SU1078974A1 - Electric power transmission line support - Google Patents

Abstract

1. SUPPORT OF ELECTRICAL TRANSMISSION LINE, in the form of free-standing lattice of the tower-type construction, including cusps, braces, cantilever traverses with upper and lower themselves for accommodating the extreme phases and closed openings formed by side, upper and lower elements, of which average phase and wire of insulators, distinguished with. By the fact that, in order to increase the power transmitted through the line, by increasing the suspension level of the extreme phases and reducing the area of land occupied by the support, the lateral elements forming closed apertures are made in the form of cross-pieces with diagonals, one of the latter being along the cantilever traverse for the suspension of the extreme phases, the lower and upper elements, which form, moreover, closed openings, are formed by X-shaped lattice beams, and the edges of the insulators (/ them and middle phases are filled with V-shaped, and the isolates the outer phases are attached to the pole of the sprengel at the point of its connection with the cantilever crosshead and the upper end of the X-shaped lattice girders, and the wires of the middle phase insulator 1 are fixed at the end of the sprangle with the lower end of X -shaped lattice 1x beams; about 2. A support according to claim 1, characterized in that they are provided with an additional middle phase.

Description

This invention relates to the construction of high, ultra-high and ultra-high voltage overhead power lines.

The known support of the transmission line of high, ultrahigh or ultrahigh voltage, metallic with a spectacle for the middle phase, containing a trunk made of wedges and braces, cantilever traverses for the outer phases, cable-resistant L.

This support with a raised middle phase (of the Seagull type) on the straps, rather than free-standing, requires a large area for installation and is not suitable for laying several chains of a line.

Also known is the support of a high, ultra- or ultra-high voltage electrical transmission line, metallic, double-chained with two points for the middle phases of both chains, containing a V-shaped trunk from brackets and diagonals, cantilever cross members for the extreme phases, cable-resistant 2.

This support with a horizontal phase or with a slightly raised middle phase is also provided on the legs.

The disadvantage of this solution is a significant footprint.

Closest to the invention is a high-voltage power line, metallic, free-standing, tower-type with a point for the middle phase, a barrel of struts and braces, cantilever crossheads for the extreme phases, and cable resistance.

This support is referred to as the type of support with a horizontal phase, with a point for the middle phase of a triangular shape. The known support is not intended for extreme suspension of the extreme phases.

The aim of the invention is to increase the power transmitted through the line by raising the level of the extreme phases and reducing the land area occupied by the support.

The goal is achieved by the fact that in a power line support in the form of a free-standing tower-type lattice structure, including axes, cantilever traverses with upper and lower self-positioning of the outer phases and closed

openings formed by side, upper and lower elements, one of which houses the middle phase and the wires of the insulators, the side elements that form the lock; the inside holes, are made in the form of diagonal slings, one of which is made as part of the bottom along The cantilever traverse for the suspension of the extreme phases, the lower and upper elements that form locked openings, are formed by X-shaped slatted beams, and the wires of the insulators are the edge of them and the middle phase are filled with V-shaped, and the wires of the insulators of the extreme phases are attached s, belt Sprengel at its junction with the bottom of catfish cantilevered crosspiece and the upper end of the X-shaped lattice girders and technological command Girlikh middle phase insulators are fixed at the junction of the belt with the lower end Sprengel X obraznk lattice girders.

The transmission line support is provided with an additional closed opening for the placement of the middle phase and the center of the extreme phases.

The power line pylon may have two or three closed openings. Cable-resistant can be installed on the ends of the upper traverse.

FIG. 1 shows a view along a line on a single-chain transmission line support in FIG. 2 is a view along a line of a double-chain transmission line support; in fig. 3 is a view along a line of a double-chained support of a transmission line with cable-resistant lines on. level upper traverse.

A single-chain transmission line of high (for example 500 kV) ultrahigh (750 kV) or ultra-high (1150 and higher kV) voltage is a free-standing tower type.

