WO2013176582A1

WO2013176582A1 - Electrical transmission line support

Info

Publication number: WO2013176582A1
Application number: PCT/RU2013/000407
Authority: WO
Inventors: Лев Яковлевич БЕЛОЦЕРКОВСКИЙ; Виктор Иванович КОСТИКОВ; Олег Витальевич СЕМЕНКО; Александр Вячеславович ЧУМАК; Валерий ДУБРОВИЦКИЙ; Дмитрий ПОРТНОЙ
Original assignee: Бреветти Копирайт Лтд
Priority date: 2012-05-21
Filing date: 2013-05-20
Publication date: 2013-11-28

Abstract

The utility model relates to construction and can be used in the creation of supports for different purposes, especially for overhead electrical transmission lines. The required technical result of structural simplification and increased reliability is achieved through an apparatus comprising at least one post which is secured in a base and the top part of which forms the head of a support, and at least one crossarm installed on the head of the support, wherein said crossarm and/or head of the support are made of an insulating material for which a composite dielectric material is used, namely a three-dimensional cross-linked polymer reinforced by a silicon dioxide-based fiber, and wherein the conductors of the phases of the electrical transmission lines are affixed directly to the corresponding crossarms and the overall dimensions of the head of the support and/or the crossarms comply with the required length of insulation gaps between the conductors of the phases of electrical transmission.

Description

Power pole

The patented device relates to construction and could and. used to create supports for various purposes, mainly for overhead power lines.

State of the art

A device is known, made in the form of a vertical long support made of composite material, containing a power chipper body made of intersecting unidirectional threads oriented in axial and circumferential directions, fastened with a polymer binder, a system uniformly distributed with an inclination relative to it to the support base, unfastening stretch marks, and the upper platform carrying communication devices, and its power tubular body is equipped with a continuous damper-absorbing ring a layer such as rubber, polyurethane or thermoplastic placed in its wall, starting from the side of the support base, the casing wall is made of congruent, covering one another and the specified damper-absorbing ring layer from the inner and outer surfaces, spiral layers of glass or basalt fabrics of circumferential orientation, with a total width equal to the length of the body, its sections, from interwoven yarns of the axial and circumferential directions, and a polymer epoxy-containing binder with a ratio of t 1: 0.4 to 1: 0,54 [RU 99123270, Λ, E04SH2 / 02, 20.08.2001]. The disadvantage of this device is its relatively high complexity.

Also known is the support of an overhead power transmission line containing conductive structural members that are included at least in one closed loop located in a plane intersecting the line wires, while at least one current blocking element is inserted into said loop [ RU 79310, U l, H04H 12/08, 12/27/2008]. The disadvantage of this technical solution is the fire spruce narrow scope.

A disadvantage of the known supports is that when an atmospheric overvoltage occurs (when a large length of the air gap is required), an arc arises on a conventional insulator, and ι about leading to an emergency shutdown of the high-voltage line and premature wear of the insulator. Capacitive currents between the caps of insulators in 1 irlyaids lead to losses of electricity. Due to the method of suspension of the high voltage line at the support insulator and the requirements for the height of the support, the known supports are bulky and mesh-intensive.

Closest to the technical essence of the proposed technical solution is the support of the power line, containing a conduit fixed at the base, the upper part of which forms the head of the support, as well as traverses and phase wires attached to the traverses through supporting garlands, while the traverses of the extreme phases are adopted in the form two-console V-shaped insulating structure symmetrical with respect to the axis of the rack, ending with horizontal branches, on which the supporting garlands with wires are fixed phases, and the middle phase traverse is made integral and consists of two joined metal rods installed on the extreme phase traverses in the form of a flexible connection on which a garland is attached with a middle phase wire [RU 17790, Ul, Е04Н12 / 08, 04/27/2002.

The disadvantage of this technical solution is the relatively high complexity and relatively low reliability. The reason for this is the need to use current-carrying wires to hang garlands of glass, porcelain or polymer insulators. This complicates the design, causes capacitive currents between the upper parts of the insulators, and leads to energy losses. In addition, this reduces the reliable n> support, since the destruction of the upper hour of the insulator does not provide the necessary length of the insulating gap. This leads to the need to repair and replace the isolation of the Jurassic, which significantly increases operating costs. Disclosure of Entity

The required technical result is to simplify the device and increase reliability.

