RU89153U1 - LONG LENGTH STEEL RACK FOR ELECTRIC TRANSMISSION LINE - Google Patents

Abstract

1. A long steel rack for a power line, which is a spatial truss of a polygonal cross section, containing four curly bearing belts located at a distance from each other and interconnected by inclined braces to form a closed transverse contour, each curly belt is made of a metal continuous sheet , curved in the transverse plane along the entire height of the supporting structure, and the braces in the form of corners are rigidly attached to the extreme surfaces of the bottom belts, characterized in that the carrier belts are made in the form of angles of variable cross-section, each side surface of which is a triangle or trapezoid in plan, the distance between adjacent adjacent side surfaces of the carrier belts along the height of the carrier belts is the same. ! 2. The long steel rack according to claim 1, characterized in that it is provided with additional horizontally directed struts fixed between each two adjacent braces on the side of at least one face of the section.

Description

The utility model relates to the field of construction of vertical support pillars of power lines (power lines).

Long racks, in particular racks of lattice steel supports for overhead power lines (VL), consist of bearing belts and braces. The metal consumption, and accordingly the price of the uprights of the OHL supports, is determined by the weight of the bearing belts and braces.

A support structure for a power line is known, which is a spatial truss of a polygonal cross section, containing at least three curly belts located at a distance from each other and interconnected by lattice elements to form a closed transverse contour, each curly belt is made of trihedral metal a continuous sheet bent in the transverse plane along the entire height of the supporting structure with the formation of a given geometric shape of the central surface the bent surfaces located at an obtuse angle to it, forming the stiffening ribs of the belt and made of a given geometric shape, the planes of these belt surfaces are inclined to the vertical axis of the spatial truss, and the lattice elements are rigidly attached to the extreme stiffening ribs of adjacent belts and are placed with them in the same plane of each lateral faces of the spatial truss, while the stiffeners of adjacent belts are parallel to each other, the ends of the lattice elements of adjacent lateral faces of the truss attached to common nodes on its belts, characterized in that the central surface of the belt is made in the form of an isosceles triangle or trapezoid, and each of the stiffening ribs adjacent to the central surface of the belt along its two sides is made in the form of an isosceles or rectangular triangle or trapezoid while the base of each triangle or the larger base of each trapezoid is located at the base of the truss (RU No. 2204672, ЕНН 12/10, publ. 05/20/2003).

The known construction of the OHL support strut contains curly bearing belts of variable cross-sectional height, representing a channel with shelves bent by 60 °, and braces connecting the bearing belts. The considered stand design has good mechanical characteristics, however, the bearing belts used in the stand design have a small inertia radius, which requires the arrangement of braces with a small angle of inclination in order to limit the free length of the belts (the distance between adjacent points of welding of the braces on the belt) by condition local sustainability. This, in turn, leads to an increase in the number of braces, and, accordingly, the weight of the rack support of the overhead line as a whole, and also increases the complexity of rack assembly. In addition, a large number of braces leads to an increase in their area and, as a result, to an increase in wind pressure on the support strut, which creates an additional bending moment in the support strut.

This utility model is aimed at solving the technical problem of reducing the rack metal consumption by increasing the inertia radius of the bearing belts and increasing the angle of inclination of the braces.

The technical result achieved in this case is to increase operational qualities by reducing the weight of the rack and the complexity of assembling it, which will lead to a reduction in the price of the OHL pillar rack, and will also reduce the wind pressure on the column rack by reducing the area of the braces. In addition, the technical result is also the possibility of lifting the installation and maintenance personnel on the poles of overhead lines, in which the angle of inclination of the braces is more than 30 degrees with a half-step of the grill more than 0.6 m, and reducing the metal consumption of the rack.

The specified technical result is achieved in that in a long steel rack for a power line, which is a spatial truss of a polygonal cross section, containing four curly bearing belts located at a distance from each other and interconnected by inclined braces with the formation of a closed transverse contour, each the figured belt is made of a continuous metal sheet bent in the transverse plane along the entire height of the supporting structure, and the braces are in the form of the heads are rigidly attached to the extreme surfaces of adjacent belts, the bearing belts are made in the form of angles of variable section, each side surface of which is a triangle or trapezoid in plan, the distance between adjacent side surfaces of the bearing belts along the height of the bearing belts is the same.