The barrel 1 of the support is formed by vertical side elements 2, diagonals 3, spacers 4. At the bottom, the trunk is wide, and the support is installed on four foundations. The extreme phases 5 and 6, which are made of wires split into several component parts, are suspended from the cantilever cross-arms with the help of V-shaped wire insulators 7, and their internal branches are attached to them by themselves. The lower phase 8, also located on the V-shaped wire, is suspended from the side elements, with additional elements or directly. The upper part of the barrel is made the same width. Cable supports 9 are placed at the top of the support, to which ground wire cables are suspended. 10. Cables may be one or two each (for use of communication circuits). A closed opening 11 for placement; the middle phase is formed as follows. The side elements of this aperture are made in the form of sprengel 6 and with a diagonal 12 or 13 taken out of the support shaft, the outlines of which are formed by the lateral elements. The lower and upper elements of the closed aperture for placing the middle phase are formed by X-shaped intersecting braces 14 and 15. FIG. Figure 2 shows a support for a two-chain line, which includes these elements and, moreover, an opening 16 is similarly made for the middle phase, and a second chain with Additional phases 17, 18 and 19 is suspended above the first chain. In Fig. 3, another embodiment of the wire-resistant for suspension of the ground wire 20 and 21 is shown. If necessary, a similar opening can be formed over the second chain and a third chain, a fourth, etc., is suspended. Making a support from standard modules is an added advantage. The closed opening 11 occupies the entire volume of the trunk between the four vertical in this part of the support side elements 2, and the entire volume around phase 8 is free from metal parts, i.e. the support shaft in the area of the middle phase 8 is empty, and the structural elements (braces) 1.2 and 13 are outside of this volume. An additional advantage of the design 11 is that the metal support parts over the shortest distance between the phases have a minimum width, which makes it easier to provide the necessary distances between the phases horizontally and vertically. V-shaped wires prevent the wires of the phases from approaching the metallic parts of the support. Such a structure of the closed opening and the support as a whole provides for the phase arrangement of the line at the distances dictated by electrical considerations. Due to the fact that the extreme phases 5 and 6 are elevated with respect to the middle phase 8, the support shaft is elevated by this magnitude in comparison with the supports with horizontal phases. Using the so-called negative lightning angle, the cables may not be hung in the manner shown in FIG. 1 and 2, and at the ends of the upper cantilever cross members, while ensuring that there are no lightning breaks on the wires of all phases of the line. The height of the double-chain support according to FIG. 3 in the 750 kV variant for the TI of the icy region and 11 wind regions with a 6AC-400/51 wire is 50.6 m, the base width at ground level is 20 m. Overall and weight span is 545 m, weight span is 600 m. Metal consumption the support is about 27 tons. Compared with the similar double-circuit support (750 kV) with flexible cross-beams, the width of the land clamped by the support is reduced from 104 to .20 m. In general, the support is economical, technological and allows the construction of power lines to be minimized the area of the territory when tracing the line in the bake Tykhrayonah and on floodplains. The support can also be used for other electric circuits of the line, for example for cable-type VL supports with contiguous phases, in this case the cantilever crossheads are not mounted and ate three phases are placed in the eyeglass.

Claims (2)

1. SUPPORT OF THE ELECTRIC TRANSMISSION LINE, in the form of a self-supporting lattice of the tower type construction, including belts, braces, cantilever traverses with upper and lower belts for placement of extreme phases and closed openings formed by lateral, upper and lower elements, one of which contains the middle phase and strings of insulators, characterized in that, in order to increase the power transmitted along the line by increasing the suspension level of the extreme phases and reducing the area of land occupied by the support, the side elements forming a closed e openings are made in the form of trusses with braces, one of the latter being made in the form of a part of the lower belt of the cantilever traverse for hanging the extreme phases, the lower and upper elements forming closed openings are formed by X-shaped lattice beams, and the garlands of insulators of the extreme and middle phases made of V-shaped ', and the garlands of insulators of the extreme phases i are attached to the sprengel belt at the junction of it with the lower belt of the cantilever beam and the upper end of the X-shaped lattice beams, and the garlands of insulators ·' of the middle phase replays in a junction zone with the lower end Sprengel X-shaped lattice girders. 2. Prop pop. 1, characterized in that it is equipped with an additional middle phase.