SU607937A1 - High-voltage power transmission line support - Google Patents

Claims (3)

The invention relates to supports for a high voltage high voltage research institute. The known high-voltage power line support includes two racks and a cross bar between them for laying one circuit of a three-phase power line 1. The disadvantage of this support is that it is intermediate and is not intended for use as anchor anchors. The known high-voltage power line anchor-support, containing a conical reinforced tubular rack, an upper traverse for the middle wire, and lower traverses for the other two wires, in which the middle phase wire is attached to the upper part of the racks and the upper n traverse used to bypass the train 2. The disadvantage of this single-post anchor angular support with two split and one conventional pull is that it is intended for lines laid in non-populated areas where it is acceptable f ott rods system, which occupies a large area, but it is not for r-one for installation in populated areas or chi x cropland. The closest technical solution to the invention is to support the line a; i.KTpi of a high voltage transmission, including racks connected by a horizontal link, and traverse to the wires of the phases, placed by the Rus. The plane of this intermediate support is perpendicular to the direction of the line and the support is unsuitable for use as anchor-angle s. The absence of free ankeri-angular support, made of reinforced concrete pipes, without split wires, pa voltage of 110-22 kV, leads to the fact that on the lines with reinforced concrete intermediate supports, metal anchor-angular supports are used, which causes metal overspending and also, complicates the construction of power lines, since, in addition to the set of construction mechanisms: tools required for the installation of reinforced concrete pillars, it is necessary to additionally have the mechanisms and equipment necessary for the installation metal supports. If, as an anchor angular support for heavy conditions, one-rack reinforced concrete support is used, reinforced by split o-i-straps, known for BUT tension, this requires the additional construction of three foundations for pulling. In addition, such a support with split ott} K1sami occupies a larger area and is inconvenient to be installed in a populated area on the field. The disadvantages of these supports are also that they complicate and increase the cost of building power transmission lines on reinforced concrete X supports. The aim of the invention is to increase the rigidity of the support, uniform distribution of torsional and bending moments, and the possibility of using it as a jerner-angle angle, especially in manufacturing and reinforced concrete. This is achieved by the fact that support posts are installed along the power line, with the middle phase wires attached to the upper parts of the stands and the wires to the edge of the phases to the lower beam crossbars. For piping with heavy wires, Hanpti measures, with a voltage of 22 kV, the support can be equipped with additional flexible crossover cements, installed in the plane of the support in its lower part, and the horizontal connection is made in the farm and tracked in the lower beam. For a line with lighter wires, for example, a HO kV voltage, horizontal support can be made in the form of bends; their elements are installed in the upper part of the support, some of which are connected to the ends of the lower tracks. In FIG. 1 shows an anchor angular reinforced concrete support with a rigid connection between supports, for example, for a voltage of 220 kV, general view; in fig. 2 - the same, with a flexible connection between racks, for a voltage of 110 kV; FIG. 3 is an installation & ki support, on line, plan. Reinforced concrete conical tubular pillars 1 and 2 of the same type and size, which are used for intermediate supports, are installed along the line in the drilled trenches on the bolsters 3, to a normal depth, for example, 3 m at stresses of NO or 220 kV the cross section of the wires and the average climatic and ground at the catch; Racks are interconnected by a rigid tallic farm 4, the distance between the axes of the uprights is, for example, for 110 kV 3, 6 m, for 22O kV - 6 m. To the traverse 5 and 6 of the lower rus through the tension wires of insulators 7 attaches the wires of the 8 extreme phases of lines 9 and 10. The wire of the middle phase 11 also through the tension wires of the insulators 7 is attached directly to the posts 1, 2 in their upper part. The wires of the middle phase 11 of the line are connected with a loop 14 by means of suspended cable wires of the isolators 12, connected to the upper cross members 13. The loop 15 connects the sections of the outer phases 9, 10 of the line. To the top of the STO6K, a thunderstorm-proof cable is installed. The cable 16, the supports and the supports are connected to the memera. At the bottom, additional intersecting flexible connections 17 and 18 are installed in the plane of the support. Traverses (rigid connection 4), tension wires of the middle phase are attached to racks 1 and 2 with the help of devices 19. Lower flexible connections 17, 18 are attached to racks 1 and 2 with, for example, ep, forks and through bolts 20. On the support shown in FIG. 2 and designed for smaller cross-section wires, for example, used on 10O kV lines, rigid truss 4 and intersecting swaps 17 and 18 are not installed, and instead of them horizontals flexible 21, 22, 23, 24 located at the top of the support, of these, two are performed at the ends of the lower traverses, connections 2В n 24 are mouth & ample in cases when it is necessary to reduce the bending moments in the upper part of the uprights. If necessary, the stability of the support can be enhanced by additional single plates 25 attached to the ground anchors 26. The lower outer cross member 6 can be extended to provide the necessary electrical dimensions. As shown in flash. 3, the support is installed along the line (in the case of using the support as an anchor) or in a general direction along the line and perpendicular to the bisector of the angle of rotation of the line (when the support is released as an angle). Such an unusual arrangement of the support legs provides the required rigidity of the anchor support along the line, and the installation of connections (for example, for a 110 kV support) at the level of fastening of the phases of the wires makes it possible to distribute the torque and bending moments equally well in the portal support Pfatala across the line is impossible. For the 220 kV support, the load on which is substantially greater than that on the 110 kV support, rigidity is required along the line by installing additional nakonnyh internal links 17, 18 and rigid struts 4 at the level of the lower crossbars. These forces redistribute forces from horizontal longitudinal loads. , convert a significant part of the moments, bending racks, into axial forces generated by a pair of forces with a shoulder equal to the distance between the racks. From the loads across the line (along the bisector of the internal angle of rotation), the structures work as two single-rack free-standing or reinforced supports by the supports. Thus, the proposed support, although according to the basic scheme, is a portal support, but is not installed across the line in the portal plane. , and along the direction of the line. The support allows the construction of transmission lines on reinforced concrete intermediate supports with the reinforced concrete anchor Ht-yplovy supports without creases of the unified posts, used for intermediate supports; allows for the construction of such lines to use a set of construction mechanisms used for the installation of intermediate reinforced concrete pillars and to refuse from the additional mechanisms necessary in the present plots for the installation of metal anchor angle supports; reduces metal consumption for the construction of power lines. Claim 1. High-voltage power line support, including racks connected by a horizontal link, and traverses to the phase wires, placed in rusa, characterized in that, in order to increase the rigidity of the support, to evenly distribute the twisting and bending moments and the possibility of using it as an anchor-angle cage, the supports of the support are installed along the power line, while the wires of the middle phase are attached to the upper parts of the m-posts, and the wires of the outer phases to the crossbars of the lower shaft, 2. The support is pop, 1, characterized in that it is equipped with additional flexible intersecting elements installed in the plane of the support in its lower part, and the horizontal link is made in the form of a truss and is placed in the level of the traverse of the lower shaft, 3. The support according to claim .1, characterized in that the horizontal communication is made in the form of flexible elements installed in the upper part of the support, some of which connect the ends of the lower traverse, Information sources, taken into account during the examination: USSR certificate № 192387, cl. E 04 H 12/12, 1965, 2, Kryukov K. P, et al. Structures and mechanical design of power lines, L., Zvergi, 1970, p. 295, rice, 8-11 and 8-12, 3, Electrical Engineering and energy. Seri 21 E, Electrical stations, networks and systems, M., 1973, Abstract ZE85, p. 53.