laid in the specified line by the method described above for the construction of a distribution power transmission network.

The problem in terms of the method of laying the phase electric wire is solved by the fact that in the method of laying the phase electric wire of the overhead power transmission line VLEP, according to the invention, the laying of the phase electric wire is carried out during the construction of at least one overhead power line of the distribution power transmission network, while high-temperature is used as at least one phase electric wire composite electrical wire described above.

In addition, a high-temperature composite electric wire such as LUMPI-BERNDORF or the like can be used as a phase electric wire.

The problem in terms of the method of transporting electricity is solved by the fact that, according to the invention, electricity is transported from a source to a consumer directly through a separate overhead power line connecting them or through one power line of a distribution network connected via electricity to a power transmission network, or through a system including at least one distribution, communicated by the flow of transported electricity with high-voltage power and / or system-forming, preferably of the regional type Oh, high-voltage network, equipped in the process of construction or operational expansion, re-equipment, repair, replacement, reconstruction or restoration, of at least one power transmission line involved in the electric power transport system with the ability to supply electricity to the consumer and equipped for this with at least one, preferably the combination of high-temperature air phase electric wires described above and the method of construction of a distribution distribution network constructed above.

The technical result achieved by the above set of features of the group of inventions is to develop a set of technological operations and design solutions of technological equipment for use in the construction and operation of overhead power distribution lines with the greatest damage to high-temperature composite electrical wires, both from installation and operational impacts, which achieved by a set of mounting machines developed in the invention, unit s, methods of their work, parameters of electric wires and equipment parts with which they interact during installation and operation as part of the high-voltage power line. Preservation of the high-performance characteristics of the mounted electrical wires is also achieved by their jointless execution within the installation section of the overhead power distribution line, pulling them in compliance with the allowable tension and bending angles for the given type of electric wires on the brake drums and rolling rollers. The safety of the sheaths and the entire construction of the wire also increases the introduction of an elastic flexible layer in the elements of the equipment and suspension, with which the wire is in contact at all stages of laying and working as part of an overhead power transmission line.

The invention is illustrated by drawings, where:

in FIG. 1 shows the VLEP of a power distribution network with technological equipment for its construction;

in FIG. 2. - Suspension of current-carrying wires on the cross-arms of the VLEP supports of the power distribution network:

in FIG. 3 - drum with an electric wire in the phase of installation on the rolling unit, front view;

in FIG. 4 - linkage of a drum to a rolling unit with an upper rolling of a high-temperature composite electric wire;

in FIG. 5 - mounting connection of an electric wire with a leader cable;

in FIG. 6 - a rolling roller with a bed made with a non-damaging composite electrical wire layer, an axial section;

in FIG. 7 - tension clamp assembled, mounted on an electrical wire;

in FIG. 8 is a diagram illustrating a transfer of an electric wire from an assembly expansion roller to a support clip.

The distribution power transmission network includes a set of electrical network facilities, including at least one overhead power line, at least one lowering station (PS), consumer station (PS), as well as at least one distribution (RP) and sectioning (JV) ) item.