At the same time, the rack in which the angle of inclination of the braces is made more than 30 degrees with a half-step of the grill of more than 0.6 m can be equipped with additional horizontally directed struts fixed between each two adjacent braces on the side of at least one face of the section.

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 is a General view of a long steel rack in a perspective view;

figure 2 is the same as in figure 1, side view;

figure 3 is the same as in figure 1, a top view.

The utility model considers a long-length steel strut of a power transmission line support or a mast structure, which can be made as a whole team or a team of assembled individual sections.

According to the invention, the supporting structure is a spatial truss of a polygonal cross section, including curly bearing belts 1 made of curved in the transverse plane of the steel sheet material and lattice elements attached to them in the form of braces 2, by means of which these belts are interconnected. Each curly bearing belt 1 is made in the form of angles of variable section, each side surface of which is a triangle or trapezoid in plan, the distance between adjacent lateral surfaces of the bearing belts along the height of the bearing belts is the same.

The lateral surfaces of the bearing belt are inclined to the vertical axis of the spatial truss, and the braces are rigidly attached to the extreme stiffening ribs of the adjacent belts and placed with them in the same plane of each side face of the spatial truss. The 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.

The lattice elements in the form of braces 2 are rigidly overlapped to the inner surfaces of the extreme edges of adjacent belts 1 and are placed along the entire height of the lateral faces, the lattice elements can be made of a corner or round profile.

Due to the fact that the steel corner has a larger radius of inertia than a channel of a similar section, as is the case in the prototype, it becomes possible to increase the free length of the bearing belts, and, consequently, the angle of inclination of the braces, which will reduce the number of braces. A decrease in the number of braces will reduce the weight of the strut and the complexity of assembling it, which will lead to a decrease in the cost of the strut of the VL support, and will also reduce the wind pressure on the support strut by reducing the area of the braces.

In order to reduce the metal consumption of the racks, as it is the metal consumption that determines the cost of the racks, it is possible to increase the angle of inclination of the braces and the half-step of the lattice in order to reduce their number in the rack. According to regulatory documents, the installation and maintenance personnel of electric grid enterprises to the overhead line support racks are allowed for an angle of inclination of the braces of no more than 30 degrees or a half-step of the grille of no more than 0.6 m. For most of the overhead lines of support poles, the value of the angle of the braces is about 45 degrees, and the half-step gratings - 1 m or more. Thus, for most of the poles of overhead lines, the lifting of personnel to the poles is prohibited without the use of special lifting equipment. The use of special lifting equipment significantly increases the cost and increases the time required to perform horse inspection of overhead lines, installation and repair work, and in hard-to-reach areas, accessing such equipment to overhead lines is extremely difficult, and sometimes simply impossible. It is proposed to introduce additional horizontal struts 3 (horizontally directed), which are fixed between each two adjacent inclined braces 2 on the side of each side of the section while maintaining the angle of inclination of the braces more than 30 degrees with a half-step of the grating more than 0.6 m. and provides the ability to lift the installation and maintenance personnel on the pillars of overhead lines.

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 (2)

1. A long steel rack for a power line, which is a spatial truss of a polygonal cross section, containing four curly bearing belts located at a distance from each other and interconnected by inclined braces to form a closed transverse contour, each curly belt is made of a metal continuous sheet , curved in the transverse plane along the entire height of the supporting structure, and the braces in the form of corners are rigidly attached to the extreme surfaces of the bottom belts, characterized in that the carrier belts are made in the form of angles of variable cross-section, each side surface of which is a triangle or trapezoid in plan, the distance between adjacent adjacent side surfaces of the carrier belts along the height of the carrier belts is the same. 2. The long steel rack according to claim 1, characterized in that it is provided with additional horizontally directed struts fixed between each two adjacent braces on the side of at least one face of the section.