The technical problem is being solved to increase the reliability of the high-voltage line, reduce the number of emergency shutdowns of the high-voltage line, increase the service life of the insulating part of the support, and also reduce the metal consumption of the structures.

The required technical result is achieved by the fact that, in the support of the power line containing at least one rack fixed at the base, the upper part of which forms the head of the support with the wires of the phases of the power line suspended to it, as well as at least one crosshead, mounted on the support head, crosshead and / or support head are made of insulating material, which is used as a composite dielectric material - a three-dimensional cross-linked polymer reinforced with fiber based on silicon dioxide, p and this, the power line phase conductors are attached directly to the corresponding traverse and dimensions, at least one crosspiece and / or head supports are made in compliance with the required length of insulation gaps between the wires of power phases, which is determined from the relationship:

L - b

where L is the length of the insulation gaps between the phase wires;

- specific effective creepage distance;

U is the largest working phase-to-phase voltage;

k is the coefficient of use of the creepage distance.

In addition, the required technical result is achieved by 1 h, installed on the head of a support made of insulating material, at least one beam is made of metal.

In addition, the required technical result is achieved by that. h y mounted on a metal head of a support, at least one crosshead is made of an insulating material. In addition, the required technical result is achieved. That is, h, three traverses are used.

In addition, the required technical result is achieved by I CM, CU, when using three traverses on the metal head of the support, the upper vertical is installed and two horizontal horizontal traverses of insulating material are installed at the same or different levels below.

In addition, the required technical result is achieved by the fact that, when using three traverses on the metal head of the support, there is an upper and two side traverses made of insulating material at the same or different levels.

In addition, the required technical result is achieved by the fact that, when using three traverses, three side horizontal traverses made of metal at different levels are installed on the head of the support made of insulating material.

In addition, the required technical result is achieved by the fact that, the rack is made V-shaped.

In addition, the required technical result is achieved by the fact that, when using three traverses on a V-shaped rack with a metal head, the supports are installed at the same level as an intermediate and two side traverses made of insulating material.

In addition, the required technical result is achieved by using three traverses on a V-shaped rack with a support head made of insulating material, metal intermediate and two side traverses fixed below at different levels.

Description of the figures of the drawings

Figure 1 - design of the transmission line pylon for with V-shaped cages.

Principle of implementation

The overhead power line support comprises a base 1, which is the foundation of the power line support, and a sag 2, for example, of a V-shape. The upper part of the rack 2 forms the head 3 supports made, in a particular case, of an insulating material, on which, for example, metal intermediate 4 and two lateral crossbars 5 fixed below at the same level are mounted.

An overhead power transmission tower is used as follows.

Fiberglass Reinforced Polymer (FRP) material, which is a three-dimensional crosslinked polymer reinforced with silicon dioxide fiber, can be used as an insulating material used for trap 3 of the support and / or traverse 4, 5. combining class E fiberglass with high-strength polyurethane resins.

FRP material is resistant to environmental influences, has a low specific gravity, is a good dielectric, and has high mechanical strength. FRP material is not subject to corrosion and decay, resistant to high temperatures and fire. Operating temperature range from - 60 ° С to - + 75 ° С. FRP material has a low coefficient of thermal expansion. According to the test results, it was confirmed that for all the necessary parameters, the material has characteristics no worse than ceramic insulators, and the specific breakdown voltage of the material is no worse than 30 kV / mm.

The overall dimensions of the traverse 4, 5 and the head 3 of the support are carried out in compliance with the required length L of insulation gaps between the wires of the phases of the power transmission, which is determined from the ratio:

L = b

where: L is the length of the insulation gaps between the phase wires, cm; λ3 — specific effective creepage distance, cm / kV;

U is the largest working interphase voltage, kV;

to is the coefficient of use of the creepage distance, which

it is determined normatively from the Rules for the device of electrical installations.

The parameters and k depend on a large number of factors, in particular, on the voltage class, the length of the current path to the grounded part of the support, the length of the current leakage path between the phases, safe lifting of the support, the air gap to the grounded part of the support, the same between the phases, the arrows of the wire sag, the length of the span, the type of wire, the construction of the phase, the relative position of the phases, the climatic region for the wind load, the same for ice load, the same for galloping wires, also during lightning.

Other power transmission line support options are also possible. In particular, at least one beam installed on a support head made of an insulating material is made of metal, and at least one beam installed on a metal support head is made of insulating material! about the material.

