SU1270273A1 - Anchored corner support for power transmission line - Google Patents

Abstract

1. ANCHOR-ANGULAR SUPPORT OF THE ELECTRICAL TRANSMISSION LINE, which includes vertical posts installed at the corners of a convex polygon, horizontal elements that unite the edges of the racks along the perimeter and the pre-stressed cross-flexible links connecting each pair of racks differing from in order to reduce material consumption, the horizontal elements are made in the form of prestressed flexible tubes, and the support is fitted with a diaphragm made of radially arranged rigid elements at the level of wire fastening attached at one end to the tops of the pillars are hinged, while the other is rigidly attached to a common node in the center of a polygon (S nickname. (S o Svo /////

Description

2. The support according to claim 1, characterized in that it is provided with an additional diaphragm.

3. A support according to claim 1, characterized in that the horizontal elements are made in the form of a rectangle, and one of the axes of symmetry of the rectangle is located along the bisector of the angle of rotation of the line, the outer wires being attached to the supports of the support, and the inner ones - to radial rigid elements diaphragm

4. A support according to claim 1, characterized in that the horizontal elements are made in the form of a trapezoid, facing a small base towards the angle of rotation of the stick, and the axis of symmetry is located along the bisector of the angle of rotation.

5. The support according to claim 1, characterized in that the horizontal elements are made in the form of a triangle, one of the struts rasmedena pas bisector of the angle of rotation from its inner side and made integral in height of the elements interconnected rigidly.

6. A support according to claim 1, characterized in that the radial elements of the diaphragms are made in the form of a space truss, and the wires are attached to the upper and lower trusses along the truss itself.

7. A support according to claim 1, characterized in that the radial elements of the diaphragms are attached to a common node in polygons with the possibility of moving in a horizontal plane.

The invention relates to the construction of high and ultra-high voltage power lines and can be used as anchor and anchor-angle type supports, mainly pa V L 220-1150 kV.

The aim of the invention is to reduce material consumption.

FIG. 1 shows an anchor-angular support (diagonal extensions in the side faces x are not shown), general view; in fig. 2 - the same plan view; in fig. 3 - a four-post support with the main and additional diaphragms with fastening of wires; in fig. 4 - the same, with fastening of cable wires, plan view; in fig. 5 - the same, with the fastening of the three wires, a view in the plan; in fig. 6 - three-post support with internal double stand with fastening of three wires, view in plan; in fig. 7 - a four-post support with a diaphragm in the form of a spatial truss with fastening of two wires at the level of the upper diaphragm, two wires at the level of the lower self diaphragm and two wires to the uprights, view along the line.

The supports 1 are vertically mounted and secured in drilled trenches. In the upper part of the support between adjacent racks, prestressed flexible rods 2 are installed. All racks are connected by rigid radially arranged elements 3 according to the number of racks to the central unit 4, which unites all elements. The radial elements are hinged to the posts in the nodes 5. If necessary, overlapping flexible connections are established in each face of the support 6.

In a three-phase power line, wires of all phases are placed in a horizontal plane. The bypass cable sleeves 7 are attached to rigid radial elements 3 or their extensions 8 through supporting wires 9. In a double-circuit transmission line with a brush, the phases of the wire are arranged in two lines, for example, as shown in FIG. 3 and 4. Phases 10 and 1 are fixed to the posts at the level of the upper tier, phases 12 and 13 are fixed to the strut of the upper tier, and phases 14 and 15 are fixed to the strut of the lower tier. Loops of all phases are led through supporting wires attached to either

rigid elements, or to their continuations Tension wires of insulators 16 of internal phases 12 and 13 are removed outside the contour of flexible elements 2 with the help of t g 17.

In the case of rigid elements

diaphragms from spatial trusses (Fig. 7), the wires are fixed to the upper 18 and lower 19 along the diaphragms themselves, while the flexible traverse 20 and arm 9, installed above the diaphragm, are used to stroke the upper phases.

There are options for the support with an additional diaphragm, with horizontal elements made in the form of a rectangle, one of the axes of symmetry is located along the bisector of the angle of rotation of the line or trapezium facing the small base inside the angle of rotation, and the axis of symmetry of the angle of rotation of the line located fastening the extreme wires to the supports of the support, and internal - to the rigid elements of the diaphragm. For a three-post support, an option is provided with placing one of the uprights on the bisector of the angle of rotation from its inner side and making this stand a composite of two uprights connected rigidly to each other. In order to better position the main and additional wires in order to provide the necessary distance between the wires, as well as to facilitate rigid radial elements of the diaphragms, a variant of rigid radial elements in the form of a spatial truss with fastening part of the wires to the top and bottom along this truss itself is provided. To simplify installation, a variant is provided for mounting rigid radial elements of the diaphragm to a common node with the possibility of movement in the horizontal plane. The support works as follows. When both longitudinal and transverse forces from the wires are applied, all the racks are evenly activated, due to the diaphragm of a special structure made of rigid elements and prestressed flexible rods, for example, during a phase break, all the racks work flexibly and reliably to reduce the torque if necessary, intersecting flexible links 6 are installed in all faces of the support, as shown in FIG. 3 and 7. The construction of the support allows the construction of Transmission lines on reinforced concrete anchor-angle supports, since support columns can be used as standard, currently manufactured for intermediate supports. Calculations show that the replacement of steel anchor-angle unified supports on concrete is already effective from a power line with a voltage of 110 kV, the economic effect increases with increasing line voltage.

Claims (7)

1. ANCHOR ANGULAR SUPPORT OF THE ELECTRIC TRANSMISSION LINE, including vertical racks installed at the corners of a convex polygon, horizontal elements uniting the vertices of the racks around the perimeter and prestressed cross flexible connections connecting each pair of racks, characterized in that, in order to reduce material consumption, horizontal the elements are made in the form of prestressed flexible rods, and the support is equipped with a diaphragm of radially arranged rigid elements mounted at the level of the wires, sec. articulated at one end to the tops of the racks and the other rigidly to a common node in the center of the multi-angle SU, „, 1270273 2. Support under item 1, characterized in that it is equipped with an additional diaphragm. 3. Support on π. 1, characterized in that the horizontal elements are made in the form of a rectangle, and one of the axes of symmetry of the rectangle is located along the bisector of the angle of rotation of the line, with the outer wires attached to the pillars of the support, and the inner wires to the radial rigid elements of the diaphragms. 4. Support on π. 1, characterized in that the horizontal elements are made in the form of a trapezoid, facing a small base towards the angle of rotation of the line, and the axis of symmetry is located on the bisector of the angle of rotation. 5. Support on π. 1, characterized in that the horizontal elements are made in the form of a triangle, and one of the racks is placed on the bisector of the angle of rotation from its inner side and is made integral in height from the elements rigidly connected to each other. 6. Support on π. 1, characterized in that the radial elements of the diaphragms are made in the form of a spatial truss, and the wires are attached to the upper and lower zones of the truss. 7. Support on π. 1, characterized in that the radial elements of the diaphragms are attached to a common node in polygons with the possibility of movement in the horizontal plane.