In the method of constructing a distribution power transmission network, at least one overhead line 1 of the distribution network is erected on high-rise towers 2 with a current-carrying part including at least one phase high-temperature electrical wire 3 comprising a core with at least one composite core and a multi-strand outer wire (conditionally not shown). Work on the construction of line 1 is carried out on the construction site with a length equal to the length of the specified line or part thereof. To do this, prepare the route of the erected line, install the foundations, equip the front 4 and the final construction and installation sites 5, respectively, before the first and last support 2, on the first platform 4, an assembly 6 of a rolling goat type having a brake and axis 7 for hitching the drum 8 with an electric wire 3 of individual length, not less than the full anchor construction length of the mentioned construction site. A brake machine 9 is also installed there with the possibility of absorbing the load from the tension of the electric wire 3. In this case, the axis of the rolling unit 6 is positioned normally to the vertical plane of the span of the constructed line 1. The drum 8 is hung on the axis 7 with the possibility of upper rolling and with the vanishing point of the electric wire 3 from the drum 8 above the hinge axis. On the site 5, a tensioning machine 10 is similarly mounted, with the possibility of hanging a drum 11 with a leader cable 12. The two brake machines 9 and the tensioning 10 are located on the indicated platforms 4 and 5 with the possibility of supplying the electric wire to the first one and leaving the last support at an angle to horizon α≤30 °, while using electric wires 3 individual for a given construction and installation section of length - not less than the full anchor construction length of the specified section. Similarly, the leader cable 12 is received with the total or cumulative length of at least the mentioned individual length of the electric wire 3. The high-rise supports 2 are mounted with traverses 13 designed with the condition of minimizing the interaction of operational electromagnetic fields of the electric wires 3, at least to an acceptable level. Electrical tracers 13 are mounted on traverses 13 and suspended to them are tension 14 and / or supporting clamps 15 for electrical wires 3, observing the condition of their greatest mutual distance in the traverse field of the support. Set the end 16 and intermediate 17 rolling rollers, which for this purpose are made with a profiled bed 18, at least the outer contact layer 19 of which is made of elastically deformable material with a hardness lower than the hardness of the outer layer of the wires of the external coil of the electric wire 3 by an amount sufficient to ensure mounting technological damage of the electric wire 3 in contact with the specified bed 18. The external working profile of the bed 18 is adopted by the depth, width and / or reduced radius of not less than one and a half times pr exceeding the overall radius of the cross-section of the laid type of electric wire 3. On the expansion rollers 16, 17 in the direction of the head 4 of the construction and installation site, the leader cable 12 is pulled, connected at one end to the laid electric wire 3 at the outlet of the latter from the brake machine 9, and the other end fasten on the tensioning machine 10 and carry out the laying of the electric wire along the rolling rollers 16, 17 with a technological tension of not more than 0.7 of the tensile strength of the electric wire 3 and the minimum bending radius on the rollers 16, 17. The diameter of the rollers 16, 17 along the bottom of the bed 18 is taken at least 40 overall diameters of the electric wire 3. After that, under technological tension, each electric wire 3 is reassembled and secured in the operational tension 14 and supporting clamps 15. The minimum bending radius of the electric wire 3 on the rolling rollers 16, 17 when erecting an overhead power transmission line 1 on high-rise supports 2 with at least one turn in plan at an angle β in the range of 5 ° <β≤60 °, provide, using rollers with a diameter along the bottom of the bed 18 of the rolling p tin 16, 17, comprising at least 60 overall diameters of the electric wire 3. In this case, the elastically deformable layer of the bed of the rollers 16, 17 is performed, for example, rubberized or polyurethane. And in the presence of one or more angular supports of line 1 with an angle of rotation in the plan of more than 60 °, rolling rollers are used in a similar design with a minimum diameter of at least 1000 mm, or tandems of two or more rollers with a non-damaging electrical wire 3 bed 18, with fastening tandem to support 2 through one point. To lay the electric wire 3, a low-twist rope with parallel-laid supporting strands in a protective sheath or in a cross-section tubular shirt, having a length corresponding to the construction length of the electric wire plus at least six heights to the point of suspension of the specified electric wire, is used as a leader cable 12. A cross-stranded multi-strand braided metal cable is used as the leader cable 12, while installation of the leader cable is carried out only on the disconnected air distribution line 1, and the leader cable 12 in areas near the brake 9 and / or tension 10 of the machine is equipped with a grounding conductor . The drum 11 with the leader cable 12 is placed on the tensioning machine 10 and serves the specified leader cable to the installation site in reverse mode, pulling it with a tension, for example, a hydraulic mechanism, and under minimum tension is fed to the rolling rollers 16, 17, connecting after laying with the end of the electric wire 3 of the brake machine 9. The end of the electric wire 3 is connected to the leader cable 12 through the swivel 20, the mounting loop 21 and the mounting stocking 22 in the form of a cross braid of soft wire and a strip of protective tape that prevents damage near the end of the electric wire 3. The pulling of the electric wire 3 is started at a minimum speed of 5 m / min, and after passing the first support 2 of the power transmission line 1, the broaching speed is increased to 100 m / min, and at the beginning of the process, the brake machine 9 is turned on, which starts to release the wire 3, increasing the sag, then turn on the tension machine 10 and produce a broach. Installation work on laying the electric wire 3 is performed using a tension machine 10, which is equipped with a winch with a variable speed of pulling, a reverse device, a device for smoothly varying traction, a limiter of a given maximum tension and a capstan, while the capstan has a diameter less than the diameter of the drum of the brake machine 9 and it is intended for winding only the leader cable 12. The brake machine 9 can be equipped with a device for smooth regulation of the braking force, which provides tension control I and the arrows of the sag of the electric wire 3, and moreover, the specified machine 9 is equipped with a double brake drum with a diameter exceeding the minimum allowable by the condition of non-destructive bending of the electric wire 3 containing composite conductors. The operation of the brake 9 and the tension 10 of the machines is automatically coordinated with ensuring the required tension in the entire permissible range of speeds for pulling the electric wire 3. The transfer of the electric wire 3 from the rollers 16, 17 to the operational tension 14 and / or supporting 15 clamps is carried out by means of a mounting beam 23 with a winch 24. After installation in operational clamps 14, 15, the electric wire 3 is equipped with a vibration damper. An overhead power line can be built with a voltage of 10-0.4 kV. In addition, a distribution overhead power line can be erected with a high-voltage voltage of 0.38-110 kV class. At the same time, when constructing overhead power transmission lines, electric wires of the type manufactured by LUMPI - BERNDORF can be used.

