RU50554U1 - POWER SUPPLY LINES - Google Patents

Abstract

The utility model relates to construction, in particular to long structures, for example, to the poles of power transmission towers. The power line support includes a multifaceted vertical rack supported on a foundation. Distinctive features are that the rack is made in height of two parts, while the top part of the rack is multifaceted, and the lower part of the rack is made in the form of a lattice truncated pyramid formed from elements of the corner profile, expanding from the place of interfacing with the upper part of the rack to the foundation wherein the foundation is made of three or more parts that are attached to the edges of the truncated pyramid.

Description

The utility model relates to the construction, in particular, to lengthy structures, for example, to the uprights of transmission line towers.

A well-known transmission line support, including a vertical, lattice rack, see KP Kryukov and others. "Design and calculation of metal and reinforced concrete supports of power lines", Energy, LO, 1975, p. 48, Fig. 2-2 .

The well-known support is based on 4 foundations, which perceive, mainly, an pressing or pulling load.

The lattice rack of the support has a relatively large transverse dimension, which complicates the transportation of welded sections. For this reason, the support elements are usually transported in bulk and assembled on bolts, which increases the complexity and installation time.

The closest technical solution to the declared one is the transmission line support, including a multifaceted vertical rack, supported by a foundation, see M.A. Zeitlin “Experience in the design and use of OHL towers with steel multi-faceted racks”, collection “Progressive solutions in electric grid construction”, M ., Energy Network Project, 1988, p. 102, 103, Fig. 1a.

The support stand has small cross-sectional dimensions, which allows it to be transported without difficulty from the manufacturer to the installation site, breaking, if necessary, along the length of 2 or more

sections. A small number of mounting elements are the main advantage of multifaceted supports.

Known support is installed on a single cylindrical, steel or reinforced concrete foundation, which works mainly on bending. The bearing capacity of fixing on such a foundation depends on the strength of the foundation itself and on the ability of the base to perceive the bending moment acting on the foundation.

With large bending moments at the foundation level or with soft soils, fixing on one foundation becomes irrational, since it requires an increase in the size of the foundation, which leads to large costs of material on the foundation and increase its cost.

The basis of this utility model is the solution to the problem of increasing the bearing capacity of securing the support in conditions of large bending moments or weak soils, as well as simplifying the transportation and installation of the support, reducing the cost of the foundation.

According to a utility model, this goal is achieved due to the fact that in the support of the power line, including a multifaceted, vertical strut, the top part of the strut is made multifaceted, and the lower part is made in the form of a lattice truncated pyramid formed from elements of the angular profile, expanding from the interface with the top part of the rack, and the foundation is made of three or more parts that are attached to the edges of the truncated pyramid.

The applicant has not identified technical solutions that are identical to the claimed utility model, which allows us to conclude that it meets the criterion of "novelty."

The essence of the utility model is illustrated in the drawing, which shows a General view of the support.

The power line support includes a stand, which is made in height of two parts, top 1 and bottom 2, supported on a foundation 3.

The upper part 1 of the rack is made of a steel polyhedron, and the lower part 2 is made in the form of a lattice truncated pyramid formed from elements of a corner profile, expanding from the place of interfacing with the upper part 1 of the rack, and the foundation 3 is made of three or more parts that are attached to the ribs truncated pyramid.

The fastening of the rack on three or more foundations, which perceive mainly the pressing or pulling loads, significantly increases the bearing capacity of the support fastening, which is very important both for large bending moments and for soft soils.

The loads on the foundation depend on the dimensions of the base of the support, which can be selected in accordance with bending moments and the bearing capacity of the base, due to the inclination of the ribs of the lower part of the rack.

For ease of transportation, the lower part 2 of the support strut in

transport position is disassembled and assembled directly on the installation site.

The upper part 1 of the rack consists of a small number of transportable sections, which are also assembled at the installation site.

Thus, the proposed construction of the support can significantly increase the bearing capacity of securing the support, reduce the cost of foundations at large bending moments or weak soils, as well as simplify the transportation and installation of the support.

Claims (1)

The power line support, including a multifaceted, vertical stand supported on a foundation, characterized in that the stand is made in two parts in height, with the top part of the stand being multifaceted and the lower part made in the form of a lattice truncated pyramid formed from elements of the angle profile, expanding from the interface with the upper part of the rack, and the foundation is made of three or more parts that are attached to the edges of the truncated pyramid.