In addition, when using the most common version of three traverses (in terms of the number of phases) on the metal head of the support, the upper and lower two horizontal horizontal traverses of insulating material could be adopted at the top and lower at the same or different levels. It is possible that when using three traverses, a lower traverse is installed on the metal head of the support, and above, at one or different levels, two lateral horizontal traverses of insulating material.

When using three traverses, three lateral horizontal traverses of metal at different levels can be installed on the head of the support made of insulating material.

For three traverses on a V-shaped stand with a metal support head, an intermediate and two side traverses made of insulating material can be used at the same level, and when using three traverses on a V-shaped stand with a support head made of insulating material, a metal intermediate and fixed below different levels two side traverses.

Electrically conductive wires are attached directly to the cross beams using standard fasteners.

The tilt angles of the traverse and the lateral parts of the head can vary widely and depend on the voltage class, type of wire, and also the conditions of the route (geodetic, climatic, seismic, etc.). They are determined on the basis of compliance with the necessary mechanical structural strength and electrical insulation strength.

The distance between the traverses is determined, incl. corona discharge requirements. Depending on the voltage class, the Moi y i traverses are located on the same level, if it is necessary to increase the distance between the traverses, the upper traverse is made higher than the lateral ones, and Moi y i also use different constructions of supports and traverses.

Presented on the drawing, a free-standing V-shaped rack with three traverses occupies a minimum space on the ground. The installation of an intermediate traverse support and two side traverses made of insulating material on the metal head or two insulating material heads and an intermediate and two dajuia side beams eliminates the need for insulators and allows using traverses themselves not specially suspended structures.

The proposed device has such important properties as ease of installation and the ability to use various versions of the rack and traverse.

Thus, thanks to the proposed design, the support allows to simplify the design and increase reliability.

The support will be devoid of the disadvantages of the known supports with a daisy suspension of insulators:

- the absence of capacitive currents between the caps of the insulators reduces energy losses;

- the impossibility of destroying the caps of the insulator guarantees the unconditional preservation of the required length insulating! about 1 ka;

- the absence of the need to replace insulation and maintain overhead transmission lines is significantly reduced! operating costs;

- the absence of the need to lift the support when the voltage is turned on leads to the 01st the need for sites, reducing the weight and material consumption of the support structure;

the individual elements of the support are disassembled in normal fan sport, as oversized cargo permit is not required.

Claims

Utility Model Formula

1. A transmission line support containing at least one syuk fixed to the base, the upper hour, which forms! the head of the support with the wires of the phases of the power line suspended to it, as well as at least one crosshead mounted on the head of the support, characterized in that the crosshead and / or the head of the support are made of insulating material, which I use ι composite dielectric material - a three-dimensional cross-linked polymer reinforced with fiber based on silicon dioxide, while the wires of the phases of the power line are attached directly to the respective yokes, and the overall dimensions of at least one yoke and / or The support woks are made in compliance with the required length of the insulating gaps between the wires of the power transmission phases, the koshra is determined from the ratio:

L - te - U - k,

where: L is the length of the insulation gaps between the phase wires, cm; e - specific effective creepage distance, cm / kV;

U is the largest working interphase voltage, kV;

k is the coefficient of use of the creepage distance.

2. The device according to claim 1, characterized in that, installed on the head of the support made of insulating material, at least one crosshead is made of metal.

3. The device according to p. 1, characterized in that, mounted on a metal head of the support, at least one of the favors made of insulating material.

4. The device according to p. 1, characterized in that it uses three traverses.

5. The device according to p. 1, characterized in that, when using three traverses on the metal head of the support, the upper and lower two traverses of insulating material are installed on the same or different levels.

6. The device according to claim 1, characterized in that, when using i pex engraver on the metal head of the support is installed lower traverse, and above at one or different levels two side horizontal traverses of insulating material

7. The device according to claim 1, characterized in that, when using ipex traverse on the head of the support made of insulating material, ipit lateral horizontal traverses from metal are adopted at different levels.

8. The device but p. 1, characterized in that the rack is made V-shaped.

9. The device according to claim 1, characterized in that, when using three traverses on a V-shaped rack with a metal head, the supports are installed at the same level as an intermediate and two side traverses made of insulating material.

10. The device according to p. 1, characterized in that, when using ipex traverse on a V-shaped rack with a support head made of insulating material, a metal intermediate and two lateral traverses are mounted below at different levels.