RU2743116C1 - Support from sections of the multi-faceted cross-section - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to the field of construction, namely to supports made of sections of a multi-faceted cross-section used for power lines, in cellular communication supports and wind turbine plants, etc. A support made of sections of multi-faceted cross-section, including sections of steel sheets connected to each other in height by bolts, and the sections are connected to each other in height by bolts. Steel sheets are made of a trapezoidal shape and are prone to bending with the formation of facets. On their edges bendings are made, which are connected with bendings of adjacent sheets with bolts. The upper sections are turned and telescopically located over the lower sections, which have cutouts at the place of intersection with the bendings of the upper section sheets. The bolts are set in a place of the overlap of the upper section to the lower section.EFFECT: support allows reducing steel consumption by 18% and reducing the number of bolts by 40-60%.1 cl, 4 dwg

Description

The invention relates to the field of construction, namely to supports from sections of multifaceted cross-section used for power lines, in supports of cellular communication and wind turbines, etc.

Known support, which is made of steel sections of variable cross-section. Each section is made in the form of a polyhedral pipe by longitudinal bending of a steel sheet and welding it along the length at the point of contact of the joined lateral ends. In this case, the upper section is pushed onto the upper end of the lower section. [Patent RU2248434. M CL E04H 12/08].

The disadvantage of this support is that welding is used for its manufacture, which violates the corrosion resistance. Therefore, the support sections are made of black steel, and then galvanized. In addition, insufficient bearing capacity of the section connection.

Known steel multifaceted support from sections of variable cross-section. Each section is made of steel sheet, by its longitudinal bending and after the formation of a multifaceted section, the side surfaces are welded along the length of the section. The assembly of the support in height is carried out by telescopic connection of the upper section with the lower one [STO 56947007-29240.55.054-2010. Guidelines for the design of supports and foundations for them for overhead lines with a voltage of 110-500 kV. JSC FGC UES-2010].

The disadvantage of these supports is the small size and low strength of the section connections.

The closest to the invention is a steel support made of multi-faceted sections. Each tapered section is made up of individual flat steel sheets connected by bolted joints with connecting plates. Section formation is closed and multifaceted. The sections are connected in height with the help of special bolted flanges. [Patent US2009 / 0021019 A1. IPC F03D9 / 00, E04H12 / 00].

A disadvantage of the invention is that a plurality of flat steel sheets connected by bolted plates are used to manufacture the section. In addition, when connecting the sections together, carbon plates are also used, which act as flanges.

The aim of the invention is to reduce the material consumption of the support structure and the complexity of manufacturing by reducing bolted connections.

The result is achieved by the fact that the support is made of sections of a multifaceted section, including sections of steel sheets connected by bolts, and to each other in height also with the help of bolts, while the trapezoidal steel sheets of each section are subject to bending with the formation of edges, and along their edges bends are made, which are connected by bolts with bends of adjacent sheets, while the upper sections are turned and moved to the upper edges of the lower sections, in which cuts are made in place at the place of support of the bends of the sheets of the upper section, while bolts are installed in the place where the upper section overlaps the lower section.

FIG. 1 shows a fragment of a support from only two sections of a polyhedral section; in FIG. 2 shows a section 1-1 in FIG. one; in FIG. 3 shows a general view of the steel sheet from which the section is made; in FIG. 4 shows a general view of the process of trapezoidal movement of the upper section to the lower one.

The support of sections of a polyhedral cross-section consists of sections 1, while the section consists of special steel sheets with edges 2 at the folds of the edges 3, in which holes 4 are made for bolts 5. Along the perimeter of the connection of the sections, holes 6 are made together for connecting the bolts 7.

The assembly of the support is carried out as follows. At the beginning, sections 1 are assembled from steel sheets. The section is assembled from sheets (Fig. 3) by installing bolts 5 in the hole 4. in the folds of the edges of the sheets 3. In the upper part of the assembled section, cutouts 8 are provided for skipping folds 3 of the edges of the sheets of the upper section. The upper section 1 rotates until the folds are aligned with the cutouts and telescopically slides onto the lower section. After sliding the section, the bolts 7 are installed, which are inserted into the aligned holes 7 in the lower and upper sections.

A support made of multi-faceted sections allows to increase the size of the diameter of the sections while reducing steel consumption by 18% and reducing the number of bolts used by 40-60%.

Claims (1)

A support made of sections of a multifaceted section, including sections of steel sheets connected by bolts in height, and the sections to each other in height are also connected by bolts, characterized in that the steel sheets are trapezoidal and are subject to bending with the formation of edges, and along their edges are made bends, which are bolted to the bends of adjacent sheets, while the upper sections are turned and telescopically pushed onto the lower sections, in which cutouts are provided at the place of support of the bends of the sheets of the upper section, while bolts are installed in the place where the upper section overlaps the lower section.

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