RU21211U1 - SUPPORT STRUCTURE FOR A TRANSMISSION LINE - Google Patents

Description

SUPPORT STRUCTURE FOR A TRANSMISSION LINE

The utility model relates to the field of construction, in particular to supporting structures in the form of a spatial truss for a high voltage power line.

Known mast support structure for fastening the wires of a power line (transmission line) in the form of a tetrahedral cross-section of the rack, including two flat trellised trusses forming one pair of opposite side faces of the support structure, and two flat livestock plates forming another pair of opposite side faces attached with their curved edges overlay to flat longitudinal zones of adjacent lattice trusses with the help of curly connecting elements and locking devices for mounted casings (US patent 3959946, Е04С 3/30, 3/34 , 52-731, publ. 06/01/1976).

The disadvantage of such a mast design is that additionally hung flat plates in the form of casings to increase their mechanical strength and aesthetic appearance increase the metal consumption and weight of the support structure, and when its height is increased to be used as a multi-chain support, there is a need its fastening with side braces and reinforcing belts for attaching traverses. In addition, the supporting structure has a complex system of connecting elements and locking devices for attaching structural plates and casings to the longitudinal belts of trellised trusses, which complicates its installation.

A support structure is known in the form of a spatial truss of a polygonal cross section for power lines, including shaped belts made of sheet material that forms a rigid profile when bent, and lattice elements attached to them, while the lateral belts of the spatial truss are trihedral

E04H12 / 00

individual metal continuous sheets bent along the entire height of the supporting structure, and includes planes in the form of isosceles triangles located at an obtuse angle to each other in the middle and adjacent to them on two sides of the rectangles forming the stiffening ribs of the belts, and the planes of the triangle and rectangles are located inclined to the vertical axis of the spatial truss, and the elements of the gratings are rigidly attached to the extreme stiffeners of adjacent side belts and placed with them in the same plane of each lateral face of the spatial truss, while the rectangular stiffeners of adjacent belts are parallel to each other, the ends of the lattice elements of adjacent lateral faces of the truss are attached to common nodes on its belts, the supporting structure in the cross section at the base and nodes of the sectional connection is octagonal, and the vertex the supporting structure in the plan is quadrangular (RU, application No. 94020592, ЕНН 12/00, publ. 1996).

This design of the transmission line support is adopted as a prototype.

The supporting structure according to this solution has high mechanical strength due to the choice of a rational configuration of the cross section, variable along the entire length of the frameless spatial truss. Since this design is a lengthy product, the features of which allow you to assemble and mount the support directly at its location, it becomes important to eliminate the violation of its spatial shape during the construction of the truss. Checking the correct spatial arrangement of the belts with respect to the vertical axis of the truss is a labor-intensive operation and cannot always be carried out with sufficient accuracy.

This utility model is aimed at solving the technical problem of facilitating and simplifying the assembly and installation of the truss by using braces of the same length and / or arrangement of adjacent rectangles of adjacent belts at the same distance from each other.

simplification of manufacture by performing it from a unified set of nodes: the same length of braces and the same shape of the belts, and simplification of the installation of the supporting structure.

The specified technical result is achieved in that in the supporting structure in the form of a spatial truss of a polygonal cross section for a high voltage power line, including figured belts made of curved in the transverse plane of the sheet material and lattice elements attached to them, each figured belt is made of trihedral of a metal sheet bent along the entire height of the supporting structure with the formation of isosceles planes located at an obtuse angle to each other of the triangle in the middle and the rectangles adjacent to it on two lateral sides, forming the stiffening ribs of the belt, the indicated plane of the belt are inclined to the vertical axis of the spatial truss, and the lattice elements are rigidly attached to the extreme stiffening ribs of the adjacent belts and are placed with them in the same plane of each side face spatial truss, while the rectangular stiffeners of adjacent belts are parallel to each other, the ends of the lattice elements of adjacent side faces of the truss are attached to conductive nodes at its zones, the distance between adjacent rectangles disposed adjacent zones are identical height spatial farm and / or elements formed as gratings struts of equal length.

Moreover, in the cross section at the base and the nodes of the sectional connection, the truss is octagonal, and the top of the supporting structure is quadrangular in plan.

To increase the stability of the supporting structure and simplify its installation, the surfaces of adjacent trihedral belts and the adjacent side face of the truss and, similarly, the surfaces of two opposite belts and the adjacent remove the side face are made of monolithic combined continuous curly sheets of thickened profile.

a new technical result, which consists in creating a lightweight fast-mounted support structure for a high-voltage power line, which has increased stability and mechanical strength in normal and emergency conditions.

The essential features of this supporting structure in the form of a spatial truss are:

- a three-sided design of spatial truss belts with continuous planes in the form of geometric figures from a seamless sheet metal sheet;

- inclined placement to the vertical axis of the spatial truss with the formation of a cross section of the truss in the shape of a quadrangle;

-placing stiffening ribs of the belts in the planes of the side faces as parts of its surface formed by lattice elements;

- the implementation of two pairs of opposite belts and adjacent side faces with solid surfaces made of monolithically combined figured sheets;

-filling the distance between adjacent adjacent rectangles of adjacent belts with the same height of the spatial truss and / or performing lattice elements in the form of braces of the same length.

The utility model is illustrated by drawings, where

figure 1 - General view of the spatial truss supporting structure with four belts;

in FIG. 2 is a general view of a spatial truss with two pairs of aligned belts.

According to this utility model, the support structure is a spatial truss of a polygonal cross section for power lines, including figured belts made of curved in the transverse plane of the sheet material and lattice elements attached to them in the form of braces, by means of which these belts are interconnected.

a continuous sheet bent over the entire height of the supporting structure with the formation of planes located at an obtuse angle to each other in the form of an isosceles triangle in the middle and adjacent to it on two sides of the rectangles forming the stiffeners of the belt.

