RU2700849C1 - Intermediate power transmission line support - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction of supports of high-voltage power transmission lines, in particular, to structures of V-shaped hinged supports, geometric position of which is adjusted by tension of braces. Offered intermediate support of the power transmission line contains inclining posts resting on the surface foundation and arranged V-shaped, fixed to the pull-out struts and a traverse for suspension of wires. Surface foundation is made in form of support beam arranged along axis of power transmission line. Stands are connected to each other by transverse diaphragms, are made with expansion in lower part and fixed on support beam by means of two support units spaced apart along length of beam by 0.5–3 m.

EFFECT: higher stability of structure, its rigidity and bearing capacity, prevention of destruction of surface foundation, which provides possibility of long-term operation of support.

8 cl, 4 dwg

Description

FIELD OF THE INVENTION

The invention relates to the field of construction of supports for high-voltage power lines, in particular to structures of V-shaped hinged supports, the geometric position of which is regulated by the tension of guy wires.

State of the art

In areas of subsidence and weakened soils, as well as in locations of underground workings, mainly supports with guy wires are used, which are fixed to freestanding anchor foundations on the sides of the support shaft, which allows the adjustment of the geometric position of the trunk.

Known intermediate support of the power line (see patent SU 1379436, IPC: E04H12 / 00, publ. 07.03.88), including inclined, V-shaped racks, united by cross flexible connections, and a metal cross-beam in the form of a half ring with a tight tightening, cable resistances and cantilever elements interconnected by flexible rods.

Known intermediate support overhead power lines (see patent RU 49072 U1, IPC: E04H12 / 08, publ. 10.11.2005), containing a V-shaped trunk, the struts of which are connected by an inter-pillar mount in the form of flexible couplers, a traverse for hanging wires and spatially oriented guy wires fixed at one end to the uprights and at the other end to anchor foundations located on opposite sides of the trunk.

Significant disadvantages of both of these analogues should be attributed to the relatively low stability provided only by a guy line system, as well as the use of vertical recessed foundations, the device of which involves the use of expensive complex equipment, carrying out wet concrete work, welding, etc., which significantly complicates and increases the cost of building the line.

Known designs of fast-mounted supports of power lines that do not require complex foundations, including a surface-mounted cross-shaped support platform and a mast with traverse and guy wires installed on it (for example, patent RU 120683, publ. 09/27/2012; patent RU 2539042, publ. 10.01.2015 ) However, these supports are not very reliable and bearing capacity, because they are designed for short-term use, for example, in the event of an accident or repair of the main line. At the same time, there is a high probability of the support tipping over during soil subsidence, which is due to the fastening of guy wires to the supporting platform.

As the closest, by the presence of similar structural features, analogue to the claimed technical solution, a power line support has been adopted (patent RU 2256049, IPC: Е04Н12 / 08, publ. 07/10/2005), containing inclined racks supported on a surface foundation located V-shaped fixed to guy rods and traverse for hanging line wires.

The advantage of the mentioned solution is the use of a surface foundation, which allows to exclude earthwork and thereby significantly simplify the installation of the support.

The disadvantages of the closest analogue include a relatively low stability and bearing capacity, a high probability of destruction of the foundation in the case of long-term operation and under the influence of high loads, which does not allow using this design as a stationary support for a long time.

A technical problem, the solution of which is provided by using the invention and which could not be solved by using known analogues: to provide ease of installation in one design, due to the use of a surface foundation, high stability and bearing capacity of the support, which will allow it to be used for stationary installation.

Disclosure of the invention

The essence of the invention as a technical solution lies in the fact that in the intermediate support of the power line, containing inclined racks resting on a surface foundation, arranged V-shaped, fixed to guy rods and a traverse for hanging wires, according to the claimed invention, the surface foundation is made in the form of a support beam placed along the axis of the power line, while the racks are interconnected by transverse diaphragms, are made with expansion in the lower part and are mounted on a support bar through two support nodes spaced along the length of the beam at a distance of 0.5-3 m.