According to the second aspect of the invention, the distribution power transmission network comprises a plurality of electrical network facilities, including at least one transmission line with a voltage in the range of 0.38 ÷ 110 kV, at least one lowering station at 110/35/10 substations, 35/6 (10) kV substations , consumer stations PS (10) / 0.38 kV, 20 / 0.38 kV, as well as at least one distribution point RP and sectioning point SP. The power distribution network includes at least one overhead line 1, containing high-rise supports 2 erected on the foundations 2 with traverses 13, on which electrical insulators are mounted with 14 suspended wires and supporting 15 clamps with multicore current-carrying wires 3, and lightning protection wires and fittings are mounted, including vibration dampers. As multicore current-carrying accepted high-temperature composite wires 3, each of which contains a core with at least one composite core and multi-core external wire. Moreover, the specified line 1 is made as described above, the method of construction of a distribution power transmission network. At least as part of lightning protection, the distribution power transmission network contains at least one stranded wire such as an electric wire manufactured by LUMPI - BERNDORF, or wires such as fiber optic cable.

In the method of operating the power distribution network of an industrial complex, a machine-building enterprise, a complex for processing agricultural products of a gas-, oil-producing enterprise, a field, a complex oil-refining enterprise, a forestry, woodworking complex, a transport complex, a district, a city, they are received from a power source, transported over the network and released to consumers electricity. At the same time, they monitor the modes, regulate flows, enable and disable network sections. They also service the system of overhead power transmission lines, lowering stations of substations, distribution and sectioning points of RP and SP, expand the network, repair, reconstruct and / or restore the electrical facilities of the distribution network with the replacement of old and / or damaged supporting and current-carrying structures and electrical wires. In particular, at least one new overhead power transmission line 1 is erected, or the above-described method of erecting at least one of the overhead power lines, or the construction and installation section of the power transmission lines of the distribution network, high-temperature composite multicore electric wires. Each electrical wire 3 contains a core with at least one composite core and multi-core external wire. To do this, determine the place of construction of a new power line, or select the next power line that requires replacement or reconstruction of the current-carrying part, and form at least one construction and installation section with a length equal to the length of the specified power line, or its part. Then, the required repair or reconstruction works are carried out, including the necessary dismantling of unsuitable for further operation, as well as the necessary installation of new foundations and high-rise supports 2, while all of the above operations perform the above-described method of erecting a power distribution network.

In the method of laying the phase electric wire of the overhead power transmission line 1 of the VLEP, the laying of the phase electric wire 3, made of a high-temperature composite and containing a multi-strand external wire, the core with at least one composite core, is carried out during the construction of at least one overhead line 1 of the power distribution network. As a phase electric wire, a high-temperature composite electric wire such as LUMPI-BERNDORF or the like electric wires is used.

In the developed method of transporting electricity, the latter is transported from a source to a consumer directly through a separate overhead power line connecting them or through one power line of a distribution network that is connected to a power transmission network. In a more complete embodiment, the electric power is transported to the consumer through a system comprising at least one distribution network communicated through the stream of transported electric power with a high-voltage power and / or system-forming network, preferably of the type of a regional high-voltage network. At the same time, at least one of these networks is equipped in the process of construction or operational expansion, re-equipment, repair, replacement, reconstruction or restoration of at least one, preferably an overhead power line, which is sequentially built into the transport system with the possibility of being involved in the system electricity transport with the ability to supply electricity to the consumer. Moreover, the aforementioned air line 1 is equipped with at least one, preferably a combination of high-temperature air phase electric wires 3 and is constructed using the technological methods of the distribution network construction method described above.

An example implementation of the invention.

