UA14279U - Intermediate support of high voltage power transmission line - Google Patents

Abstract

The intermediate support of high-voltage power transmission line has two bearing grate stands, each of those comprises four bearing rods. The grate stand is installed in separate filled-body reinforced-concrete basement. There are four stays with tension units connected two by two to each of two other basements of same type. The traverse comprises the upper and the lower belt with grates. To the lower belt of the traverse three garlands of insulators are attached, and two cable stands, to those lightning-protection wire is connected. The basements are arranged as conical shell of revolution and installed to basement pits in horizontal positions at the level of zero mark. The grates of four long support rods and the stretched belt of the traverse are made pre-stressed, dimension of those and the sag of electric wire are determined through calculations. Through geometrical center of cross-section of both grate stands central stand is installed. The lower compressed belt of the traverse is made as two-branch one, with parabolic long profile with adjoining the upper belt at the ends through insulators made of glass-ceramic inserts and with joining the grate in intermediate nodes of the upper belt of the traverse through glass-ceramic inserts.

Description

Description of the invention

The useful model refers to energy and, in particular, to overhead structures for the transmission of electricity over a distance.

Intermediate supports of high-voltage power lines are known, such as: "Intermediate metal supports on tie-rods for 220kV overhead line type P21". | Reference book on the construction of power lines. "Znergia" publishing house. M. 1966). This technical solution is accepted as a prototype. The indicated intermediate support of the high-voltage power transmission line is composed of two lattice posts, each of which is installed in a separate full-body reinforced concrete foundation, 70 immersed in the ground to a depth of 2.6 m, four braces with tensioning devices and attached two to each of two foundations of a similar model , a traverse consisting of lower and upper belts with bars, three garlands of insulators and two cable supports to which a lightning protection wire is attached are attached to the lower belt of the traverse.

The main drawback of the prototype is the lack of overall stability and rigidity, which reduces the durability of the 72 main load-bearing elements of the high-voltage power transmission line and, in particular, the lattice racks of the supports and traverses to it.

The useful model is based on the task of creating an intermediate support of a high-voltage power line, the design features of which would ensure an increase in its stability and rigidity, which would contribute to the increase of its durability. 20 This is achieved by the fact that in the intermediate support of the high-voltage power line, which includes two load-bearing lattice risers, each of which is composed of four bearing rods, the lattice stand is installed in a separate full-body reinforced concrete foundation, four braces with tensioning devices and two attached to each from two other foundations of a similar model, a traverse made of upper and lower belts with lattices, three garlands of insulators and two cable supports are attached to the lower belt of the traverse, to which 25 lightning protection wires are attached, the foundations are made in the form of a conical shell of rotation and installed squared pt) horizontally at the level of the zero mark, the bars of the four longitudinal support rods and the stretched belt of the traverse are pre-tensioned, their size and the sag of the electric wire are determined by calculation, a central riser is installed along the geometric center of the section of both lattice risers, the lower compressed belt of the traverse is made of two branches i.e., a parabolic longitudinal profile with a 30° connection with the upper belt at the ends through insulators made of sital spacers and connecting to the gratings in the intermediate nodes of the upper belt of the traverse through sital inserts.

The following cause-and-effect relationship exists between essential features and the task of a useful model. high school

Unlike the prototype, in which the foundations for lattice racks of supports and braces are made in the form of full-bodied cones, deeply immersed in the ground, which requires additional costs for installation work and ensuring their corrosion resistance, in the ordered utility model, foundations like a conical shells -- rotation, the surface of which is performed at the level of --0.000, which at insignificant additional costs provides corrosion protection of the metal elements of the braces and contributes to their durability, and due to reliable pinching in the ground, ensures the stability of the structure. "

Unlike the prototype, in which the increase in the length of the longitudinal rods of the lattice struts of the supports and the Z7Z traverse without taking other constructive measures will lead to a decrease in their overall stability and loss of stiffness, in the ordered utility model, due to the introduction of prestressing, the length of these elements can be increased respectively on 30-2095 and this will cause the avoidance of loss of stability.

In contrast to the prototype, in which the traverse is made with a constant width of the distance between both carriers with 75 rods of the lower belt, which does not correspond to the bending moment pattern (especially when the electric wire breaks due to wind load), and this leads to a loss of stability of the traverse, in the ordered the lower belt of the traverse of the useful model t" has a parabolic longitudinal profile, and therefore its resistance to the resulting bending moment corresponds to the calculation scheme. o In contrast to the prototype, in which a lattice -I 90 system of connecting rods is used between the longitudinal rods of the lattice rack, in the ordered useful model cross-pieces are used with holes for passing rods through them, which in the future stress. c In contrast to the prototype, in which the elements of the lattice riser work on alternating forces from the external load, which does not contribute to the durability of the specified structural elements and especially the welds, in the ordered useful model, the operation of individual structural elements is characterized by one type of 59 stress state, namely: central the riser is constantly centrally compressed, and the struts are stretched, and this contributes to the durability and corrosion resistance of the structure.