As in the closest analogue, the use of a surface foundation completely excludes earthworks. The proposed support is quite simple and quick to assemble in the field in the absence of special equipment.

In this case, unlike the closest analogue, the proposed V-shaped support has an elongated surface foundation in the form of a support beam oriented along the axis of the power line, and racks expanding downward, mounted on the foundation beam by means of two, and not one, analogs, support nodes, spaced along the length of the support beam at a given distance.

The proposed solution allowed to increase the supporting area of the V-shaped structure and thereby significantly increase the stability of the support in relation to any loads, as well as reduce the load on the foundation due to the redistribution of pressure along the length of the support beam between the support nodes, thereby eliminating the possibility of destruction of the foundation and ensuring reliable and long-term operation of the support.

 Due to the fact that the racks are interconnected by transverse diaphragms, the rigidity of the V-shaped support shaft and its bearing capacity are significantly increased.

 All this, together, ensures reliable operation of the structure over a long service life.

The specified distance between the support nodes is from 0.5 to 3 m, optimally 2-2.5 m. The distance between the support nodes less than 0.5 m will not allow to achieve the above technical results.

Increasing the distance between the support nodes more than 3 m, as shown by the calculations, is not economically feasible. There is an increase in the metal consumption of the structure without a significant increase in the stability of the support.

In order to simplify installation work, the support nodes can be mounted (rigidly fixed) on one carrier plate, which is mounted on the support beam and rigidly fixed on it, for example, by means of clamp ties.

The plate provides rigid fixation of a predetermined distance between the support nodes and contributes to an additional increase in the supporting area of the structure and to reduce the loads on the foundation.

Each rack is preferably made in the form of a flat lattice, the vertical belts of which are connected by lattice elements (braces or horizontal strips), have conjugated, rigidly interconnected upper ends and diverging lower ones, while the latter are equipped with fastening elements in the support nodes.

In order to facilitate the processes of transportation and installation, each belt can be made integral of several sections connected by bolted connections.

As a traverse, it is preferable to use a flexible insulating (hereinafter - cable-stayed) traverse, fixed to the upper ends of the racks, equipped with insulating pendants for wires.

Transverse diaphragms of rigidity are made in the form of flat gratings.

The guy wires are fixed to the posts in two levels: the level of the beam and the upper diaphragm.

The second end of the guy rods is fixed in separate anchor foundations spaced on opposite sides of the support shaft. In case of soil subsidence in the area of one of the anchor foundations, the support is held at the expense of others, which eliminates the overturning of the structure.

All support elements, including flat lattices of racks and diaphragms, are assembled by means of bolted joints, which provides convenient transportation and simplifies corrosion protection technology, due to the possibility of using the hot-dip galvanizing method, which is carried out in the factory.

The drawings show an intermediate transmission line support made in accordance with the claimed invention:

in FIG. 1 - support, general view;

in FIG. 2 - also, side view;

in FIG. 3 - volumetric projection of the support, without guy wires;

in FIG. 4 is an example of a foundation placement scheme.

The implementation of the invention

The intermediate support of the power line, a general view of which is shown in FIG. 1 includes inclined racks 2 and 3, supported on a surface foundation 1, arranged V-shaped and rigidly interconnected by transverse diaphragms 4, cable-stayed cross-beam 5 for hanging wires, fixed to the upper ends of the racks, and guy wires 6, fixed at one end to the racks, and others, to freestanding anchor foundations 7 located on opposite sides of the support shaft. The surface foundation 1 is made in the form of an elongated beam (hereinafter referred to as the support beam 1) laid directly on the ground along the axis O of the power line (see figure 2). As such a foundation, a standard reinforced concrete pile of appropriate sizes, with sufficient weight, can be used.

Each rack (2, 3) is made in the form of a flat lattice formed by vertical belts 8 and 9, rigidly interconnected by elements of the lattice 10. The upper ends of the belts 8 and 9 are interlinked (inextricably linked), and the lower ends are divorced and fixed in supporting nodes 11 and 12, respectively, mounted on a support beam 1 (see Fig. 2, 3).