They build an air distribution network of power transmission 1 with a voltage of 110 kV and a length of 40 km. For this, power lines are divided into construction sections of 5-6 km in length. Foundations are made and high-rise supports 2 are mounted with traverses 13 designed for laying multicore high-temperature electric wires of the TAL / HACIN 120/34 type. Prepare the head 4 and end 5 mounting sites, respectively, before the first and last height support 2 of the construction site. An expansion unit 6 and a brake machine 9 with axes oriented normally to the vertical plane of the alignment of the height supports 2 are installed and fixed on the head platform 4. A tension machine 10 is likewise located on the final platform 5, which, like the brake 9, is fixed at a distance of 4 from the nearest high-rise support 2, providing an angle of inclination α of the mounted electric wire 3 not more than α≤30 °. Mount on the traverses 13 end supports 2 tension 14, and on the traverses 13 of the intermediate supports 2 supporting clamps 15 and suspend the mounting rolling rollers 16, 17 with a bed 18 adapted for rolling, not damaging the protective sheath and the design of the high-temperature electric wire 3.

A drum 8 is hung on a rolling unit 6 with a multi-core composite high-temperature electric wire 3 of individual lengths, not less than the full anchor construction length of the construction and installation site, placing it on the hinge axis 7 for the upper rolling of the specified electric wire 3. A drum 11 with a leader is hung on the tensioning machine 10 cable 12, preferably also with the upper rolling. The leader cable 12 is pulled along the expansion rollers 16, 17 to the first high-rise support 2 and the brake machine 9, connected to the end of the multi-core composite high-temperature electric wire 3 being mounted, it is pulled along the said expansion rollers 16, 17 under technological tension and transferred to tension 14 and supporting 15 clamps with a suspension to garlands of insulators.

The distribution power transmission network and the method of its construction, developed in the group of inventions, provide the possibility of a sequential transition from lines and electric networks with wires of an obsolete design with low power transmission efficiency and increased resistive losses to the construction of overhead power lines with more efficient high-temperature composite multicore electric wires with reduced material consumption and improved Efficiency and other performance characteristics what about espechivaetsya developed inventive complex assembly equipment and production techniques allow to provide the mounting and operating nepovrezhdaemost electric wires and long maintain its high quality conductive.

Claims (21)

