RU65082U1 - ELECTRIC TRANSMISSION LONG-TERM CARRYING STAND - Google Patents

Abstract

The utility model relates to construction. The support of the power line support is made of long bent metal sheets or bent metal sheets sectionally connected to each other, forming a cross section open on one side along the entire length of the rack. The rack or each section of the rack has a central part in the form of a quadrangle of equal or variable width in height, from which lateral surfaces are bent at a right angle, the ends of which are wider than the width of the side surfaces, are bent at a right angle to each other along the height of the rack or section to form open section of a rectangular shape, and connected to each other by braces or slats. 1 ill.

Description

The utility model relates to construction, in particular, to long-length load-bearing structures such as a rack of a support of a power transmission line (transmission line).

Known long columnar supporting structure of a trihedral support pillar for multi-purpose, made of components comprising a hollow base of a triangular section, a hollow trunk of a smaller cross-section included in it and a connecting element fastening the trunk to the base and supporting this trunk, and the outer surfaces of the main parts are made of bent sheet material (GB No. 92430, Е04Н 12/08, Е04С 3/32, 09/12/1958). The specified long rack design is suitable for use as a support for low voltage power lines, however, it is difficult in the design of elements of adjacent faces of the base of the rack and the connecting part supporting the barrel, which makes it difficult to install.

Also known is a lengthy load-bearing building structure, such as a support pole of a power transmission line, including concave lateral faces of a support shaft made of thin curved sheets, constituting a section of an equilateral triangle that is constant along the entire height of the trunk and concave side edges of stiffeners in the form of support structure belts, also forming equilateral triangles rigidly connected to the vertices of the triangle of the support shaft (SU No. 483504, Е04С 3/07, Е04Н 12/00, published on 09/05/1975).

This design of the rack from a thin-walled sheet with a small base area and the same cross section over the entire height of the support has insufficient mechanical strength from torsional and bending moments, which necessitates reinforcement of the structure, as well as additional installation operations when connecting sheet strips of belt stiffeners, which complicates the assembly of the support and increases the time of its installation.

The closest (prototype) to the claimed object is a lengthy load-bearing structure such as a rack of a power line, including side faces with stiffeners made of sectional

connected to each other bent metal sheets constituting its triangular cross-section, characterized in that the surfaces of the two side faces and stiffeners of each section of the rack are made of a continuous V-shaped curved curved sheet strip with end bends, forming three corners of the sheet rigid corner profiles load-bearing belts, two equally spaced planes between them, adjacent trapezoid-shaped lateral faces, two flat end bends of the stiffener sheet in parallelograms oblique at an obtuse angle to the planes of adjacent side faces and fastened to each other by lattice elements forming the surface of the third side face in the form of an isosceles trapezoid of the supporting structure, while the stiffeners are located symmetrically from different sides of the lattice side face on the same plane ( RU No. 2083785, Е04Н 12/00, published on July 10, 1997).

A feature of such a support is its implementation from a bent sheet with the formation of a cross section in the form of an open triangle. With this design, the stability of the support increases, its metal consumption decreases. In addition, this design in the lower part, extending to a level below the middle of the height, has an increased windage, increasing the load on the foundation.

This utility model is aimed at solving the technical problem of changing the cross-sectional profile of the support to ensure its compactness and increase mechanical strength.

The technical result consists in increasing the stability of the supporting structure of the support strut in normal and emergency conditions by enhancing its mechanical strength.

The specified technical result is achieved by the fact that in a long bearing rack, the power line supports, including side faces with stiffeners, made of bent metal sheets or bent metal sheets sectionally connected to each other, forming a cross section open on one side along the entire length of the rack, the rack or each section of the rack, made of bent metal sheet, has a central part in the form of a quadrangle of equal or variable width in height, from which at right angles m bent

lateral faces, the ends of which are wider than the width of the lateral faces, are bent at a right angle to each other along the height of the rack or section to form stiffeners in an open section of a rectangular shape.

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

The utility model is illustrated by a concrete example, which, however, is not the only possible ones, but clearly demonstrates the possibility of achieving the required technical result by the given combination of features.

In Fig.1 - a long bearing rack of a support transmission line.

The long support column of the power line support is made of either a continuous metal sheet or of separate sections 1 joined along the height of the column, each of which is also made of a continuous metal sheet. An embodiment is possible when each section or column as a whole is made of separate sheet strips welded together to form a given cross section.

The stand as a whole or each of its sections has a central part 2 in the form of a quadrangle of equal or variable width along the height of the stand, from which the side faces 3 are bent at a right angle, the ends 4 of which are wider than the width of the side faces, are bent under the straight height angle to each other to form stiffeners in an open section of a rectangular shape. Stiffeners are connected to each other by slats or braces.

All sections of the rack or the rack is entirely made of one continuous metal sheet metal sheet, curved to cut into curved planes, forming a hollow frameless spatial shape in the form of, for example, a truncated pyramid (figure 1). The lateral faces of the 3 pyramids are congruent (equal) and symmetrically adjoin the central part along the edge of the bend of the metal sheet.

The congruence of the curved planes of the supporting structure contributes to the even distribution of loads on the rack elements of the plane of the side faces. The bearing capacity of the structure with a cross section in the form of an open rectangle is sufficient for the stability of the support strut in the direction of the longitudinal axis of the power line, and stability in the transverse direction to it is provided due to the planes of the stiffeners. This design of the support strut has enhanced mechanical strength to bending loads and axial rotation in emergency conditions.

For the convenience of transportation to remote sections of the route, the long support structure can be made up of sections formed by continuous bent sheet strips of a curved edge, sheet strips at the installation site are fastened together from the inside with bolted flange joints, plates or welding.

This utility model is industrially applicable, as it can be manufactured using the prototype rack technology.

Claims (1)

A long support column of a power line support made of bent metal sheets or bent metal sheets sectionally connected to each other having lateral faces with stiffeners to form a cross section open on one side along the entire length of the rack, characterized in that the rack or each section the stand, made of a metal bent sheet, has a central part in the form of a quadrangle of equal or variable width in height, from which the side faces are bent at a right angle, whose width, smaller than the width of the side faces, along the height of the rack or section is bent at right angles to each other to form stiffeners in an open section of a rectangular shape, and these stiffeners are interconnected by braces or straps.