Each support node 11 and 12 provides the possibility of hinging two vertical belts: one belt of each rack 2 and 3, respectively. Between themselves, the support nodes 11 and 12 are spaced along the length of the support beam 1 by a predetermined distance s of 0.5 to 3 m, optimally 2-2.5 m.

Transverse diaphragms 4 are also made in the form of flat gratings.

Vertical belts 8 and 9 of struts and struts of stiffness diaphragms 4 are made of rectangular closed profiles, which, with minimum weight parameters, are characterized by high mechanical strength and rigidity to bending and torsion, which allows the support to withstand the load when straining wires and breaks.

For the connecting support elements, corners and other open profiles can be used.

The support is delivered to the installation site in fully or partially disassembled form.

For ease of transportation and installation, the vertical belts 8 and 9 of the racks can be made integral of sections connected by means of flange bolted connections 13 (see Fig. 3).

The implementation of the support is fully prefabricated bolted provides ease of transportation and allows you to apply for the elements of the support method of hot dip galvanizing, which provides the most reliable protection against corrosion.

In order to increase the productivity of installation work, the support nodes 11 and 12 can be mounted on one common plate 14, mounted on the support beam 1 and secured, for example, by means of clamp ties.

The assembled V-shaped structure mounted on the foundation is fixed by guy wires 6, which are fixed to the posts 2 and 3, at least in two levels: the level of cable stay of the cable stay 5 and the upper transverse diaphragm of rigidity. The second end of the guy wires 6 is fixed in a freestanding anchor foundations 7, spaced on different sides from the support beam 1 and the shaft of the support (see Fig. 4).

In the case of subsidence of the soil in the area of one of the anchor foundations 7, the support is held at the expense of others, which eliminates the overturning of the structure.

The regulation of guy wires 6 allows you to compensate for errors of preparation of the earth's surface or to exclude preparation at all, as well as to compensate for seasonal swelling and subsidence of the soil.

To the flexible traverse 5, wires 15 of the power line are suspended (see Fig. 2), using known technologies and suspension insulators of standard factory production (not shown in the drawings).

The inter-pillar connection, made in the form of transverse diaphragms 4, provides high rigidity of the V-shaped structure.

During operation, the load supports from the weight of the wires are uniformly transferred to the supports 2 and 3 of the support and distributed over the area of the support beam 1 between the support nodes 11 and 12. As a result, the support is highly stable and the foundation is destroyed.

The proposed design withstands high and long mechanical stresses from the weight of wires, wind and snow, ensuring reliable operation for a long service life.

Through the use of a surface foundation and bolted joints, the proposed support has the ability to quickly deploy without the use of heavy construction equipment, through the use of lightweight mounting mechanisms and small-scale mechanization. The estimated assembly and installation time of the support is about five hours.

Claims (8)

1. An intermediate support of a power line, comprising inclined racks resting on a surface foundation, arranged V-shaped, fixed to guy rods and a cross-arm for hanging wires, characterized in that the surface foundation is made in the form of a support beam placed along the axis of the power line, the posts are interconnected by transverse diaphragms, are made with expansion in the lower part and are fixed on the support beam by means of two support nodes spaced along the length of the beam at a distance of 0.5 - 3 m . 2. A support according to claim 1, characterized in that the support nodes are mounted on a common plate made with fastening elements on the support beam. 3. The support according to claim 1, characterized in that each rack is made in the form of a flat lattice, the vertical belts of which are rigidly interconnected by lattice elements, have conjugate upper ends and diverging lower ends made with fastening elements in the support nodes. 4. Support according to claim 3, characterized in that each belt is made up of sections made of bolted joints. 5. Support according to claim 1, characterized in that the transverse diaphragms are made in the form of flat gratings. 6. The support according to claim 1, characterized in that the guy wires are fixed to the uprights in two levels: the level of the traverse and the upper diaphragm. 7. Support according to claim 1, characterized in that the traverse is made cable-stayed. 8. Support according to claim 1, characterized in that all the support elements are galvanized by hot dip galvanizing.

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