SU1361663A1 - Aerial power line - Google Patents

Abstract

This invention relates to electric power industry and can be used in overhead power lines. The goal is to increase the efficiency of the transmission line. In an overhead transmission line, the lengths of the spans adjacent to the anchor-angle supports are half the length of the span between the intermediate supports. The height to the suspension of the lower wire on the anchor-angle supports is equal to the normalized minimum allowable dimension from the wire to the ground. 2 Il.

Description

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This invention relates to electric power industry and can be used in overhead power lines.

The purpose of the invention is to increase the efficiency of power lines.

FIG. 1 shows the power line profile in FIG. 2 is an example of a constructive implementation of an anchor-angle support.

In the line along the profile of the route with relief 1, anchor 2 and 3 and intermediate 4-8 supports of different height are installed with the bottom wire 9 suspended from them, which takes position 10 when the mode changes.

Anchor-angle supports 2 and 3 contain a reinforced concrete pillar 11, which in the design mode takes

position 12 with deflection arrows i and

one

i ,. The wires of the 9th line are attached to the yoke 13, and the bypass 14 is attached to the bypass stubs 15 held by the supporting cables 16. At the top of the support stand there is a lightning 1t cable 17

With this arrangement of the transmission line, the height of the intermediate supports 4 and 8 is determined by the terrain 1 of the terrain and span 1, with the lowest sag point of the wire 9 located at the point of attachment of the wires on the anchor support 2 (3). Thus, in the support arrangement mode (usually the maximum temperature mode), the entire weight of the wire in the spans adjacent to the aiker-angle supports 2 (3) falls on the intermediate supports. When calculating flexible reinforced concrete supports, 10–20% of the total moment in the support section of the rack is determined by the weight of the wire and cable on the deflection arrows of wire i and cable i, which in this case is absent, which will allow

increase the load on etoyka from the t - wires of the Tp and cables T and thereby increase the permissible angle of rotation of the route on the support. When switching to the modes with high traction in wires and cables, for example, to the mode of subzero temperatures, the P component from traction in wire 10 appears upward, which counteracts the main bending moment and unloads the rack even more.

Reducing the height of the suspension of the lower wires on the anchor-angular supports 2 (3) to the minimum allowable distance to ground G- will reduce the magnitude of the main bending moment on the rack to 30-20 50%, which will also significantly increase the maximum allowable angle of rotation and will significantly reduce the use of metal and two-column reinforced concrete supports in the design of the 25 research institutes of power lines.

Formula of the invention

An overhead transmission line containing an anchored section of the line made a multiple of the span length with anchor-angle and intermediate supports installed between them, different in height, characterized in that, in order to increase the efficiency of transmission lines, the lengths of the spans adjacent to the anchor-angle supports , made two times smaller than the length of the span between the intermediate supports, and the height to the suspension of the lower wire on the anchor-angle supports is equal to the normalized minimum allowable gabar from the wire to the ground.

Claims (1)

Claim An overhead power transmission line, 30 containing an anchored section of the line, made a multiple of the span with anchor-angular and intermediate supports installed between them, different in height, characterized in that, in order to increase the efficiency of wire lines in spans adjacent to the anchor-angular supports 2 (3), accounted for by intermediate supports. ”When calculating flexible reinforced concrete supports 10 20% of the total moment in the support section of the rack is determined by the weight of the power transmission, the length of the spans adjacent to the anchor-angle supports, They are two times smaller in comparison with the length of the span between the intermediate supports, moreover, the height to the suspension of the lower wire on the anchor wire and the cable on the arrows of the deflection of the wire i ₁ and cable ij, which is absent in this case, which will allow angular supports equal to the normalized minimum allowable dimension from wire to ground. Figure 1