1. The method of construction of a distribution power transmission network, including the construction of a set of network electrical objects, including at least one overhead power line, at least one lowering station (PS), consumer station (PS), as well as at least one distribution ( RP) and sectioning (SP) point, characterized in that at least one overhead power transmission line of the distribution network is erected on high-rise supports with the placement of a current-carrying part including at least one phase high temperature an electrical wire containing a core with at least one composite core and a multi-core external core, and work on the construction of the line is carried out on a construction site with a length equal to the length of the specified line or part thereof; for this purpose, the route of the construction line is prepared, installation of foundations, high-rise supports, equip the front and the last supports, respectively, the head and end construction and installation sites, on the first of which they are successively installed with rigid fixation on the basis of an aggregate of type a rolling goat having a brake and an axle for hanging a drum with an electric wire, individual length, not less than the full anchor construction length of the mentioned construction section, and also install a brake machine with the ability to absorb the load from the tension of the electric wire, the axis of the said unit is normal to the vertical plane of passage the construction line, the drum is hung on the axis with the possibility of upper rolling and with the vanishing point of the electric wire from the drum above the hinge axis; on another of the aforementioned sites, a tension machine is similarly mounted with the possibility of hanging a drum with a leader cable on it; both braking and tensioning machines are located on these sites with the possibility of supplying the electric wire to the first and leaving the last support at an angle to the horizon α <30 °, while using individual electric wires for a given construction and installation section — not less than the full anchor construction length of this section , similarly, the leader cable is adopted by the total or cumulative length of at least the mentioned individual length of the electric wire; high-rise supports are mounted with traverses designed in compliance with the conditions for minimizing the interaction of operational electromagnetic fields of electrical wires, at least to an acceptable level; install electrical insulators on the traverses and hang tension and / or supporting clamps for electrical wires to them, observing the condition of their greatest mutual distance in the traverse field of the support; set end and intermediate rolling rollers, which for this purpose are made with a profiled bed, at least the outer contact layer of which is made of an elastically deformable material with a hardness lower than the hardness of the outer layer of the wires of the external coil of the electric wire by a value sufficient to ensure the installation and technological damage of the electric wire upon contact with the specified bed, the external working profile of which is adopted by the depth, width and / or reduced radius of not less than one and a half times exceeding E dimensional radius of the cross-sectional form electrical wire routed; they are passed through the expansion rollers in the direction to the leader-leader site of the cable, connect it at one end to the electric wire being laid at the outlet of the brake machine, and fasten the other end to the tension machine and lay the electric wire along the expansion rollers with a technological tension of not more than 0 , 7 from the tensile strength of the electric wire and the minimum bending radius on the rollers, the radius of which is not less than 40 overall diameters of the electric wire, and then produced under relaying logical tension and fastening the electric wire in each operational tension and / or supporting clamps. 2. The method of erecting a distribution power transmission network according to claim 1, characterized in that when erecting at least one overhead power transmission line of the indicated transmission network, the minimum bending radius of the electric wire on the rolling rollers on high-rise towers with at least one turn in plan at an angle α in the range 5 ° <α≤60 ° provide, using rollers with a diameter on the bottom of the bed of the rolling roller, at least 60 overall radii of the electrical wire, while the roller bed is, for example, rubberized, as an elastically deformable layer and in the presence of one or more angular supports with an angle of rotation of more than 60 °, rollers in the same design with a minimum diameter of at least 1000 mm are used, or tandems of two or more rollers with a non-damaging electrical wire box are used with the tandem attached to the support through one point. 3. The method of construction of a distribution power transmission network according to claim 1, characterized in that for laying the electric wire of at least one overhead power transmission line of the specified network, a low-twisted rope with parallel-laid supporting strands in a protective sheath or in a tubular cross-stitch shirt is used as a leader cable, having a length corresponding to the construction length of the electric wire plus at least six heights to the point of suspension of said electric wire. 4. The method of construction of a distribution power transmission network according to claim 1, characterized in that when constructing at least one overhead power transmission line of said power transmission network, a multi-strand braided metal cable of the cross lay is used as a leader cable, while the installation of the leader cable only on disconnected air lines, and the leader cable in areas near the brake and / or tensioning machine is equipped with a roller ground electrode. 5. The method of erecting a distribution power transmission network according to claim 1, characterized in that when erecting at least one overhead power transmission line of said power transmission network, a drum with a leader cable is placed on a tension machine and the specified cable is fed to the installation site in reverse mode, pulling it with a tension , for example, with a hydraulic mechanism, and under minimal tension, they are fed onto the rolling rollers, connecting after laying with the end of the electric wire at the brake machine. 6. The method of construction of a distribution power transmission network according to claim 5, characterized in that when constructing at least one overhead power transmission line of said transmission network, the end of the wire is connected to the leader cable through a swivel, a mounting loop and a stocking in the form of a cross braid made of soft wire and gaskets made of protective tape to prevent damage to the end section of the electrical wire. 7. The method of erecting a distribution power transmission network according to claim 1, characterized in that when constructing at least one overhead power transmission line of the indicated transmission network, the wire pulling starts at a minimum speed of 5 m / min, and after passing the first transmission line support it increases the pulling speed up to 100 m / min, at the same time, at the beginning of the process, the brake machine is started, which starts releasing the wire, increasing the sag arrow, then the tensioning machine is turned on and broaching is carried out. 8. The method of erecting a distribution power transmission network according to claim 1, characterized in that when constructing at least one overhead power transmission line of the indicated transmission network, installation work on laying the electric wire is performed using a tensioning machine that is equipped with a winch with a smoothly varying pull speed, a reverse device, a device for changing traction, a limiter of a given maximum tension and a capstan, while the capstan has a diameter less than the diameter of the drum of the brake machine and is designed for winding only the leader cable. 