RU70285U1 - RACK SUPPORT SECTION - Google Patents

Abstract

A utility model relates to the field of installation of vertical structures. The support section for the rack is a spatial truss structure, which is made in the form of two flat all-welded steel frames, which are opposite sides of the section, and each consisting of two bearing belts, as well as braces or slats with holes at the ends in the form of a separate set of elements or attached to a common frame, moreover, the beams of the supporting belts of flat all-welded frames contain holes or welded to the belts plates with holes for assembling flat all-welded frames in a volumetric four ehugolnuyu the cross section structure by bolting the two flat frames together said slats or braces. 1 ill.

Description

The utility model relates to the field of installation of vertical structures, mainly support pillars of power lines (power lines), and can be used for accelerated installation of structures for various purposes.

A support section for a rack is known, which is a spatial truss structure in the form of a parallelepiped having a rectangular upper plan and a lower base, which are section bearing belts, connected by beams at the corners, which are interconnected on the side of each section section by braces or straps ( RU No. 2222488, В66С 23/62, ЕВВ 1/58, Е04Н 12/00, publ. 2004.01.27).

The disadvantage of this support section is that it is an already assembled structure used for butt joining along the belts with other similar pre-assembled sections. As a rule, such parallelepiped-shaped sections are assembled at the place of production, since when assembling only in the factory, it is possible to control the fulfillment of the conditions for parallelism and alignment of the section. The assembled sections used for power transmission lines have significant dimensions, weight and require special transport for transportation, the movement of which is determined exclusively by the built road infrastructure. Therefore, delivery to some areas where the road network is poorly developed, section deliveries are difficult.

With an increase in the voltage class of power lines, the spatial volume of the truss rack increases. It does not present a problem to develop a support strut that can withstand the corresponding loads, however, the problem remains in the delivery of sections of such a truss to the installation site on the foundation of the support.

In this regard, the present utility model is aimed at solving the technical problem of performing the support section of the national team rack from separate pre-prepared units. The technical result achieved in this case is to increase operational efficiency by reducing the complexity of transportation and

installation of the section at the installation site of the support truss, ensuring that the conditions for parallelism and alignment of the section during assembly are met.

The specified technical result is achieved in that in the support section for the rack, which is a spatial truss structure in the form of a parallelepiped having a rectangular shape in plan, the upper and lower bases, which are the bearing belts of the section, interconnected at the corners of the beams that are interconnected on the side each face of the section with braces or slats, the spatial truss structure is made in the form of two flat all-welded steel frames, which are opposite sides of the section, and each consisting of two bearing belts, as well as braces or strips with holes at the ends in the form of a separate set of elements or attached to a common frame, and the bearing belts of flat all-welded frames contain holes or welded to the belts overlays with holes for assembling flat all-welded frames into a volumetric quadrangular cross-sectional structure by connecting bolts of two specified flat frames to each other with the indicated slats or braces.

These features are significant and interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

Figure 1 - General view of the support section in disassembled condition.

The utility model considers the support section from which the power transmission pole is mounted.

The support section in assembled form is a spatial truss structure in the form of a parallelepiped having a rectangular upper and lower bases in plan view, which are bearing zones of the section, which are interconnected at the corners of the beams. These beams are interconnected on the side of each side of the section with braces or slats.

A feature of this utility model is that it is collapsible from individual elements, which are then assembled at the installation site of the rack.

The spatial truss structure is made in the form of two flat all-welded steel frames 1, which are opposite sides of the section. Each frame consists of two load-bearing belts, the upper 2 and lower 3, respectively, connected by the edges of the beams 4. The beams in each frame are also interconnected by braces or strips 5, welded to the beams or bolted to them. Thus, each frame is a separate element of a rectangular shape in plan.

In addition, the beams are made either with holes 6 on the other side, or with welded-on plates 7, which are also made with holes and to which are attached brackets or straps 8, supplied as a separate set, made with holes along the edges for bolting with beams of frames of bearing belts.

The braces or planks can be attached to a common separate frame 9, which has a rectangular shape and which is then attached (when assembling the section) to the beams using the same holes in the beams or in the welded overlays.

The assembly of flat all-welded frames into a three-dimensional quadrangular cross-sectional structure is carried out by bolting two indicated flat frames to each other with the indicated slats or braces or attaching a separate frame with braces or brackets. Since all-welded steel frames with all the connecting holes and a set of braces or strips with counter holes are made in the factory with control of the connection points, during installation the spatial position of all elements is maintained both in terms of parallelism of the faces and in alignment of the support as a whole.

The upper and lower zones and beams of all-welded frames 1, a separate frame 9 are made of, for example, a corner steel profile. Braces or strips can be made in the form of steel strips, segments of steel pipes with tapered ends or from a steel corner.

Using a collapsible section allows even very large sections to be transported to places where special vehicles cannot reach, while increasing operational efficiency by reducing the complexity of transporting and mounting the section at the installation site

support trusses, transportation costs are reduced and installation of large sections is facilitated.

This utility model is industrially applicable, as it can be manufactured using technologies commonly used in the manufacture of support sections.

Claims (1)

The support section for the rack, which is a spatial truss structure in the form of a parallelepiped having a rectangular upper and lower bases in plan view, which are section bearing belts, interconnected at the corners by beams, which are interconnected on the side of each section section by braces or strips, characterized the fact that the spatial truss structure is made in the form of two flat all-welded steel frames, which are opposite sections of the section, and each of which contains two x belts, as well as from braces or strips with holes at the ends in the form of a separate set of elements or attached to a common frame, moreover, the beams of the bearing belts of flat all-welded frames contain holes or welded to the belts overlays with holes for assembling flat all-welded frames into a volumetric quadrangular a section through a structure by bolting two indicated flat frames to each other by said slats or braces.