The indicated plane of the belt are inclined to the vertical axis of the spatial truss, and the elements of the gratings are rigidly attached to the extreme stiffening ribs of the adjacent belts and are placed with them in the same plane of each side face of the spatial truss. Rectangular stiffeners of adjacent belts are parallel to each other, the ends of the lattice elements of adjacent side faces of the truss are attached to common nodes on its belts.

In the cross section at the base and nodes of the sectional connection, the truss is octagonal, and the top of the supporting structure is quadrangular in plan.

The surfaces of two adjacent trihedral belts and the adjacent lateral face of the truss and the surfaces of two other oppositely located trihedral belts and the adjacent side face can be made from one solid sheet material of a shaped profile.

The following is an example of a specific implementation of a utility model.

The supporting structure for the power line in the form of a spatial truss includes curly corner belts 1 with one triangular face 2 and two rectangular faces 3 and lattice elements 4.

The spatial truss of the support structure of the power transmission line of FIG. 1 is formed by four figured belts connected by lattice elements 4. Each truss belt 1 is made of triangular from a continuous sheet of thickened rolled metal of a curved cut, curved into three flat geometric figures in the shape of an isosceles triangle, forming the middle side face 2 of belt 1, and in the form rectangles forming the two extreme edges 3 of this farm belt.

Two extreme flat faces 3 adjoin at an obtuse angle to the flat middle face 2 of belt 1 and perform the function of stiffeners.

One extreme face 3 of each neighboring belt 1 is placed in the plane of the adjacent lateral face of the truss and is at the same time an integral part of this lateral face over its entire height.

The elements of the lattices 4 in the form of braces are rigidly overlapped to the inner surfaces of the extreme faces 3 of the adjacent belts 1 and are placed along the entire height of the side faces, and the braces of the 4 adjacent side faces of the truss are joined in the common attachment points of the adjacent belt 1. The lattice elements can be made of corner, round or other linear metal profile.

The surfaces of two adjacent trihedral belts 1 and the adjacent surface of the side face 4 and, similarly, the surfaces of two opposite belts and the adjacent side face of the truss can be made of monolithically combined continuous shaped metal sheets of a thickened profile (Fig. 2). The elements of the gratings 4 are attached to the rectangular faces 3 of these combined belts 1 along only two lateral faces of the truss.

Trihedral zones 1 and adjacent side edges 4 form a transverse study of the spatial truss in the shape of an octagon, and the top of the supporting structure in plan is made quadrangular (Figs. 1, 2).

The long support structure can be made for ease of transportation and installation sectionally from composite figuratively bent along the edge of sheet metal strips attached to each other by upper and lower edges, for example, using flange joints built from the inside of them, made of angle or flat profile and welding.

Such a construction of a spatial truss from solid figuredly bent metal sheets with a larger cross-sectional area at the base of the supporting structure than the cross-sectional area at the top of the support, and with an octagonal spatial truss with side faces reinforced with stiffeners 3 and lathing elements 4 having common attachment points on each belt 1, has a high

mechanical strength to bending and torsional loads when performing multi-chain support of power lines and when one of the phase wires of a high voltage power line breaks.

At the same time, this design has a small metal consumption and light weight, can be quickly mounted. When assembling the truss of the supporting structure, it is necessary to observe the correct angles of inclination of the side belts to the central vertical axis of the support and the arrangement of the belts relative to each other in the transverse plan. To solve this problem, it is provided that the distance between adjacent rectangles of neighboring zones is the same in height of the spatial truss. In this case, the position of the belts relative to each other is easily adjusted, which makes it possible to assemble the truss in accordance with the spatial arrangement of its belts and slopes to the vertical axis of the truss. In this case, braces of various lengths can be used. Perhaps the oriented position of the belts relative to each other when using elements of gratings made in the form of braces of the same length. Since the braces of 4 adjacent lateral faces of the truss are docked in the common attachment points of the adjacent belt, using braces of the same length when installing the truss, the spatial belts are laid out in accordance with the specified location relative to each other and taking into account the slopes to the vertical axis of the truss. It is possible to solve the problem of checking the correct spatial position of the elements of the farm combined combination of the same distance between adjacent rectangles of adjacent belts and braces of the same length.

This utility model is industrially applicable, since its implementation does not require special technology other than that currently used in the manufacture of truss structures.

Claims (3)

1. The support structure for the power line, which is a spatial truss of a polygonal cross section, including figured belts made of curved in the transverse plane of the sheet material and lattice elements attached to them, each figured belt is trihedral of a solid metal sheet, curved over the entire height of the supporting structure with the formation of planes located at an obtuse angle to each other in the form of an isosceles triangle in the middle and adjacent to it in two large The sides of the rectangles that form the stiffeners of the belt, the indicated plane of the belt are inclined to the vertical axis of the spatial truss, and the lattice elements are rigidly attached to the extreme stiffeners of the adjacent belts and placed with them in the same plane of each side face of the spatial truss, while the rectangular stiffeners of adjacent the belts are parallel to each other, the ends of the lattice elements of adjacent lateral faces of the truss are attached to common nodes on its belts, characterized in that the distance between I wait for the adjacent rectangles of adjacent belts to be made identical in height to the spatial truss and / or lattice elements in the form of braces made of the same length.  2. The supporting structure according to claim 1, characterized in that in the cross section at the base and the nodes of the sectional connection, the truss is octagonal, and the top of the supporting structure is quadrangular in plan. 3. The supporting structure according to claim 1, characterized in that the surfaces of two adjacent trihedral zones and the adjacent side face of the truss and the surfaces of two other oppositely located trihedral zones and the adjacent side face are made of one solid sheet material of a shaped profile.