9. The method of erecting a distribution power transmission network according to claim 1, characterized in that when erecting at least one overhead power transmission line of the indicated transmission network, the brake machine is equipped with a smooth regulation of braking force, which provides for the regulation of tension and sag of the wire, and, in addition, the specified machine is equipped with a dual brake drum with a diameter exceeding the minimum allowed by the condition of non-destructive bending of the electric wire containing composite conductors; at the same time, the operation of the brake and tensioning machines is automatically coordinated with the provision of the required tension in the entire permissible range of speeds for pulling the electric wire. 10. The method of erecting a distribution power transmission network according to claim 1, characterized in that when erecting at least one overhead power transmission line of the indicated transmission network, the electric wire is transferred from the roller to the operational tension and / or supporting clamps by means of a mounting beam with a winch. 11. The method of construction of a distribution power transmission network according to claim 1, characterized in that when constructing at least one overhead power transmission line of said transmission network after installation in operational clamps, the electric wire is equipped with a vibration damper. 12. The method of construction of a distribution power transmission network according to claim 1, characterized in that at least one power transmission line is erected with a voltage of 10-0.4 kV. 13. The method of construction of a distribution power transmission network according to claim 1, characterized in that at least one lowering station of 110/35/10 kV substation and at least one 35 / (6) / 10 kV substation station are erected as part of said network, as well as at least two consumer stations PS 6 (10) /0.38 kV; 20 / 0.38 kV; distribution RP and sectioning SP points. 14. The method of construction of a distribution power transmission network according to paragraphs. 1, 12, 13, characterized in that as high-temperature composite used electric wires such as electric wires of the company LUMPI-BERNDORF. 15. Power distribution network, characterized in that it contains a set of network electrical objects, including at least one transmission line with a voltage in the range of 0.38 ÷ 110 kV, at least one lowering station PS 110/35/10, PS 35/6 ( 10) kV, consumer stations PS (10) / 0.38 kV, 20 / 0.38 kV, as well as at least one distribution distribution and sectioning joint venture, while this includes at least one overhead power line containing the foundations high-rise supports with traverses on which electrical insulators with suspension are mounted multicore current-carrying wires, as well as lightning protection wires and fittings, including vibration dampers, through tension and supporting clamps, while high-temperature composite wires are adopted as multicore current-carrying wires, each of which contains a core with at least one composite core and a multicore external wire, moreover, the specified distribution network is made according to any one of paragraphs. 1-14 of the method of construction of a distribution power transmission network. 16. The power distribution network according to claim 15, characterized in that, at least in the lightning protection composition, it contains at least one stranded wire according to claim 14, or wires such as fiber optic cable. 17. The method of operation of the power distribution network of an industrial complex, a machine-building enterprise, a complex for processing agricultural products of a gas and oil production enterprise, a field, a complex oil refinery, a forestry, woodworking complex, a transport complex, a district, a city, characterized by what is received from a power supply source, is transported through the network and release electricity to consumers, monitor the modes, regulate flows, produce They switch on and off network sections, maintain a system of overhead power transmission lines, substation stations of substations, distribution and sectioning points of RP and SP, expand the network, repair, reconstruct and / or restore electrical objects of the network with the replacement of old and / or damaged support and current-carrying structures and electrical wires, including at least one new power transmission line being constructed, or laid according to any one of paragraphs. 1-14, at least on one of the overhead power transmission lines, or on the construction and installation section of the power transmission lines of the indicated network, high-temperature composite stranded electrical wires, each of which contains a core with at least one composite core and multicore external wire, for which the location of the new Power lines, or choose another power line that requires replacement or reconstruction of the current-carrying part, and form at least one construction and installation site with a length equal to the length of the specified power line, or its part; carry out the required repair or reconstruction work, including the necessary dismantling of unsuitable for further operation, and also to the necessary extent install new foundations and high-rise supports, while all of these actions are performed according to any one of paragraphs. 1-14. 18. Phase electric wire of the overhead power transmission line of the VLEP, including a live part with multicore phase conductors mounted on high-rise supports with traverses, characterized in that at least is made of high-temperature composite, contains a multicore external winding, a core with at least one composite core and laid in the specified line according to any one of paragraphs. 1-14 of the method of construction of a distribution power transmission network. 19. A method of laying a phase electric wire of an overhead power transmission line of a high voltage transmission line, characterized in that the laying of a phase electric wire is carried out during the construction of at least one overhead power line of a distribution power transmission network, while the high-temperature composite electric wire according to claim 18 is used as at least one phase electric wire. 20. The method of laying a phase electric wire according to claim 19, characterized in that a high temperature composite electric wire such as electric wires of the company LUMPI-BERNDORF or the like is used as a phase electric wire. 21. A method of transporting electricity, characterized in that the electricity is transported from a source to a consumer directly through a separate overhead power line connecting them or through one power line of a distribution network connected by electricity to a power transmission network, or through a system including at least one distribution network communicated by the flow of transported electricity with high-voltage power and / or system-forming, preferably of the type of regional, high-voltage network, equipped in the process of construction or operational expansion, re-equipment, repair, replacement, reconstruction or restoration of at least one power transmission line involved in the electric power transport system with the ability to supply electricity to the consumer and equipped for this with at least one, preferably a combination of high-temperature overhead phase electric wires according to 18 and built according to any one of paragraphs. 1-14 of the method of construction of a distribution power transmission network.

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