Unlike the prototype, in which the longitudinal elements of the riser are composed of four rods placed at the corners of the cross section of the riser, in the ordered utility model, a fifth rod is placed in the center of this section, which is not prestressed. 60 In contrast to the prototype, in which the deflection angle of the electric wires does not exceed 1/70, in the ordered utility model, due to the increase in the length of the lattice risers, the deflection angle is brought to 1/40 of the distance between the supports, which will proportionally reduce the force tension in the wire and, thus thus, will increase their resistance to the elements.

In contrast to the prototype, in which the intermediate supports of the high-voltage power transmission line during lifting and transport operations are prone to residual and irreversible deformations of their main non-stressed load-bearing elements and especially those performed in off-road conditions, in the ordered useful model due to prestressing, elastic deformation of these elements is observed and their initial shape is preserved, that is, the condition of roads and other unfavorable conditions of transportation do not cause irreversible deformations

In them, and therefore the main structural elements of the supports and, in particular, the risers and the traverse must be manufactured in factory conditions, where the quality of their manufacture is guaranteed.

In contrast to the prototype, in which the technology of electric heating of rods for prestressing and the use of sieve inserts and spacers was not used for the manufacture of support elements of high-voltage power lines, in the ordered utility model this process and its equipment are applied, 7/0, which contributes to the improvement of quality work and labor productivity.

Thus, the application of prestressing in the technology of manufacturing supports of high-voltage power lines and the implementation of a whole series of improvements in essential technical solutions will ensure the stability and rigidity of the supports, which ensures durability in extreme operating conditions.

The essence of the useful model is explained by the drawings, which show: - Fig. 1 General view of the support. - In Fig. 2 View of the support from the side. - In Fig. 3 Node A. - In Fig. 4 Node B. - In Fig. 5 Node B.

The intermediate metal support of the high-voltage power transmission line has the following material objects: four separate reinforced concrete foundations 1 with support plates 2 and anchor bolts 3, two lattice risers 4 with two central risers 5, stretchers 6 and crosses 7, four stretchers 8 with devices for them tension 9, traverse 10, made like a sprengel run, consisting of upper 11, lower 12 belts and gratings 13, two cable stays 14, three garlands of insulators 15.

The declared structure is produced and assembled as follows: in prepared pits at the calculated depth and on soil compacted by a known method, foundations 1 are installed, made according to the example of t conical shells of rotation in the amount of four copies for each support, two of them - under lattice risers 4 and two - for braces 8. The hole in the foundation 1 is intended for filling the cavity in it with compacted bulk material, strengthened with a low-quality cement-sand mortar, after which the base plate 2 is mounted with the help of anchor bolts Z. The number of anchor bolts Z is determined by calculation. The base plate 2 is the basis for installing the central riser 5 with stretchers b. The surface of all foundations has a grade of 0.000. Unlike the prototype, all foundations are mounted relative to the vertical axis, that is, in a horizontal position. The dimensions of foundations 1 and their main structural data are determined by calculation.

When ensuring high-quality sealing of the material in the middle, center and on the sides of the foundation, its stability and operational reliability are ensured. Lattice racks 4 are composed of a central riser 5, pre-stressed stretchers 6, which are passed through holes in the crosspieces 7. At the base of the lattice risers 4, stretchers b are connected to the base plate 2 in a known way. Also, a traverse 10 is made in a known way, which is composed of upper 11, lower 12 belts and gratings 13. Ties 8 are equipped with tensioning devices 9, which are placed at a distance from the mark 40,000 not less than 2 m and connected to the base plate 2 in a known way. Cable risers 14 are made like a prototype without tension, given their small size. Garlands - from insulators 15 are attached at the ends of the crossbar 10 and in its center, as shown in Fig.1. Rigid connections in the structure of the support are the joint between the central riser 5 and the lower belt of the traverse 12, as well as between the traverse 10 and "» cable stays 14. These connections are made by welding and using galvanizing of the weld seam.

Thus, the proposed useful model of the intermediate high-voltage support of the power transmission line, in comparison with the prototype, has significant advantages in terms of stability and rigidity of individual elements and construction - in general, which will contribute to increasing its durability, thanks to which it will resist the elements much longer and more stably. on the basis of this, their wide industrial application will be determined. name)

Claims (1)

The formula of the invention (Che) An intermediate support of a high-voltage power line, which contains two load-bearing lattice risers, each of which is composed of four load-bearing rods, the lattice riser is installed in a separate full-body reinforced concrete foundation, four braces with tensioning devices and two attached to each of the other two foundations of a similar model, a traverse consisting of upper and lower belts with gratings, three garlands of insulators and two cable stays attached to the lower belt of the traverse, to which a lightning protection wire is attached, which differs in that the foundations are made like a conical shell of rotation and are installed in the pit horizontally at the level of the zero mark, the lattice of four longitudinal support rods and the stretched belt of the traverse are pre-tensioned, their size and the sag of the electric wire are determined by calculation, a central riser is installed along the geometric center of the cross section of both lattice risers, the lower compressed belt of the traverse is made double vim, of a parabolic longitudinal profile with connection to the upper belt at the ends through insulators made of sital pads and connection to the gratings in the intermediate nodes of the upper belt of the traverse through sital inserts. b5